1
Shivaji University, Kolhapur
Department of First Year Engineering
Course plans for F.E. All Branches (Semester-II)
Scheme of Teaching & Examination
Physics Group
Sr.
No.
Subject Teaching / Week
(Hours/Week)
Examination Scheme
(Marks)
L P T Total Theory TW Total
1 Engineering Physics 03 02 05 100 25 125
2 Engineering Mathematics-II 03 01 04 100 25 125
3 Basic Electrical Engineering 03 02 05 100 25 125
4 Basic Civil Engineering 03 02 05 100 25 125
5 Engineering Graphics# 03 02 05 100# 25 125
6 Professional Communication-II 01 02 03 -- 25 50
7 Workshop Practice-I 01 02 03 -- 25 50
Total 17 12 01 30 500 200 700
#Theory paper of 4 hours duration
Chemistry Group
Sr.
No.
Subject Teaching / Week
(Hours/Week)
Examination Scheme
(Marks)
L P T Total Theory TW Total
1 Engineering Chemistry 03 02 05 100 25 125
2 Engineering Mathematics-II 03 01 04 100 25 125
3 Basic Electrical Engineering 03 02 05 100 25 125
4 Basic Civil Engineering 03 02 05 100 25 125
5 Engineering Graphics# 03 02 05 100# 25 125
6 Professional Communication-II 01 02 03 -- 25 50
7 Workshop Practice-I 01 02 03 -- 25 50
Total 17 12 01 30 500 200 700
$ should be taught by single faculty ONLY
2
INDEX
Sr. No. Subject Code Page No.
1 Engineering Physics FE101 3
2 Basic Electrical Engineering FE103 18
3 Basic Civil Engineering FE104 32
4 Engineering Graphics FE105 50
5 Engineering Chemistry FE106 68
6 Fundamental of Electronics and Computer
Programming
FE107 87
7 Applied Mechanics FE108 102
8 Basic Mechanical Engineering FE109 125
9 Engineering Mathematics II FE110 137
10 Workshop Practice I FE112 166
11 Workshop Practice II FE113 172
12 Professional communication II FE114 178
3
Course Name Engineering Physics Course Code FE101
Prepared by Dr. Mrs. Sandhya Amol Jagadale Date 7/11/2017
Prerequisites Atomic Structure, energy levels, concept of diffraction, polarization and
interference, total internal reflection, Rayleigh’s criterion, concept of quanta,
nature of light, scattering of light.
Course Outcomes
At the end of the course the students should be able to:
CO 101.1 Solve3 grating equation and determine specific rotation with the help of
Laurentz half shade polarimeter.
CO 101.2 Describe1 types of laser with the help of proper energy level diagrams and
write laser transmission through the optical fiber.
CO 101.3 Review2 the origin of nuclear fission and nuclear fusion and describe fission
and fusion reactors.
CO 101.4 Classify4 various crystal systems and to describe the X-ray diffraction by
crystal.
CO 101.5 Apply3 concepts of Quantum mechanics to solve numerical.
CO 101.6 Explain2 the synthesis methods for nanomaterial and relate properties of
nanomaterial with their applications.
Mapping of COs with POs
POs
COs
a b c d e F g h i j k l
CO 101.1 3 3 3 2
CO 101.2 3 2 1 2
CO 101.3 3 3 2
CO 101.4 3 3 3
CO 101.5 3 2
CO 101.6 3 3
4
Course Contents
Unit No. Title No. of Hours
Section I
1. Diffraction and Polarization 07
2. Laser and Fiber Optics 07
3 Nuclear Energy 07
Section II
4. Crystallography 07
5. Quantum Physics 07
6. Nano Physics 07
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1 Solid State Physics :
Structure & Electron
Related Properties
S. O. Pillai Eastern Ltd, New Age
International Ltd.
Unit 4,
Unit 5
2 Introduction to Solid
State Physics
Charles Kittle,
Wiley India Pvt.
Ltd.(8thEdtion).
Wiley India Pvt. Ltd. Unit 4
3 Engineering Physics B. K. Pandey and
S. Chaturvedi
Cengage Learning-
2012
All units
4 Modern Physics B. L. Theraja S. Chand & Company
Ltd., Delhi
Unit 6
5 Nanotechnology Pandey Cengage Publication Unit 5
6 Optics Subramanyam&Br
ijLal
S. Chand & Company
(P.)Ltd.
Unit 1
and 2
5
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 - 125
Contact Hours/ week 3 2 -- 5
Scheme of Marks
Section Unit No. Title Marks
I 1 Diffraction and Polarization 17
2 Laser and Fiber Optics 17
3 Nuclear Energy 16
II 4 Crystallography 17
5 Quantum Physics 17
6 Nano Physics 16
Course Unitization
Section
Unit Course Outcomes No. of Questions
No Title CAT-I CAT-II
I 1 Diffraction and
Polarization
Derive grating equation and determine
specific rotation with the help of
Laurent’s half shade polarimeter.
1
2 Laser and Fiber
Optics
Describe types of laser with the help of
proper energy level diagrams and write
laser transmission through the optical
fiber.
1
3 Nuclear Energy Elaborate the origin of nuclear fission
and nuclear fusion and study fission and
fusion reactors.
Class
Test
II 4 Crystallography To differentiate various crystal systems
and to study the X-ray diffraction by
1
6
crystal.
5 Quantum
Physics
Apply concepts of Quantum mechanics
to solve numerical.
1
6 Nano Physics Explain the synthesis methods for
nanomaterial. To connect properties of
nanomaterial with their applications.
Class
Test
Unit wise Lesson Plan
Section I
Unit No 1 Unit Title Diffraction and Polarization Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Diffraction: Introduction
2 diffraction grating - construction, theory
3 resolving power, resolving power of plane transmission grating,
4 numerical of grating equation
5 Polarization: Introduction, double refraction, Huygens’ theory (positive and negative
crystals)
6 optical activity, Laurent’s half shade polarimeter
7 Numerical of specific rotation, Photo-elasticity
Unit No 2 Unit Title LASER and Fiber Optics Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Absorption, spontaneous emission, stimulated emission,
2 Lasing action, pumping energy, population inversion
3 Types of laser, characteristics of laser, Ruby laser, construction, working with energy
level diagram.
7
4 Applications of laser (industrial & medical), Holography (construction, reconstruction,
and applications).
5 Principle, structure of optical fibre, propagation of light, acceptance angle and acceptance
cone (no derivation),
6 numerical aperture (no derivation), types of optical fibre,
7 Applications (medical, military, entertainment, communication, optical fiber sensors),
advantages of optical fibres.
Unit No 3 Unit Title Nuclear Energy Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Introduction, structure of nucleus, 1a.m.u.relation with energy,
2 Energy released by 1 Kg. of U-235
3 Chain reaction, its types, multiplication factor
4 nuclear reactor and their classification, essentials of nuclear reactor
5 numerical for energy released by Uranium
6 Nuclear fusion (p-p chain, c-n cycle),
7 Conditions for fusion reaction, fusion reactor.
Review Questions
Q1 Distinguish between positive & negative crystals CO
101.1 Q2 Explain the theory of plane diffraction grating & obtain grating equation
Q3 Write a note on ‘Laurent’s half shade polarimeter’
Q4 Define resolving power & obtain expression for it.
Q5 Define double refraction & Find the angular separations between two sodium
lines, whose wavelength are 5890A0 & 5898A0 respectively for the plane
diffraction grating with 1800 lines/inch in first order spectrum.
Q6 Explain optical activity & State the formula for specific rotation
Q7 Diffraction grating used at normal incidence gives the line of wavelength λ1 =
6000Ao in certain order superimposed on another line λ2 =4500 Ao of the next
higher order. If the angle of diffraction is 30o, calculate the number of lines in 1
8
cm of grating.
Q1 Explain construction and working of Ruby laser CO
101.2 Q2 Explain
1. Stimulated absorption
2. Spontaneous emission
3. Stimulated emission
Q3 Write a note on metastable state and population inversion
Q4 Write a note on hologrphy
Q5 State the applications of laser in various fields
Q1 Define, Chain reaction and critical size CO
101.3 Q2 Discuss the classification of nuclear reactor.
Q3 Distinguish between fission and fusion.
Q4 Discuss the requirements of thermonuclear fusion power reactor
Q5 Explain thermonuclear reactions according to sun and st
Q6 Describe fusion power reactor with neat diagram
Q7 Define nuclear fission. Calculate the energy released by 1 kgof U235 in kwh
Q8 A city requires 5000 MWh electric energy per day. This is to be obtained by
nuclear reactor of efficiency 30%. Calculate the mass of U235 needed for one
day operation of nuclear reactor. Assume the energy released per fission of
U235 is 200MeV.
Q9 A railway engine develops an average power of 1000 kW during a ten hour run
from one station to another. If the engine is driven by an atomic power plant of
20% efficiency, How much U-235 would be consumed on the run? Each U-
235 atom on fission releases 200MeV of energy.
Section II
Unit No 4 Unit Title Crystallography Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Introduction matter, states of matter, Unit cell,
9
2 Properties of unit cell i.e (number of atoms per unit cell, coordination number, atomic
radius, packing fraction) for BCC, FCC and SC structure
3 Fourteen Bravais lattices, symmetry elements in cube
4 relation between density and lattice constant, relation between interplanner distance and
lattice constant, numerical for both relations
5 Miller indices - procedure, features and sketches for different planes.
6 X-ray diffraction, Bragg's law,
7 Bragg's x-ray spectrometer, numerical for Bragg’s law
Unit No 5 Unit Title Quantum Physics Planned Hrs. 05
Lesson schedule
Class
No.
Details to be covered
1 Introduction to quantum mechanics. Wave-particle duality,
2 De- Broglie Hypothesis. Determination of wavelength of matter waves.
3 Properties of matter waves. Compton Effect.
4 Derivation of Compton shift.
5 Numericals for Compton shift and de-Broglie’s wavelength.
Unit No 6 Unit Title NanoPhysics Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Basic concepts – nanoscale, nanomatrerials. Introduction to nanotechnology.
2 Production techniques for nanomaterials- top down approach.
3 Production techniques for nanomaterials- bottom up approach, properties and
applications of nanomaterials.
4 Properties and applications of nanomaterials.
5 Characterization tools Scanning Tunneling Microscopy.
6 Characterization tools Atomic Force Microscopy.
7 Introduction to CNT, Properties and applications.
10
Review Questions
Q1 Explain seven systems of crystals in terms of relations of intercepts & interfacial
angles. List the name of 14 bravais lattices.
CO
101.4
Q2 Define packing factor & calculate the values of packing factor for S.C. , BCC,
FCC lattices
Q3 What are Miller indices? Explain the procedure to find Miller indices & obtain
the properties of Miller indices.
Q4 Show that for cubic lattice, the lattice constant is given by a3 = nA /þN, where
the symbols have usual meaning
Q5 Explain Element of symmetry in cubic lattice. s
Q6 State Bragg’s law. Describe the construction & working of Braggs spectrometer
used for crystal analysis.
Q7 Derive Bragg’s relation.
Q8 A beam of x-ray of wavelength 0.842 Ao is incident on a crystal at a glancing
angle of 80o 35’ when the 1st order Bragg’s reflection occurs. Calculate the
glancing angle for 3rd order reflection.
Q9 Lead is face centered cubic with an atomic radius of r =1.746Ao. Find the
spacing of (200) (220) (111) planes.
Q10 Obtain the Miller indices for the plane making intercepts of 1Ao, 2Ao,3Aoalong
x, y & z axes.
Q11 State the De- Broglie’s hypothesis of matter wave. CO
101.5 Q12 Derive an expression for wavelength of matter wave in terms of kinetic energy
of particle.
Q13 State the properties of matter wave.
Q14 State & explain Heisenberg uncertainty principle.
Q15 What is Compton Effect? Derive an expression for Compton shift.
Q16 Explain in brief production techniques used in nanomaterial. CO
101.6 Q17 Discuss in brief construction & working of STM.
Q18 Write the properties &application of nanomaterial.
Q19 Explain two types of CNT & state any four applications.
Q20 Explain in brief AFM.
11
Model Question Paper
Course
Title :
Engineering Physics Max.
Marks
Duration 3hrs. 100
Instructions:
1. Figures to the right indicate full marks.
2. Use of electronic calculator is allowed.
Section-I Marks
1 a Explain the theory of plane diffraction grating & obtain grating equation. 6
b Explain the construction & working of Laurent’s half shade polarimeter. 6
c What is double refraction? Distinguish between positive & negative
crystal.
5
OR
c Define resolving power? Hence determine resolving power in second
order for a light of wavelength 5000 A0 which falls on a grating normally.
Two adjacent principle maxima occur at sinθ1=0.2 & sinθ2=0.3
respectively. Also calculate the grating element (Given: The width of
grating surface is 2.5).
5
2 a Explain the construction & working of ruby laser. 6
b Explain the terms
a) Population inversion
b) Pumping energy
c) Stimulated emission
6
c Explain the construction of optical fiber & explain propagation of light
through fiber.
5
OR
c What are the advantages of optical fiber communication system over
conventional method of communication? Hence determine numerical
aperture of optical fiber if refractive index of core & cladding is 1.60 &
1.57 respectively.
5
3 a Explain the essentials of nuclear fission reactor. 6
12
b Calculate the power output of a nuclear reactor which consumes 25 gm of
U235 per day. Assume 5% reactor efficiency& energy released per fission
of U235 is 200MeV.
5
c Explain the conditions of fusion reactor. 5
OR
c Explain nuclear chain reaction and Critical size. 5
Section-II Marks
4 a Explain seven systems of crystals in terms of relations of intercepts &
interfacial angles. List the name of 14 Bravais lattices.
6
b Explain Element of symmetry in cubic lattice. 6
c What are Miller indices? Obtain the Miller indices for the plane making
intercepts of 1Ao, 2Ao, 3Ao along x, y & z axes.
5
OR
c State & derive Bragg’s law of X-ray diffraction. 5
5 a What is Compton Effect? Derive expression for Compton shift. 6
b State the hypothesis of matter wave. Hence obtain relation for wavelength
of matter wave in terms of kinetic energy.
6
c State & explain Heisenberg’s uncertainty principle. 5
OR
c State the properties of matter wave. 5
6 a Explain in brief two production techniques used in synthesis of
nanomaterials.
6
b Discuss in brief the construction & working of scanning tunneling
microscope.
5
c What are carbon nanotubes (CNT’s). State it’s any three applications. 5
OR
c State different properties of nanomaterials. 5
Laboratory Work:
List of experiments/assignments to meet the requirements of the syllabus:
13
1. Calculation of divergence of LASER beam.
2. Determination of wavelength of LASER using diffraction grating.
3. Diffraction grating using mercury vapor lamp.
4. Polarimeter.
5. Verification of inverse square law of intensity of light.
6. Measurement of band gap energy.
7. Study of crystal structure.
8. Study of symmetry elements of cube.
9. Determination of‘d’(interplanner distance) using XRD pattern.
10. Study of Planes with the help of models related Miller Indices.
Lab Test No.1
Lab Test Title : Band Gap Energy of Semiconductor CO101.1
Q. No. Questions Marks
Q 1. What are three types of solids? 01
Q 2. How metal, semiconductors and insulators are different in respect of band
gap energy? 01
Q 3. What are types of semiconductor? 01
Q 4. What is P-type of semiconductor? 01
Q 5. What is n-type of semiconductor? 01
Q 6. Which semiconductor is used in this experiment? 01
Q 7. What is the value of band gap energy in this experiment? 01
Q 8. How current varies with increase in temperature? 01
Q 9. Why semiconductors are called negative temperature coefficient of
resistance 01
Q 10. How metals/conductors behave with increase in temperature? 01
Lab Test No.2
Lab Test Title : Diffraction Grating CO101.1
Q. No. Questions Marks
Q 1. Which instrument is used to measure the angle of diffraction? 01
14
Q 2. What is diffraction? 01
Q 3. What is diffraction grating? 01
Q 4. What is equation of diffraction grating? 01
Q 5. What is grating element or constant? 01
Q 6. What is resolving power? 01
Q 7. What is resolving power of grating? 01
Q 8. State the equation of resolving power of grating. 01
Q 9. Give the relation between number of line on grating and grating constant. 01
Q 10. How many lines observed in visible spectrum? 01
Lab Test No.3
Lab Test Title : Determination of Specific Rotation by Laurentz Half Shade Polarimeter CO101.1
Q. No. Questions Marks
Q 1. Which instrument is used to determine the specific rotation? 01
Q 2. What is specific rotation? 01
Q 3. Which formula is used to determine the specific rotation? 01
Q 4. Draw the experimental arrangement of the instrument which is used to
determine the specific rotation. 01
Q 5. Define the half shade device. 01
Q 6. What is optical activity? 01
Q 7. What do you mean by optically active material? 01
Q 8. What is polarized light? 01
Q 9. Draw the symbol of o-ray and e-ray. 01
Q 10. Why do you use the Laurent’s half shade Polarimeter? 01
Lab Test No.4
Lab Test Title : Study of Crystal Structure CO101.1
Q. No. Questions Marks
Q 1. Define crystal lattice. 01
Q 2. Define unit cell. 01
Q 3. What is the primitive cell? 01
15
Q 4. What is mean by non-primitive cell? 01
Q 5. What is mean by crystallographic axes? 01
Q 6. Define the cubic structure. 01
Q 7. What are the lattices of Orthorhombic system? 01
Q 8. What are the conditions for Triclinic system? 01
Q 9. Draw the simple Hexagonal system. 01
Q 10. How many lattices defined by Bravais. 01
Lab Test No.5
Lab Test Title : Study of Symmetry Elements CO101.4
Q. No. Questions Marks
Q 1. Define symmetry of crystal. 01
Q 2. What are the types of Symmetries? 01
Q 3. What is the Axis of Symmetry? 01
Q 4. What is the Plane of Symmetry? 01
Q 5. What is the Center of Symmetry? 01
Q 6. What is mean by two fold symmetry? 01
Q 7. What is mean by three fold symmetry? 01
Q 8. What is mean by four fold symmetry? 01
Q 9. Draw the plane of symmetry parallel to the face of Cube. 01
Q 10. Draw the plane of symmetry formed by a pair of opposite parallel edges of
Cube (any three). 01
Lab Test No.6
Lab Test Title : Study of Miller Indices and Planes CO101.4
Q. No. Questions Marks
Q 1. Write one feature of Miller plane. 01
Q 2. Why miller indices are necessary in crystal structure? 01
Q 3. Draw miller plane (100) 01
Q 4. Draw miller plane (010) 01
Q 5. Draw miller plane (001) 01
16
Q 6. Draw miller plane (110) 01
Q 7. Draw miller plane (101) 01
Q 8. Draw miller plane (011) 01
Q 9. Draw miller plane (111) 01
Q 10. Draw miller plane (121) 01
Lab Test No.7
Lab Test Title : Characteristics of LASER CO101.2
Q. No. Questions Marks
Q 1. Write full form of LASER. 01
Q 2. What are different types of laser? 01
Q 3. Which type of laser is used in this experiment? 01
Q 4. What is the color of laser used in this experiment? 01
Q 5. What are different characteristics of laser? 01
Q 6. Why laser is highly directional? 01
Q 7. What do you mean by coherent characteristics? 01
Q 8. What do you mean by monochromatic source? 01
Q 9. Which characteristic of laser is studied in this experiment? 01
Q 10. Interpret the result for characteristics of laser studied in this experiment. 01
Lab Test No.8
Lab Test Title : Laser Wavelength CO101.2
Q. No. Questions Marks
Q 1. What happens when diffraction grating is placed in between laser source
and the screen? 01
Q 2. Interpret the observation on the screen of experimental set up of this
experiment 01
Q 3. Why laser beam gets diffracted by diffraction grating? 01
Q 4. What should be the range of wavelength of laser source used? 01
Q 5. Define stimulated absorption. 01
Q 6. Define spontaneous emission. 01
17
Q 7. Define stimulated emission. 01
Q 8. Define Metastable state. 01
Q 9. Define population inversion 01
Q 10. Define pumping 01
18
Course Title Basic Electrical Engineering Course Code FE103
Prepared by Mr.A.B.Kumbhar Date 1/11/2017
Prerequisites The student should have knowledge about mathematical concepts, magnet and
its properties. The student should know fundamental concepts and laws in
physics.
Course Outcomes
At the end of the course the students should be able to:
103.1 Solve3 numerical on electric circuit and magnetic circuit using laws of KCL,
KVL and magnetic circuits.
103.2 Explain2 different single phase AC circuits and will Solve3 the numerical
related to it.
103.3 Understand3 the importance of earthing and will explain3 the different types of
earthing systems.
103.4 Recognize2 the types of three phase supply system as a star or delta by
observation and will compare to them.
103.5 Explain3 the working principle of transformer and alternator and will
calculate3 efficiency and regulation of both machines.
103.6 Understand3 the working principal and applications of different types of single
phase induction motors
Mapping of COs with POs
POs
COs a b c d e f g h i j k
C0103.1 3 1
C0103.2 3
C0103.3 1
C0103.4 2
C0103.5 3 2
C0103.6 3
19
Course Contents
Chapter
no
Title: Basic Electrical Engineering
1
UNIT1: D.C.Circuits (8)
A) Analysis of D.C. circuits: Kirchhoff’s laws, mesh and node analysis, Energy
conversions between electrical, mechanical, thermal quantities.
B) Magnetic circuits: Series magnetic circuits.
2
UNIT2: Single phase AC Circuits (8)
Generation of sinusoidal voltage, R.M.S. & Average value, form factor, phasor
representation of A.C. quantities, impedance,admittance,R-L,R-C, R-L-C series and
parallel circuits powers, p.f., power factor improvement by capacitor method.
3
UNIT3: Earthing and lamps (5)
Necessity of Earthing, Earthing methods, Fuse, MCB, Fluorescent tube, CFL, mercury
vapour lamp, LED lamp, single line diagram of electrical system, study of energy
meter.
4
UNIT4:Three phase A.C. Circuits (8)
Introduction to 3 phase supply and its necessity, Generation of three phase A.C.
voltage, balanced three phase system, relation between line and phase quantities.
5
UNIT5:A.C. Machines (8)
A) Single phase Transformer: Construction, operating principle, Types, emf
equation,Ratios of voltage and current, operation on no load and with load, power
losses, efficiency, All day efficiency, voltage regulation, applications,
autotransformer.
B) Single phase alternator: Construction, types, operating principle, emf equation,
alternator on load, Voltage regulation, (Theoretical treatment)
6
UNIT6:Single phase A.C. motor (5)
Construction, operating principle, T-N characteristics, applications of induction motor
and universal motor.
Text books:
1. A Text Book of Electrical Technology (Vol.-I and II), S. Chand Publications
20
Reference books:
1. Electrical Engineering Concepts and Applications by P. V. Prasad and S. Shivanaraju,
CENGAGE Learning.
2. Fundamentals of Electrical Engineering by Bharati Dwivedi and Anurag Tripathi, Wiley
PRECISE Text Book.
3. Basic Electrical Engineering by Nagrath I.J. and D. P. Kothari, Tata McGraw Hill (2001).
4. Fundamentals of Electrical Engineering by Ashfaq Husain, Dhanpat Rai & Company.
Examination Scheme:
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 -- 125
Contact Hours/ week 4 -- -- 4
Evaluation Scheme
Section Chapter Instructions
I
1
Q.No.-1, Q.No.-2, Q.No.-3 mixing 1,2,3unit
Solve any two of three 2
3
II
4
Q.No.-2, Q.No.-3, Q.No.-4 mixing 2,3,4 unit Solve any two of three 5
6
Scheme of Marks
Section Unit No. Title Marks
I
1 D.C.Ciruits 16
2 Single phase AC Circuits 24
3 Earthing and lamps 16
II
4 Three phase A.C. Circuits 12
5 A.C. Machines 24
6 Single phase A.C. motor 8
21
Course utilization
Section Chapter Teaching Hrs No of Questions in CAT I &
CAT II
I
1 D.C.Circuits 14 CAT I
Q.1,2&3 are compulsory 2 Single phase AC Circuits 12
3 Earthing and lamps 6
II 4 Three phase A.C. Circuits 05 CAT II
Q.1,2&3 are compulsory 5 A.C. Machines 14
6 Single phase A.C. motor 06
Unit wise Lesson Plan
Section I
Unit
No
1 Unit Title D.C.Circuits Planned
Hrs.
14
Lesson schedule
Class
No.
Details to be covered
1 Definition of EMF, current, resistance, power, energy. Factors affecting resistance
2 Series parallel circuits, division of current in two parallel branches.
3 Numerical based on series and parallel circuit
4 Kirchhoff’s Laws – KCL, KVL. ,
5 Numerical based on two variables
6 Numerical based on energy conversion between electrical, mechanical quantities.
7 Numerical based on energy conversion between mechanical and thermal quantities.
8 Concept of magnetic circuit, MMF, reluctance, magnetic flux, flux density
9 magnetic field strength, Comparison between electrical and magnetic circuits
10 B- H curve, magnetic leakage & fringing
11 Simple examples on series magnetic circuit.
12 Faraday's laws of electromagnetic induction. Lenz's law, dynamically induced EMF
22
13 Fleming's right hand rule, statically induced EMF - self and mutually induced EMF
14 Examples on series and parallel magnetic circuits
Review Questions
Q1 Define the following terms-i)EMF ii)current iii)resistance C0103.1
Q2 Explain in detail KVL and KCL C0103.1
Q3 Differentiate between series and parallel circuit. C0103.1
Q4 Numerical on KVL & KCL C0103.1
Q5 Numerical based on Energy conversion. C0103.1
Q.6 Differentiate between Electrical & Magnetic circuit C0103.1
Q.7 Explain B-H curve C0103.1
Q.8 What is magnetic fringing & leakage? C0103.1
Unit
No
2 Unit Title Single phase AC Circuits Planned
Hrs.
12
Lesson schedule
Class
No.
Details to be covered
1 Generation of single phase alternating EMF
2 Cycle, frequency, time period, amplitude,
3 average value, RMS value,Mid ordinate and analytical method
4 Form factor, peak factor, phase, phase difference, phasor representation.
5 Numericals based on basic definations
6 Analysis of purely resistive, inductive circuit
7 Analysis of purely capacitive circuits
8 Numerical based on resistive, inductive and capacitive circuits
9 Analysis of R-L series circuit, Impedance triangle.
10 R-C series circuits, R-L-C series circuits
11 Numericals based on different ac series circuits
12 Power factor and its significance.Different powers in A.C. circuits
Review Questions
Q1 Show that avg. power consumed by the pure capacitance is zero when it is C0103.2
23
supplied with ac supply. Draw voltage & current waveforms.
Q2 Show that avg. power consumed by the pure inductor is zero when it is
supplied with ac supply. Draw voltage & current waveforms.
C0103.2
Q.3 With neat circuit diagram & phasor daigram discuss RL series circuit. C0103.2
Q.4 With neat circuit diagram & phasor daigram discuss RC series circuit. C0103.2
Unit
No
3 Unit Title Earthing and lamps Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Concept of earthing ,Necessity of earthing
2 Types of earthing
3 Types of fuses -MCB,
4 Types of lamps- fluorescent tube,CFL
5 Lamp continued-Mercury vapour lamp,LED lamp
6 Single line diagram of electrical system, study of energy meter.
Review Questions
Q.1 Explain the importance of earthing in electrical system. C0103.3
Q.2 Explain the different types of earthing schemes in electrical system. C0103.3
Q.3 Write a short note on -1)fluorescent tube2)CFL lamp3)Mercury vapour
lamp4)LED lamp5)Sodium vapour lamp
Unit
No
4 Unit Title Three phase A.C. Circuits Planned
Hrs.
05
Lesson schedule
Class
No.
Details to be covered
1 Introduction to three phase supply and its types
2 Concept –Star connection supply, relation between voltage current and power. Phasor
diagram
24
3 Numericals based on star connection supply system
4 Concept –Delta connection supply, relation between voltage current and power.
Phasor diagram
5 Numericals based on delta connection supply system
Review Questions
Q.1 What are the advantages of three phase system C0103.4
Q.2 Explain the difference between line current and phase current similarly
line voltage and phase voltage.
C0103.4
Q.3 Numericals based on star and delta connection supply system
Unit
No
5 Unit Title A.C. Machines Planned
Hrs.
14
Lesson schedule
Class
No.
Details to be covered
1 Single Phase Transformers - Operating principle, Construction
2 Types of transformer, difference –core type & shell type
3 EMF equation, Transformation ratio.
4 Numericals based on EMF equation
5 Ideal transformer –Phasor diagram
6 Practical transformer –Phasor diagram
7 Losses in transformer,
8 efficiency and voltage regulation
9 Numerical Treatment for efficiency and regulation.
10 Direct loading method for efficiency and regulation
11 O.C. / S.C. Test for efficiency.
12 Alternator construction, types and working principle
13 EMF equation of alternator
14 Concept of alternator on load and concept of voltage regulation.
Review Questions
Q.1 Derive the EMF equation of transformer. C0104.5
25
Q.2 Draw and explain the phasor diagram of transformer on 1)resistive load
2)Capacitive and 3) Inductive load .
Q.3 Sketch and explain the experimental set up diagram to perform OC and
SC test on single phase transformer.
C0104.5
Q.4 State and explain the different losses occurs in transformer C0104.5
Q.5 Numericals based on efficiency and regulation of transformer C0104.5
Q.6 Derive the EMF equation of single phase alternator. C0104.5
Q.7 Draw the phasor diagram of alternator on inductive, capacitive and
resistive load.
C0104.5
Unit
No
6 Unit Title Single phase A.C. motor Planned
Hrs.
06
Lesson schedule
Class
No.
1 Single Phase Motors - Working principle, types, construction
2 Making single phase motor self starting-split phase, capacitor start induction run
method
3 Construction and working of shaded pole motor
4 Construction and working of repulsion type motor
5 Construction and working of universal motor
6 Construction and working of servo and stepper motor
Review Questions
Q.1 State the various types of the single phase induction motor. Explain any
one of them.
C0104.6
Q.2 Explain construction, working & application of single phase universal
motor.
C0104.6
ASSIGNMENTS:
Assignment No.1- Chapter No.1 &2 CO-103.1,103.2
S. N Questions
1 State and explain Kirchhoff’s laws.
26
2 An electrically driven pump lifts 80 m3 of water per minute through a height of 12 m.
Efficiencies of motor and pump are 70 % and 80 % respectively. Calculate-
A) Current drawn by motor if at works on 400 V supply.
B) Energy consumption in KWH and cost of the energy at the rate of 75 paise/KWH,
if pump operates 2 hrs per day for 30 days. Assume 1 m3 of water weight 1000
kg.
OR
A mild steel ring has a mean circumference of 500 mm and a uniform cross sectional
area of 300mm2. An air gap of 1 mm is cut in the ring. Determine current required in
the coil of 500 turns wound over the ring, to produce a flux of 147µ Weber in the air
gap. Neglect fringing and assume relative permeability of iron as 1200.
3 Show that average power consumed by pure capacitance is zero when it is supplied
with a.c. supply. Draw voltage current & power waveform.
4 Explain the term power factor in a.c. circuit, its significance. Explain power factor
improvement by using capacitor methods.
Assignment No.2- Chapter No.2 &3 CO-103.2,103.3
S.N Questions
1 Find the current flowing through a purely inductive circuit containing a voltage source,
V= 325 Sin (100 πt) and an inductance L= 2H.
OR
For a series R-C circuit consisting of a resistance of 50 Ω and a capacitor of 100 µF,
calculate the following if the supply voltage is 230 V, 50 Hz.
i. Impedance of the circuit.
ii. Current through the circuit.
iii. Power factor.
iv. Power consumed.
2 Find the current flowing through a purely inductive circuit containing a voltage source,
V= 325 Sin (100 πt) and an inductance L= 2H.
27
OR
For a series R-C circuit consisting of a resistance of 50 Ω and a capacitor of 100 µF,
calculate the following if the supply voltage is 230 V, 50 Hz.
i. Impedance of the circuit.
ii. Current through the circuit.
iii. Power factor.
Power consumed.
3 Explain why earthing is necessary. Write a short note on plate earthing.
4 Discuss construction and working of single phase energy meter.
Assignment No.3- Chapter No.4 &5 CO-103.4,103.5
S.N Questions
1 Explain generation of three phases A.C Voltage in brief and State the advantages of
3phase supply.
OR
Derive relation between line and phase quantities in delta connected load.
2 A balanced star connected load is supplied from a symmetrical 3-phase 400 V, 50Hz
system. The current I in each phase is 30Amp and lags 30˚ behind the phase voltage.
Find-
i) phase voltage ii) resistance and reactance per phase iii) load inductance per phase
3 A three phase delta connected load draws a current of 20 A at a lagging power factor
of 0.8 from a 400V, 50 Hz supply. Calculate-
i. Resistance of each phase
ii. Inductance of each phase
iii. Power consumed.
4 A 100 KVA, 230V/2200V, 50Hz single phase transformer has 50 turns on the secondary
winding. Assuming an ideal transformer. Calculate-
i. Number of primary turns.
ii. Maximum value of flux in core.
iii. Primary full load current.
28
iv. Secondary full load current.
OR
Explain construction of 1 phase alternator in brief. State the applications of alternator.
Assignment No.4- Chapter No.5 & 6 CO-103.5,103.6
S.N Questions
1 Explain working principle of single phase transformer & state different losses produced
in transformer.
2 Explain working principle of single phase transformer & state different losses
produced in transformer.
OR
Explain construction & working principal of alternator.
3 Why single phase I.M. is not self starting? How it is made to self start.
4 Write a short note on
i) Universal motor
ii) Shaded pole induction motor
iii) Permanent split capacitor motor
Lab Plan:
S.N. Experiment Title
1 Laboratory Sessions covering, General introduction to Electrical Engineering
Laboratory, experimental setups, instruments etc., Electrical Symbols.
2 Verification of Kirchoff’s Laws.
3 Study of series and parallel resonance circuits.
4 To plot B-H curve
5 Demonstration of power factor improvement
6 Measurement of active and reactive power in balanced three phase circuit
7 To calculative efficiency of single phase transformer by O.C. / S.C. test.
8 Introduction to domestic wiring, service mains, distribution board.
29
9 Study of different luminaries including Incandescent lamp, vapor lamps,
fluorescent tube, CFL, LED lamps.
Model Question Paper
Course Title :Basic Electrical Engineering
Time: 3 Hrs. Marks: 100
Instructions:
1. All questions are compulsory.
2. Figure to the right indicate full marks.
3. Assume suitable data wherever necessary
4. Draw neat sketches wherever necessary.
Section-I Marks
Q 1 Answer any TWO
A State and explain Kirchhoff’s current law & voltage law. 08
b Compare Electric & Magnetic circuits stating their similarities &
dissimilarities. 08
C A mild steel ring has a mean circumference of 500 mm and a uniform cross
sectional area of 300mm2. An air gap of 1 mm is cut in the ring. Determine
current required in the coil of 500 turns wound over the ring, to produce a flux
of 147µ Weber in the air gap. Neglect fringing and assume relative
permeability of iron as 1200.
08
Q 2 Answer any TWO
A Explain generation of single phase AC voltage in brief. 08
B A voltage of 220V at 50Hz is applied across a non inductive resistor connected
in series with a condenser the current in circuit is 2.5A the power loss in
resistor is 100W & that in the condenser is negligible calculate resistance and
capacitance.
08
C A series combination of R and C is further connected in series with a variable
pure inductor and put across 200V, 50Hz supply. The maximum current
obtainable is 0.314A and voltage across C is 300V find the circuit constants
08
30
Q 3 Answer the following
A Discuss various stages in electrical power system with single line diagram. 08
B Write a short note on (any two)
i) Plate earthing
ii) Fluorescent lamp
iii) Mercury vapour lamp
10
Section-II Marks
Q 4 Answer any TWO
A Explain working principle of single phase transformer. State different losses
produced in transformer.
08
B A 100 KVA, 230V/2200V, 50Hz single phase transformer has 50 turns on the
secondary winding. Assume an ideal transformer. Calculate-
i. Number of primary turns.
ii. Maximum value of flux in core.
iii. Primary full load current.
iv. Secondary full load current.
08
C Explain construction of single phase alternator in brief. State the applications
of single phase alternator. 08
Q 5 Answer any TWO
A Derive relation between line & phase quantities in delta connected load. 08
B A balanced star connected load is supplied from a symmetrical 3-phase 400
volts, 50Hz system. The current I in each phase is 30Amp and lags 30˚ behind
the phase voltage. Calculate - i) phase voltage ii) resistance and reactance per
phase iii) load inductance per phase.
08
c A three phase delta connected load draws a current of 20 A at a lagging power
factor of 0.8 from a 400V, 50 Hz supply. Calculate-
i. Resistance of each phase
ii. Inductance of each phase
iii. Power consumed.
08
Q 6 Answer the following
A Why single phase I.M. is not self starting? How it is made to self start. 08
31
B Write a short note on (any two)
i. Universal motor
ii. Shaded pole induction motor
iii. Permanent split capacitor motor
10
32
Course Name Basic civil engineering Course Code FE104
Prepared by Mr.M.A.Dhatunde, Mr. S.D. Nirmale Semester Sem II
Pre-requisites This course requires the student to know about the basic knowledge of mathematics.
Course Outcomes
At the end of the course the students should be able to:
CO104.1 Describe1 relevance of Civil engineering to other branches of engineering
CO104.2 Describe1 functions of different building components.
CO104.3 Discuss 2 uses, properties & types of various building materials.
CO104.4 Explain 2 linear & angular measurements using principles of surveying.
CO104.5 Explain 2 vertical measurements using principle of leveling & determine the area of
irregular surfaces.
CO104.6 Illustrate 4 component of water supply scheme, road & railway track.
Mapping of COs with POs
POs
COs
A b c d e f g h i j k l
CO104.1 1 2 1 3 1 1
CO104.2 2 3 2 1
CO104.3 1 3 3 2 2 3
CO104.4 3 3
CO104.5 3 3 3 1
CO104.6 3 1 3 3 1 2
33
Course Contents
Unit No. Title No. of
Hours
Section I
1. Relevance of Civil Engineering and Building Planning
Introduction, branches of civil engineering, application of civil
engineering in other allied fields.
Principles of planning, introduction to Bye-Laws regarding building
line, height of building, open space requirements, F.S.I., setbacks,
ventilation, Sanitation as per municipal corporation area requirement.
07
2. Components of Building
Sub-structure
Types of soil and rocks as foundation strata, concept of bearing
capacity, types of foundations i.e. shallow and deep and their
suitability. Shallow foundation such as wall foundation, isolated
foundation, deep foundation such as pile foundation.
Super-structure
Elements of super-structures and their functions.
07
3. Building Materials and Design
Use and properties of the following materials :
Concrete – ingredients and grades, plain and reinforced cement
concrete and ready mix concrete, bricks, steel, aluminum, plastic,
timber, roofing materials etc.
Introduction to types of loads, load bearing and framed structures.
07
Section II
4. Linear and Angular Measurements
Principles of surveying
Classification of surveys
Chain Surveying
Introduction to metric chain and tapes, error in chaining, nominal
07
34
scale and R.F., ranging, chaining and offsetting, index plan, location
sketch and recording of field book. Chain and compass survey
Meridian, bearing and its types, system of bearing, Types of
compass: prismatic and surveyor's compass. Calculation of included
angles, correction for local attraction.
5. Leveling
Terms used in leveling, use of Dumpy level and Auto Level,
temporary adjustments. Methods of reduction of levels, types of
leveling, Contours, characteristics of contours, use of contour maps.
Introduction and use of EDM's with special reference to Total
Station.
Measurement of area by planimeter – mechanical and digital.
07
6. Introduction to Transportation, Environmental and Irrigation
Engineering
Components of rigid and flexible pavement, components of railway
track (Broad Gauge)
Components of water supply scheme (flow diagram)
Types of Dams (Earthen and Gravity Dam)
07
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1. A Text Book of Building
Construction
S.P. Arora, S.P.
Bindra
DhanpatRai
Publications
1 & 2
2. Basic Civil Engineering G. K. Hiraskar DhanpatRai
Publications
All
3. Engineering Materials R.K.Rajput S. Chand 3
4. Surveying N. Basak Tata Mc-Graw
Hill Publication
4 &5
35
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 --- 125
Contact Hours/ week 3 2 -- 5
Scheme of Marks
Section Unit No. Title Marks
I
1 Relevance of Civil Engineering and Building Planning 20
2 Components of Building Sub-structure 26
3 Building Materials and Design 17
II
4 Linear and Angular Measurements 16
5 Leveling 20
6 Introduction to Transportation, Environmental and
Irrigation Engineering
21
Course Unitization
CO Evaluation Remark
CO104.1 CAT 1 1 question on unit 1 and 2 with 15 marks each
CO104.2
CO104.3 CAT 2 1 question on unit 3 and 4 with 15 marks each
CO104.4
CO104.5 CAT 3 1 question on unit 5 and 6 with 15 marks each
CO104.6
36
Unit wise Lesson Plan
Section I
Unit No Unit Title Planned Hrs.
1 Relevance of civil engineering & building planning 7
Lesson schedule
Class
No.
Details to be covered
1 Introduction to basic civil engineering
2 Introduction & various branches of civil engineering
3 Application of civil engineering to other field & role of civil engg.
4 Introduction to building planning & principles of planning.
5 Principles of planning.
6 Orientation of building & selection of site
7 Building bye laws, municipal corporation area requirement.
Review Questions
Q1 Describe in brief various branches of civil engg. Indicating
their importance.
CO104.1
Q2 The subject basic civil engg. Is of vital importance to all the
branches of engg.” Comment on this statement.
Q3 Explain role of civil engineering in various construction
activities.
Q4 Explain about general scope of civil engineering in today’s
world.
Q5 Define engineering. State the application of civil engineering in
industrial, public and residential building.
Q6 List out principles of planning and explain any 3 with figure.
Q7 What is orientation of building?
Q8 Give the I.S. recommendation for (i) size of habitable room (ii)
37
size of W.C. (iii) height of building
Q9 What do you mean by planning? What are the objects of
building planning?
Q10 Write a note on built up area.
Q11 Which are the site selection criteria for the building?
Q12 Explain how planning of residential building differs from that
of an industrial building.
Unit No Unit title Planned Hrs.
2 Components of building. 7
Lesson schedule
Class
No.
Details to be covered
1 Types of soil and rocks
2 Concept of bearing capacity and settlement of foundation.
3 Shallow foundation, deep foundation.
4 Suitability of foundation.
5 Elements of super structure and their function.
6 Elements of sub structure
7 Difference between sub structure and super structure.
Review Questions
Q1 What is foundation and what are the different types of
foundation.
CO104.2
Q2 Explain with neat sketch different elements of building.
Q3 Distinguish between i) ultimate and safe bearing capacity.
ii) Sub structure and super structure iii) shallow foundation
and deep foundation.
38
Q4 Explain load transfer action or mechanism in R.C.C framed
structure.
Q5 Why does foundation settle? What are its effects on structure?
Q6 Which are the different methods of determining bearing
capacity of soil? Explain any one method.
Q7 How bearing capacity of soil can be improved?
Q8 Explain with neat sketch types of settlement.
Q9 Explain the basis on which you will select foundation for a
particular situation.
Unit No Unit Title Planned Hrs.
3 Building materials and design 6
Lesson schedule
Class
No.
Details to be covered
1 Types of loads, concept of strength and stability.
2 Types and grades of concrete, characteristics and advantages of brick and
steel.
3 Factors of safety and requirements of general safety of building.
4 Properties and uses of aluminum and plastic.
5 Classification and properties of timber
6 Roofing material.
Review Questions
Q1 What do you mean by strength and stability of building?
CO104.3 Q2 Which are the different types of loads acting on building?
Q3 Write a short note on general safety of building.
39
Q4 What is factor of safety?
Q5 Explain R.C.C., P.C.C., and R.M.C.
Q6 Compare merits and demerits of timber and steel as building
material.
Q7 Write the uses of plastic and aluminum in building
construction.
Q8 Explain the characteristics of good building stone.
Q9 How to recognize good brick?
Q10 What is mean by seasoning of timber?
Section II
Unit No Unit Title Planned Hrs.
4 Linear and angular measurement 9
Lesson schedule
Class
No.
Details to be covered
1 Principle of surveying & classification of surveying.
2 Chain survey & its instruments.
3 Errors in chaining, scale & R.F.
4 Ranging & offsetting.
5 Problems based on errors in chaining.
6 Compass survey.
7 Types of compass & concept of local attraction.
8 Problems based on W.C.B.
9 Problems based on R.B.
Review Questions
40
Q1 Define surveying. On which objects& purposes survey work
can be done?
CO104.4
Q2 Classify surveying on the basis of instruments used. Explain
the principles of surveying works.
Q3 Describe errors in chaining.
Q4 Two stations A & B are not visible due to rising ground
between them. Explain with neat sketch how the line AB can
be ranged.
Q5 What is scale? What is R. F.?
Q6 What is an offset? What are the types of offset? List
Instruments used for offsetting?
Q7 Distinguish between plane survey & geodetic survey.
Q8 A chain was tested & found to be exactly 20 m long, while
starting to measure the length of a survey line. After measuring
a distance of 1245m & was noticed that the chain had become
85mm too long. Find the correct length of survey line.
Q9 Draw neat sketch showing graduations of surveyor compass &
prismatic compass.
Q10 Explain how surveyor compass differ from prismatic compass.
What are the temporary adjustments of compass?
Q11 Explain the following bearing systems (i) W.C.B. (ii) Q.B.
Q12 Explain in detail meridians. What are the F.B. & B.B. of line?
Q13 The following F.B. & B.B. were observed in running a
compass traverse. Draw the traverse, correct for local
attraction, calculate included angles.
Line F.B. B.B.
AB 440 30’ 226030’
41
BC 124030’ 303015’
CD 1810 10
DA 2890 30’ 108045’
Unit No Unit Title Planned Hrs.
5 Leveling 9
Lesson schedule
Class
No.
Details to be covered
1 Various terms used in leveling
2 Introduction to dumpy level and its parts
3 Uses and different adjustment of dumpy level.
4 Types of leveling and methods of reduction level.
5 Calculation of RL by rise and fall method.
6 Calculation of RL by HI method..
7 Characteristics and uses of contour map
8 Introduction to EDM and total station
9 Measurement of area of irregular shape figure
Review Questions
Q1 Draw neat sketch to explain various surfaces & lines
associated with leveling.
CO104.5
Q2 Explain temporary adjustments for a level.
Q3 What do you mean by reduction of levels? Explain any one
method in brief.
Q4 Draw a neat sketch of dumpy level and name all of its parts.
Explain the function of important parts.
42
Q5 Define contour. What are various uses of a contour map?
Q6 Write a note on inverted staff reading.
Q7 Write a short note on characteristics of contours.
Q8 Explain the terms: 1) T.B.M. 2. R.L. 3)C.P. 4) Line of
collimation
5) Axis of bubble tube
Q9 Enlist any three fundamental lines of a dumpy level and state
their relation.
Q10 Distinguish between rise and fall method and HI method.
Q11 Enlist different uses of EDM
Q12 Write a note on auto level.
Q13 Write a short note on area measuring instrument.
Q14 The following staff readings were taken on a continuously
sloping ground with a help of dumpy level and 4 m leveling
staff at 20 m interval. The 1st reading was taken on starting
point of road having R.L. 350.00m.
0.540, 1.245, 2.375, 3.885, 1.245, 2.560, 3.780, 0.875, 1.625,
2.960.
Q15 The following staff readings were observed successively with
a level.
1.23, 1.900, 3.535, 2.170 and 2.135.
The instrument was shifted to a new position after 3rd reading,
last reading was taken on an inverted staff held at bottom of
slab. First reading was taken on a BM of RL 250m. Enter the
above data in level book page and complete it by HI method
with usual check.
Q16 Find the unknown things in then problem.
43
case area IR FR N Anchor point
1 - 3.375 8.92 +1 outside
2 25 cm2 6.19 8.23 -1 inside
Unit No Unit Title Planned Hrs.
6 Introduction to Transportation,
Environmental and Irrigation Engineering
05
Lesson schedule
Class
No.
Details to be covered
1 Various components of pavement
2 Components of railway track.
3 Components of water supply scheme.
4 Types of dam.
5 Koyna dams
Review Questions
Q1 Write note on classification of roads.
CO104.6
Q2 Draw the section showing various components of road in
cutting. And explain each part.
Q3 Which are the components of water supply scheme?
Q3 What are the types of dam?
Model Question Paper
Course Title: Basic Civil Engineering.
Duration- 4 Hrs. Max. Marks-100
Instructions:
1 All Questions are compulsory.
44
2 Figures to the right indicate full marks.
3 Use of non-programmable calculator is allowed
4 Mention any data assumed wherever necessary.
Marks
Section-II
Marks
46
Practical/ Assignments:
List of experiments/assignments to meet the requirements of the syllabus
All Batches
1. Plotting the outlines of building by chaining, ranging and offsetting
2. Plotting of closed traverse by prismatic compass.
3. Plotting of closed traverse by surveyor's compass
4. Reduction of levels by rise and fall method.
5. Reduction of levels by collimation plane method.
6. Measurement of area by mechanical planimeter.
7. Measurement of area by digital planimeter.
8. Use of total station for various measurements.
9. Layout and setting out of small residential building.
10. Site visit to study various construction processes
Report to be submitted on any under construction site
Assignment No. 1
Assignment
Title
Introduction to civil engineering CO104.1
All Batches 1. What do you mean by engineering? State its advantages for society.
2. What do you mean by civil engineering? Explain different branches
of civil engineering.
3. What are the applications of civil engineering to other branches?
4. Explain principles of building planning.
5. Explain different building bye-laws.
Assignment No. 2
Assignment
Title
Building Component CO104.2
All Batches 1. What is foundation and what are the different types of foundation.
2. Explain with neat sketch different elements of building.
3. Distinguish between i) ultimate and safe bearing capacity.
ii) Sub structure and super structure
iii) Shallow foundation and deep foundation.
4. Explain load transfer action or mechanism in R.C.C framed structure.
47
5. Why does foundation settle? What are its effects on structure?
6. Which are the different methods of determining bearing capacity of
soil? Explain any one method.
7. How bearing capacity of soil can be improved?
8. Explain with neat sketch types of settlement.
Assignment No. 3
Assignment
Title
Building Construction Materials CO104.3
All Batches 1)What do you mean by strength and stability of building?
2)Which are the different types of loads acting on building?
3) Write a short note on general safety of building.
4) What is factor of safety?
5) Explain R.C.C., P.C.C., and R.M.C.
6) Compare merits and demerits of timber and steel as building material.
7) Write the uses of plastic and aluminum in building construction.
8) Explain the characteristics of good building stone.
9) How to recognize good brick?
10) What is mean by seasoning of timber?
Assignment No. 4
Assignment
Title
Linear and angular measurement CO104.4
All Batches 1. State and explain principles of surveying with neat sketch.
2. Explain the following terms.
i. Plane surveying
ii. Geodetic surveying
iii. Scale and R.F.
3. What is an offset? What are the types of offsetting?
4. What is chaining and ranging? Explain complete procedure of
chaining along a line.
5. What do you mean by errors? Explain its types.
48
6. Define bearing and Meridian. Explain their types.
7. Explain WCB & QB bearing systems. Write procedure for
converting WCB into QB.
8. Define the terms and draw sketches for
i. Fore bearing and back bearing.
ii. Open and closed traverse.
9. Explain the following terms.
i. Local attraction ( with reason, detection and correction)
ii. Magnetic declination
Assignment No. 5
Assignment
Title
Levelling CO104.5
All Batches 1) Draw neat sketch to explain various surfaces & lines associated with
leveling.
2) Explain temporary adjustments for a level.
3) What do you mean by reduction of levels? Explain any one method in
brief.
4) Draw a neat sketch of dumpy level and name all of its parts. Explain
the function of important parts.
5) Define contour. What are various uses of a contour map?
6) Write a note on inverted staff reading.
7) Write a short note on characteristics of contours.
8) Explain the terms: 1) T.B.M. 2. R.L. 3. C.P. 4. Line of collimation 5.
Axis of bubble tube
9) Enlist any three fundamental lines of a dumpy level and state their
relation.
10) Distinguish between rise and fall method and HI method.
11) Enlist different uses of EDM
12) Write a note on auto level.
13) Write a short not on area measuring instrument.
49
Assignment No. 6
Assignment
Title
Branches of civil engineering CO104.6
All Batches 1) Write note on classification of roads.
2) Draw the section showing various components of road in cutting.
And explain each part.
3) Which are the components of water supply scheme?
4) What are the types of dam?
5) Write a short note on Koyna dam.
50
Course Name Engineering Graphics Course Code FE105
Examination Scheme Theory Term Work POE Total
Max. Marks 100 - - 100
Contact Hours/ week 3 6 -- 9
Prepared by Ajay P.Dhawan,S.V.Dhanal,N.V.Sabnis,H.T.Shinde Date 1/11/2017
Prerequisites Knowledge of Steel Rule, Set-squares & Protractor.
Course Outcomes
At the end of the course the students should be able to:
CO105.1 Discuss2 and demonstrate the importance of Engineering Graphics in Engineering &
draw the different curves.
CO105.2 Draw3 Horizontal line, Vertical line, and oblique line & solve problems on regular
polygon using change in position method.
CO105.3 Solve3 problem on projections of Solids
CO105.4 Draw3 FV,TV & SV of the object.
CO105.5 Draw3 isometric object from FV,TV & SV
CO105.6 Construct5 the objects by developing surfaces of solids and knowledge of cutting
planes.
Mapping of COs with POs
POs
Cos
A b c d e f g h i j K l
CO1 1
CO2 2
CO3 3
CO4 3
51
CO5 1
CO6 2
Course Contents
Unit
No.
Title No. of
Hours
SECTION I
1. Unit1: Fundamentals of Engineering Graphics& Engineering Curves
A) Fundamentals of Engineering Graphics:
Introduction to Drawing instruments and their uses. Layout of drawing
sheets, different types of lines used in drawing practice, Dimensioning
system as per BIS (Theoretical treatment only)
B) Engineering curves:
Construction of regular polygons (up to hexagon). Construction of
Ellipse, Parabola, Hyperbola, Involutes,
Archimedian spiral and Cycloid only. .
06
2. Unit 2: Projections of lines & Planes
A) Projections of lines:
Introduction to First angle and third angle methods of projection.
Projections of points on regular reference planes. Projections of horizontal,
frontal and Profile lines on regular and auxiliary reference planes.
Projection of oblique lines it’s True length and angle with reference planes
by rotation and auxiliary plane method. Concept of grade and bearing of
line, Point View of a line, Projections of intersecting lines, Parallel lines,
perpendicular lines and skew line. (Use coordinate system only)
B) Projections of planes:
Projections on regular and on auxiliary reference planes. Types of
planes (horizontal, frontal, oblique and Profile planes ). Edge view and
True shape of a Plane. Angles made by the plane with Principle reference
planes. Projections of plane figures inclined to both the planes. (Circle and
10
52
regular polygon) (Use coordinate system
3 UNIT 3 Projections of solids:
Projections of Prisms, Pyramids, Cylinder and Cones inclined to both
reference planes (Excluding frustum and sphere)
5
SECTION II
4 Unit 4: Orthographic Projections :
Orthographic views: lines used, Selection of views, spacing of views,
dimensioning and sections. Drawing required views from given pictorial
views (Conversion of pictorial view into
orthographic view) including sectional orthographic view
7
5 Unit 5: Isometric projections
Isometric projections: Introduction to isometric, Isometric scale, Isometric
projections and Isometric views / drawings. Circles in isometric view.
Isometric views of simple solids and objects
7
6 Unit 6:Sections of solids & Development of surfaces
A) Sections of solids:
Prisms, Pyramids, Cylinders and Cones (Simple positions and inclined to
one plane and parallel to other)
B) Development of plane and curved surfaces:
Prisms, Pyramids, Cylinders and Cones along with cutting plane
7
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
01 Engineering Drawing N.D. Bhatt Charotar publishing House All
02 Engineering Graphics K.Venugopal and
V.Prabhu Raja
New Age International (P)
Ltd
All
53
Scheme of Marks
Section Unit No. Title Marks
I 1 Fundamentals of Engineering Graphics& Engineering
Curves
13
2 Projections of lines & Planes 25
3 Projections of solids 12
II 4 Orthographic Projections 24
5 Isometric projections 13
6 Sections of solids & Development of surfaces 13
Course Unitization
Section
Unit Course Outcomes No. of Questions in
No. Title CAT-I CAT-II
I 1 Fundamentals of
Engineering Graphics&
Engineering Curves
Discuss and
demonstrate the
importance of
Engineering Graphics in
Engineering & draw the
different curves
Q1
2 Projections of lines &
Planes
Draw Horizontal line,
Vertical line & solve the
planes examples using
rotational method.
Q2 & Q3
II 4 Orthographic
projections
Draw FV,TV & SV of
the object.
Q1
5 Isometric projections Draw isometric object
from FV,TV & SV
Q2
54
Unit wise Lesson Plan
Section I
Unit
No
1 Unit Title Fundamentals of Engineering Graphics&
Engineering Curves
Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Introduction & Draw circle, pentagon and hexagon
2 Ellipse-arc of Circle method
3 Ellipse-Concentric circle method, Oblong or rectangle method, Parabola-Rectangle
& Tangent method .
4 Hyperbola-Rectangle method, Focus & Directrix method for ellipse, hyperbola
¶bola.
5 Involute., Cycloid
6 Archemedeain spiral
Review Questions
Q1 Two fixed points A and B are 100 mm apart. Trace the complete path
of a point P moving in such a way that, the sum of its distances from
A & B is always the same and equal to 130 mm. Name the curve.
Draw another curve parallel to and 20mm away from this curve.
CO105.1
Q2 A circle of 60 mm diameter rolls on a straight line without slipping. In
the initial position, the diameter AB of circle is parallel to the line on
which it rolls. Draw loci of the points A and B of diameter AB for one
revolution of the circle.
Unit
No
2 Unit Title Projections of lines & Planes Planned Hrs. 10
Lesson schedule
Class Details to be covered
55
No.
7 1. Parallel line, Horizontal line, Frontal line,Oblique line .
8 Problems on Oblique line Grade ,Bearing.
9 Problems on Parallel lines, perpendicular Lines.
10 Problems on Intersecting lines & Skew lines
11 Planes inclined to HRP.
12 Planes inclined to FRP.
13 Examples of circle & semicircle.
14 Examples of pentagonal Plate
15 Examples of Hexagonal Plate
16 Examples of pentagonal & Hexagonal Plate
Review Questions
Q1 Draw the projection of a line AB if the grade of line is 45% at A and
bearing is S600E. Top view length 60 mm .End point A is 20 mm
above HRP and 20 mm in front of FRP.
CO105.2
Q2 Find out the angle made by the plane ABC with FRP. Take
A(10,10,85) B(30,45,105),C(65,30,70).
Q3 The coordinates of points ABC are
A(10,20,80),B(50,40,90),C(40,10,120). Find perimeter of triangle
ABC
Q4 A thin circular plate of 50 mm diameter is resting on point A on its
rim,with the surface of the plate inclined at 450 to the HP and the
diameter through A inclined at 300 to the VP.Draw the projection of
the circular plate.
Unit
No
3 Unit Title Projections of solids Planned
Hrs.
5
Lesson schedule
56
Class
No.
Details to be covered
17 Projection of cone
18 Projection of pentagonal Pyramid.
19 Projection of Hexagonal Pyramid.
20 Projection of Pentagonal & Hexagonal prism
21 Projection of cylinder
Review Questions
Q1 A pentagonal prism is resting on one of the corners of its base on the
HP. The longer edge containing that corner is inclined at 450 to the
HP. The axis of the prism makes an angle of 300 to the VP. Draw the
projections of the solid. Take the side of base 45 mm and height 70
mm.
CO105.3
Q2 A hexagonal pyramid, base 25 mm side and axis 55 mm long, has of
its slant edge on the ground. A plane containing that edge and axis is
perpendicular to the HP and inclined at 450 to the VP .Draw its
projections when the apex is nearer the VP than the base.
Unit
No
4 Unit Title Orthographic Projections Planned
Hrs.
07
Lesson schedule
Class
No.
Details to be covered
22 First angle projection system & Third angle projection system
23 Simple objects of Orthographic.
24 Conversion of pictorial views in to orthographic views of simple objects.
25 Conversion of pictorial views in to orthographic views of simple objects.
26 conversion of pictorial views in to orthographic views
27 conversion of pictorial views in to orthographic views
57
28 conversion of pictorial views in to orthographic views
Review Questions
Q1 1. A pictorial view of a block is shown .Draw the following views.
a) Front View in the direction X
b) Top view
c) Right hand side view
CO105.4
Unit
No
5 Unit Title Isometric projections Planned Hrs. 7
Lesson schedule
Class
No.
Details to be covered
29 Isometric views & Isometric projection.
30 Isometric views of simple solids and objects
31 Isometric views of simple solids and objects
32 Isometric views of solids and objects.
33 Isometric views of solids and objects.
34 Isometric views of solids and objects.
35 Isometric views of solids and objects.
58
Review Questions
Q1 Draw isometric drawing of the object show in its front and L.H view.
Take “O” as origin.
CO5
Unit
No
6 Unit Title Sections of solids & Development of
surfaces
Planned
Hrs.
07
Lesson schedule
Class
No.
36 Section of cone,Section of Pyramid.
37 Section of Prism, Section of cylinder.
38 Parallel method of Development for Cylinder
39 Parallel method of Development for prism.
40 Radial method of development for cone.
41 Radial method of development for Pentagonal pyramid
42 Radial method of development for Hexagonal pyramid.
Review Questions
Q1 A cone of diameter of base 50 mm and axis 60 mm long is resting on its
base on H.P. A Horizontal cutting plane cuts the apex 25 mm from the
top. Draw true shape & develops the remaining part of the cone.
CO105.6
59
Model Question Paper
Subject: Engineering Graphics
Section I & II
Maximum Marks: 100
Instructions: All Questions are Compulsory
1
(a)
Section I
A point P moves such that its distances from two fixed points A & B which are 90
mm apart remains constant, when P is at equal distance from A & B its distance
from each one is 75 mm .draw the path traced by the point P. Draw normal and
tangent to the curve.
06
(b)
A circle of 50 mm diameter rolls on a straight line without slipping .In the initial
position ,consider the diameter of the circle which is parallel to the line on which it
rolls .Draw the path traced by the outer extreme point on the above diameter for
one revolution of the circle. Draw normal and tangent to the curve.
06
(b)
OR
Draw two convolutions of an Archimedean spiral ,given the maximum radius of
100 mm and minimum radius of 28 mm .Draw normal and tangent to the curve at a
point 45 mm from the pole
06
2
(a)
Solve Any Three
A line CD makes 700 with AB .D is on the line AB. Draw front & top view of line
CD. Take A(10,10,80) B(50,45,80) C(35,55,105)
04
(b) Complete the projections of line AB. FV length=60 mm, Bearing w.r.t A=S60E,
Grade 50 % w.r.t A. Take point A 15 mm from both the planes. 04
(c) Draw projections of line PQ (30 mm long) which is perpendicular to AB.Q is on
AB. A(10,10,70) B(55,45,100) P(20,y,100) 04
60
(d) Find angle with HRP & true shape of plane PQR. Take P(10,40,90) Q(25,10,115)
R(60,50,80) 04
3 (a) A pentagonal of 40 mm side is resting on one of its corner on the VP. The edge
opposite to that corner makes an angle of 300 to the HP. The surface of the
pentagon is inclined at 450 to the VP. Draw the projection of the pentagon.
13
4 (a) Draw projection of a cone with base 40 mm diameter and axis 50 mm long when it
is resting on VP in such a way that apex is 35 mm away from VP and towards
observer. The FV axis makes angle of 400 with HP.
12
Section II
5 (a) A pictorial view of a machine block is shown .Draw the following views.
(a)An elevation (FV) along the direction of an arrow F
(b)Sectional end view from left on the section plane X-X
(c)Plan (Top view)
24
6 (a) Draw isometric drawing of the object show in its front and top view. Take “O” as
origin
13
61
7 (a) A cylinder of 50 mm diameter and 70 mm long is resting on H.P. It is cut by a
section plane, inclined 45° to HP and passing through a point on axis which is 25
mm from top end. Draw sectional front view, top view and true shape of section &
develop the lateral surface.
13
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Engineering Curves CO105.1
Batch I (i)Two fixed points A and B are 100 mm apart. Trace the complete path of a point
P moving in such a way that, the sum of its distances from A & B is always the
same and equal to 30 mm. Name the curve. Draw another curve parallel to and
20mm away from this curve.
(ii) A fixed point is 60 mm from a fixed straight line. Draw the locus of a point P
moving in such a way that it is equidistant from fixed point & the fixed straight
line.
Batch II (i)A circle of 60 mm diameter rolls on a straight line without slipping. In the
62
initial position, the diameter AB of circle is parallel to the line on which it rolls.
Draw loci of the points A and B of diameter AB for one revolution of the circle
(ii) Draw a circle with diameter AB equal to 60 mm. Draw a line 140 mm long
and tangent to the circle. Trace the path of A, when the line AC rolls on the circle
without slipping
Batch III (i)Two straight lines OA and OB make an angle of 750 between them. P is point
40 mm from OB. Draw a hyperbola through P with OA and OB as asymptotes,
making at least 10 points.
(ii) Draw the curves when the distance of the the focus from the directrix is 50
mm & eccentricities are 3/2,1,2/3.Also draw tangent & normal to the curve.
Assignment No. 2
Assignment
Title
Projections of Lines & Planes CO105.2
Batch I (i)Find out the angle made by the plane ABC with FRP.Take
A(10,10,85),B(30,45,105),C(65,30,70).Find true Shape and perimeter of ABC.
(ii) Complete the projection of MN 30 mm long is perpendicular to AB.N lies on
AB.Take A(10,30,50),M(25,y,65),B(50,10,60).
(iii) A pentagonal plate ABCDE with 40 mm long side has its side AB on the HP
and is inclined at 200 to VP. Corner D of the plate is in the VP and 45 mm above
the HP. Draw the projection of the pentagonal plate.
Batch II (i) A pentagonal of 40 mm side is resting on one of its corner on the VP. The edge
opposite to that corner makes an angle of 300 to the HP. The surface of the
pentagon is inclined at 450 to the VP. Draw the projection of the pentagon
(ii) .”C” is the midpoint of the line PQ measuring 40 mm and parallel to
RS.Complete the projections. R(20,20,110), S(80,50,90),C(50,20,115)
(iii) Complete the projection line MN. End M is 40 mm above the HRP and 35
mm in front of FRP.Bearing w.r.t M is N450E , grade w.r.t M is 60%.TL=60 mm
Batch III (i)A regular hexagonal plate ABCDEF has corner A in the VP. Diagonal AD
makes an angle of 450 to the VP. The top view of the diagonal makes an angle of
600 to the HP. Draw the projection of the hexagonal plane using change of
position method.
63
(ii) Complete the projection of line PQ 30 mm long and perpendicular to AB. Q
lies on AB.A(10,30,50),B(50,10,60),P(20,y,65).
(iii) Complete the projection of AB.Take Point A 60 mm from both the planes.
Bearing S450W w.r.t A FV makes 300 to HRP.TL=60 mm.
Assignment No. 3
Assignment
Title
Projection of Solids CO105.3
Batch I (i)An equilateral triangular prism of side of base 25 and axis 50 long is resting on
an edge of its base on HP.The face containing that edge is inclined at 300 to
HP.Draw the projections of the prism ,when the edge on which the prism rests, is
inclined at 600 with VP
(ii)A pentagonal prism is resting on one of the corners of its base on the HP.The
longer edge containing that corner is inclined at 450 to the HP.The axis of the
prism makes an angle of 300 to the VP.Draw the projections of the solid. Take the
side of base 45 mm and height 70 mm
Batch II (i)A square pyramid, base 25 mm side and axis 55 mm long, has one of its slant
edges on the ground. A plane containing that edge and the axis is perpendicular to
the HP and inclined at 450 to the VP.Draw its projections when the apex is nearer
the VP than the base.
(ii A square pyramid of base 35 side and axis 50 long is resting on one of its
triangular faces on HP with the edge of the base containing that face inclined at
450 to VP. Draw the projections of the pyramid.)
Batch III (i)Draw projection of a cone with base 40 mm dia. And axis 50 mm long when it
is resting on VP in such a way that apex is 35 mm away from VP and towards
observer. The FV axis makes angle of 400 with HP.
(ii) Draw the top view and front view of a right circular cylinder base dia. 35 mm
and axis 65 mm long when it is resting on its circular rim in such a way that its
axis makes an angle of 300 with HP and the top view of its axis is inclined at
angle of 450 to VP.
Assignment No. 4
66
Batch II
Batch III
Assignment No. 6
Assignment
Title
Sections of solids & Development of surfaces CO6
Batch I (i) A hexagonal prism with side of base 30 mm and axis 70 mm long rests on
67
comer of its base on H.P It is cut by a section plane inclined 30° to H.P. and
passing through a point on axis, which is 20 mm from top end. Draw sectional
true shape of section & develop the lateral surface.
Batch II (i) A cone with 60 mm base diameter and 70 mm height rests with its base on
ground .It is cut by auxiliary plane making 600 to HP and 10 mm away from the
axis of cone .Draw the true shape of section & develop the lateral surface.
Batch III (i) A hexagonal pyramid, base 25 mm side and axis 60 mm long rests on one of
its side on H.P. It is cut by section plane, inclined 30° to H.P. intersects the axis at
25 mm from the apex of the pyramid, removing the apex. Draw front view, top
view and true shape of section & develop the lateral surface .
68
Course Name Engineering Chemistry Course Code FE106
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 -- 125
Contact Hours/ week 3 2 -- 5
Prerequisites This course requires the student to analyze applications of the basic concepts of organic,
inorganic, physical and analytical chemistry and to integrate pure chemistry principles
with engineering applications.
Course Outcomes
At the end of the course the students should be able to:
CO 106.1 Describe2 water quality parameters and advanced water purification techniques.
CO 106.2 Apply3 basics of instrumental methods of chemical analysis and their applications.
CO 106.3 Express2 the significance of advanced materials.
CO 106.4 Evaluate5 qualities of good fuel based on quality parameters.
CO 106.5 Explain2 basic chemistry behind corrosion of metals and various corrosion prevention
methods.
CO 106.6 Explain2 properties and applications of metallic materials and concepts of green chemistry.
Mapping of COs with POs
POs
COs a b c d E f G h i j k l m n o
CO 106.1 3 3 - 2 - 2 - - - 1 - - 2 - -
CO 106.2 3 3 - 2 - - - - - - - - 2 - -
CO 106.3 3 - - 2 - - - - - - - - 2 - -
69
CO 106.4 3 3 - - - 1 - - - - - 1 2 - -
CO 106.5 3 - - 2 - 2 - - - - - - 2 - -
CO 106.6 3 - 3 - - - - - - - - - 2 - -
1: Low 2 : Medium 3 : High
Course Contents
Unit
No.
Title No. of
Hours
Section I
1. Unit 1: Water
Introduction, impurities in natural water, water quality parameters total solids,
acidity, alkalinity, chlorides, and dissolved oxygen (definition, causes,
significance), hardness of water (causes, types, units of hardness), ill effects of
hard water in steam generation in boilers, numerical on hardness, treatment of
hard water (ion exchange and reverse osmosis).
7
2. Unit 2: Instrumental methods of chemical analysis
Introduction, advantages and disadvantages of instrumental methods.
A) pH-metry:
Introduction, pH measurement using glass electrode, applications of pH-metry.
B) Spectrometry:
Introduction, Laws of spectrometry (Lamberts and Beer-Lambert’s law),
Single beam spectrophotometer (schematic, working and applications).
C) Chromatography:
Introduction, types, gas-liquid chromatography (GLC), basic principle,
Instrumentation and applications.
7
3. Unit 3: Advanced materials
A) Polymers:
Introduction, plastics, thermo softening and thermosetting plastics, industrially
important plastics like phenol formaldehyde, urea formaldehyde and epoxy
resins, conducting polymers (doping, conjugation, conductivity), examples and
7
70
applications, biodegradable plastics.
B) Nanomaterials:
Introduction, synthesis and applications.
C) Composite materials:
Introduction, constituents, types of composites, advantages, composition,
properties and uses of fiber reinforced plastics (FRP) and glass reinforced plastic
(GRP)
Section II
4. Unit 4: Fuels
Introduction, classification, calorific value, definition, units (calorie, kcal, joules,
kilojoules), characteristics of good fuels, comparison between solid, liquid and
gaseous fuels, types of calorific value (higher and lower), Bomb calorimeter and
Boy’s calorimeter. Numerical on Bomb and Boy’s calorimeter. Fuel cells:
Introduction, classification, advantages, limitations and applications.
7
5. Unit.5: Corrosion: (7) Introduction, causes, classification, atmospheric
corrosion(oxidation corrosion), electrochemical corrosion (hydrogen evolution
and oxygen absorption mechanism), factors affecting rate of corrosion.
Prevention of corrosion by proper design and material selection, hot dipping
(galvanizing and tinning), cathodic protection, metal spraying and electroplating.
7
6 Unit 6: Metallic materials & Green Chemistry (7)
A) Metallic materials: Introduction, alloy definition and classification, purposes
of making alloys. Ferrous alloys: Plain carbon steels (mild, medium and high),
stainless steels. Nonferrous alloys: Copper alloy (Brass), Nickel alloy
(Nichrome), Aluminum alloy (Duralumin and Alnico), Tin alloy (Solder metal).
B) Green Chemistry: Definition, goals of green chemistry, significance, basic
components of green chemistry research, industrial applications.
7
71
Reference Books:
Sr.
No.
Title of Book Author Publisher/Edition Topics*
1 Engineering Chemistry Jain and Jain DhanpatRai Publishing
Company Ltd., New
Delhi.
1,3,5
2. A Textbook of Engineering
Chemistry
S. S. Dara and S. S.
Umare, S. Chand
Company Ltd., New
Delhi.
1,5
3. A Textbook of Engineering
Chemistry
C. P. Murthy, C. V.
Agarwal and A. Naidu
BS Publications,
Hyderabad.
1
4. Instrumental Methods of
Chemical Analysis
Chatwal and Anand Himalaya Publishing
House, New Delhi
2
5. Engineering Chemistry Dr. A. K. Pahari, Dr.
B. S. Chauhan
Laxmi Publications (P)
Ltd, New Delhi.
3,4,5,6
6. A text Book of
Engineering Chemistry
Shashi Chawla,
Dhanpat Rai
Shashi Chawla, Dhanpat
Rai & Co. (Pvt.) Ltd,
Delhi.
1,3,5
7. Engineering Chemistry Renu Bapna and Renu
Gupta
MacMillan Publishers
(India) Ltd, Delhi
4
8. Industrial Chemistry B. K. Sharma GOEL Publishing House All
9. Principles of
Nanotechnology
Phani Kumar SciTech Publications 1
* Indicates the unit number as per SUK syllabus.
Scheme of Marks
Section Unit No. Title Marks*
I 1. Water 35
2. Instrumental methods of chemical analysis 19
3. Advanced materials 20
II 4. Fuels 23
5. Corrosion 34
72
6. Metallic materials & Green Chemistry 19
*Marks weightage as per SUK Exam Dec.2013 question paper pattern.
Course Unitization
Sec
Unit Course Outcomes No. of Questions in
No. Title CAT-I CAT-II Prelim
I 1. Water
To study the impurities in natural
water, water quality parameters,
treatment of hard water and solve
numerical.
Three
question
s with
sub
question
-- Four
questions
with sub
questions
2. Instrumental
methods of
chemical
analysis
To study the basics of instrumental
methods of chemical analysis and to the
use of pH-metry, spectrometry and
chromatography in various fields.
3. Advanced
materials
To explain the basic concepts of
formation and applications of advanced
material
--
Three
questio
ns with
sub
questio
ns
II 4. Fuels To analyze and identify good quality
fuels by using basic chemistry and
solve numerical problem
Four
questions
with sub
questions
5. Corrosion To get idea of basic chemistry behind
corrosion and its various prevention
methods.
-- 6. Metallic
materials &
Green
Chemistry
To explain properties and applications
of metallic materials and generate
awareness of newly introduced green
chemistry.
Unit wise Lesson Plan
73
Section I
Unit No 1 Unit Title Water Planned
Hrs.
7
Lesson schedule:
Class No. Details to be covered
1 Introduction of water as universal solvent
2 Water sources and water quality parameters.
3 Total solids and acidity of water.
4 Alkalinity and chlorides
5 Dissolved oxygen
6 Hardness of water
7 Numerical problems
Review Questions
Q1 Write a note on impurities present in water? CO 106.1
Q2 Explain alkalinity of water sample CO 106.1
Q3 Discuss the experimental determination of hard water. CO 106.1
Q4 What are the different troubles caused by the use of hard water in
boilers?
CO 106.1
Q5 Discuss in short ill effects of hard water. CO 106.1
Q6 Find out temporary, permanent and total hardness in water
sample with following impurities
i)Ca(HCO3)2= 81 ppm ii) MgCO3 =84 ppm iii)
CaCl2=22.2 ppm iv) MaSO4 = 60 ppm
v)KCl=30 ppm (Does not contribute to hardness).
CO 106.1
Unit No 2 Unit Title Instrumental Methods of Chemical
Analysis
Planned
Hrs.
7
Lesson schedule:
Class No. Details to be covered
1 Introduction, advantages and disadvantages of instrumental methods
74
2 Study of pH-metry
3 Applications of pH-metry
4 Introduction of spectrometry and study of laws of spectrometry
5 Single beam spectrophotometer
6 Introduction to chromatography
7 Instrumentation and applications of GLC
Review Questions CO 106.2
Q1 Give the advantages and disadvantages of instrumental methods. CO 106.2
Q2 Define pH. Explain the construction and working of glass electrode. CO 106.2
Q3 State Lambert’s law. Derive the equation for Lambert’s law. CO 106.2
Q4 Discuss the applications of pH-metry. CO 106.2
Q5 Explain the working of single beam spectrophotometer and their
functions.
CO 106.2
Q6 Give classification of chromatographic technique. CO 106.2
Q7 Give principle and technique of gas liquid chromatography. CO 106.2
Unit No 3 Unit Title Advanced material Planned Hrs. 7
Lesson schedule
Class No. Details to be covered
1 Introduction to polymer and plastic
2 Types of plastic
3 Urea-formaldehyde resin and phenol formaldehyde resin
4 Conducting polymers
5 Biodegradable polymers
6 Nanomaterials
7 Composite materials
Review Questions
Q1 Define polymer and monomer. Classify the polymers on the basis of
structure.
CO 106.3
75
Q2 Distinguish between thermoplastic and thermosetting plastic. CO 106.3
Q3 Write a note on phenol formaldehyde resin. CO 106.3
Q4 Explain preparation. Properties and applications of urea
formaldehyde resin.
CO 106.3
Q5 Discuss the biodegradable polymers. CO 106.3
Q6 Write a note on conducting polymers. CO 106.3
Q7 Explain the preparation, properties and uses of epoxy resin. CO 106.3
Q8 Discuss the synthesis methods of nonmaterial CO 106.3
Q9 Explain the properties of FRP. Discuss manufacturing methods of
FRP.
CO 106.3
Section II
Unit No 4 Unit Title Fuel Planned
Hrs.
7
Lesson schedule
Class No. Details to be covered
1 Introduction and classification of fuels
2 Calorific value
3 Characteristics of fuels
4 Comparison between solid, liquid and gaseous fuels
5 Bomb calorimeter and boys calorimeter
6 Numerical problems
7 Fuel cell
Review Questions
Q1 Define fuel. Explain characteristics of good fuel. CO 106.4
Q2 Define calorific value of fuel. How calorific value is determined
using Boy’s calorimetric method?
CO 106.4
Q3 Explain construction and working of Bomb calorimeter. How is the
gross calorific value calculated?
CO 106.4
Q4 Write a note on fuel cell. CO 106.4
Q5 Define fuel. Explain characteristics of good fuel. CO 106.4
76
Q6 Define calorific value of fuel. How calorific value is determined
using Boy’s calorimetric method?
CO 106.4
Q7 Explain construction and working of Bomb calorimeter. How is the
gross calorific value calculated?
CO 106.4
Q8 Following observations were recorded in a bomb calorimeter
experiment. Calculate the gross and net calorific value of the fuel
contains 5.7 hydrogen.
Weight of empty crucible= 3.175 gm
Weight of crucible +fuel= 4.085 gm
Mass of water in calorimeter = 2500 gm
Water equivalent of calorimeter = 470 gm
Observed rise in temperature = 2.410C
Cooling correction = 0.0350C
Fuse wire correction= 11.5 Cal
CO 106.4
Unit No 5 Unit Title Corrosion Planned
Hrs.
7
Lesson schedule
Class No. Details to be covered
1 Introduction of corrosion
2 Causes and classification of corrosion
3 Atmospheric corrosion
4 Electrochemical corrosion
5 Factors affecting on rate of corrosion
6 Methods of Prevention of corrosion
Review Questions
Q1 Define corrosion. Give classification of corrosion. CO 106.5
Q2 Define corrosion. Explain the mechanism of hydrogen evolution in
electrochemical corrosion.
CO 106.5
Q3 Define corrosion. Explain the mechanism of oxygen absorption in CO 106.5
77
electrochemical corrosion.
Q4 Discuss factors affecting on rate of corrosion. CO 106.5
Q5 What is Cathodic Protection? Explain cathodic protection as a
method to prevent corrosion.
CO 106.5
Q6 Explain electroplating process. CO 106.5
Q7 Write a note on metal spraying. CO 106.5
Q8 Explain prevention method of metal from corrosion by proper
design.
CO 106.5
Unit No 6 Unit Title Metallic materials and green
chemistry
Planned
Hrs.
7
Lesson schedule:
Class No. Details to be covered
1 Introduction , alloy definition and classification
2 Purposes of making alloy
3 Ferrous alloys
4 Nonferrous alloys
5 Stain less steel alloy and tin alloy
6 Goals and significance of green chemistry.
Review Questions
Q1 Explain purposes of making alloy. CO 106.6
Q2 Write a note on stainless steel. CO 106.6
Q3 Write composition and uses of Nichrome. CO 106.6
Q4 Enlist different goals of Green chemistry. CO 106.6
Q5 Write properties and uses of Mild carbon steel. CO 106.6
Q6 Write composition, properties and uses of brass. CO 106.6
Q7 Write a note on Tin alloy. CO 106.6
Q8 Write composition, properties and uses of bronze. CO 106.6
78
Model Question Paper
Course Title Engineering Chemistry
Duration 3 hrs. Max.
Marks
Instructions: 100
1. All Questions are compulsory.
2. Figures right to indicate full marks.
3. Use of non programmable calculator is allowed.
Marks
Q1 a) Find out temporary, permanent and total hardness in water sample with
following impurities in mg/lit.
i)Ca(HCO3)2= 10.5 ii) MgCl2 =20.5 iii)Mg(HCO3)2=11.5
iv) CaSO4 =18.5 v) KCl= 9.8 (Does not contribute to hardness).
[8]
b) Solve any TWO of the following [10]
i) Explain preparation, properties and applications of phenol
formaldehyde plastic
ii) Give principle, construction and working of glass electrode.
iii) Compare addition and condensation polymerization
Q2 a) Give principle, construction and working of single beam
spectrophotometer.
[6]
b) Solve any TWO of the following [10]
i) Write classification of chromatography
ii) Explain mechanical method of synthesis of nanomaterial.
iii) Explain ion exchange process for softening of water..
Q3 a) Solve any FOUR of the following [16]
b) Enlist different impurities present in natural water
c) Write application of condiucting polymer.
79
d) Write a note on Alkalinity
e) Derive equation for Lamberts law
f) Give preparation, properties and applications of GRP.
Q4 a) Following observations were recorded in a bomb calorimeter
experiment. Calculate the gross and net calorific value of the fuel
contains 5.7 hydrogen.
1. Weight of empty crucible= 3.175 gm
2. Weight of crucible +fuel= 4.085 gm
3. Mass of water in calorimeter = 2500 gm
4. Water equivalent of calorimeter = 470 gm
5. Observed rise in temperature = 2.410C
6. Cooling correction = 0.0350C
7. Fuse wire correction= 11.5 Cal
[8]
b) Solve any TWO of the following [10]
i) What is electrochemical corrosion? Discuss hydrogen evolution
mechanism with example.
ii) Define green chemistry? Give basic principles of green chemistry.
iii) Give composition, properties and applications of nichrome
Q5 a) Explain hot dipping in details. [6]
b) Solve any TWO of the following [10]
i) Explain how you will determine calorific value of gaseous fuel by
using Boy’s gas calorimeter.
ii) What are the factors affecting on the rate of corrosion.
Q6 a) Solve any FOUR of the following [16]
b) What are the characteristic of good fuel
c) What are the factor affecting rate of corrosion
d) Give composition, properties and applications of Duralumin
e) Write a note on proper design and material celection
80
f) What is the construction of Fuel cell.
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Unit: Water CO 106.1
20 M
Batch I 1. Find out temporary, permanent and total hardness in water sample with
following impurities
i)Ca(HCO3)2= 81 mg/lit ii) MgCO3 =84 mg/lit
iii) CaCl2=22.2 mg/lit iv) MaSO4 = 60pp mg/lit
v)KCl=30 mg/lit (Does not contribute to hardness).
8
2. Write short note on Dissolved chlorides. 4
3. Write a note dissolved oxygen. 4
4. Define acidity. Explain its dermination method. 4
Batch II 1. Find out temporary, permanent and total hardness in water sample with
following impurities
i)Ca(HCO3)2= 12 mg/lit ii) MgCO3 =10 mg/lit
iii) CaCl2=16.5 mg/lit iv) MaSO4 =8 mg/lit
v)KCl=22 mg/lit (Does not contribute to hardness).
8
2. Discuss water softening treatment by ion exchange method 4
3. Discuss in short ill effects of hard water. 4
4. Explain alkalinity of water sample 4
Batch III 1. The water sample analysis found to contain following impurities in
mg/lit. Calculate temporary, permanent and total hardness in water
sample.
i)Ca(HCO3 )2= 10.5mg/lit ii) MgCO3 =11.5mg/lit
Iii) CaCl2=18.5 mg/lit iv) MaSO4 =20.5mg/lit
8
2. What are the bad effects of using hard water in industrial application? 4
3. Write a note on acidity. 4
81
4. Enlist different impurities present in natural water 4
Assignment No. 2
Assignment
Title
Unit2: Instrumental methods of chemical analysis CO 106.2
20M
Batch I 1. Define pH. Explain the construction and working of glass electrode 6
2. Give the advantages and disadvantages of instrumental methods. 5
3. Explain Lambert law. 5
4. Describe applications of pH metry 4
Batch II 1. Explain the working of single beam spectrophotometer and their
functions
6
2. Draw a neat and labeled schematic representation of GLC 5
3. Give the advantages and disadvantages of instrumental methods 5
4. State Lambert-Beers law. Derive the equation for Lambert’s law 4
Batch III 1. Give principle and technique of gas liquid chromatography 6
2. Give classification of chromatographic technique. 5
3. Give the advantages and disadvantages of instrumental methods 5
4. Explain applications of GLC 4
Assignment No. 3
Assignment
Title
Advanced Material CO 106.3
20 M
Batch I 1. Explain preparation, properties and applications of phenol formaldehyde
resin.
5
2. Distinguish between thermosetting and thermosoftening polymers 5
3. Give classification of composite material. 5
4. Write applications of nanomaterials. 5
Batch II 1. Explain preparation, properties and applications of urea formaldehyde
resin.
5
2. Distinguish between thermosetting and thermo softening polymers 5
82
3. Write a note on FRP 5
4. Explain synthesis of nonmaterial using vapour deposition method 5
Batch III 1. Explain preparation, properties and applications of epoxy resin. 5
2. Distinguish between addition and condensation polymers. 5
3. Write a note on FRP 5
4. Explain synthesis of nanomaterial using mechanical method. 5
Assignment No. 4
Assignment
Title
Unit 4: Fuels CO 106.4
20 M
Batch I 1. Following observations were recorded in a bomb calorimeter experiment.
Calculate the gross and net calorific value of the fuel contains 5.7
hydrogen.
Weight of empty crucible= 3.175 gm
Weight of crucible +fuel= 4.085 gm
Mass of water in calorimeter = 2500 gm
Water equivalent of calorimeter = 470 gm
Observed rise in temperature = 2.410C
Cooling correction = 0.0350C
Fuse wire correction= 11.5 Cal
8
2. Define fuel. Explain characteristics of good fuel. 6
3. Write a note on fuel cell. 6
Batch II 1. Following observations were recorded in a bomb calorimeter experiment.
Calculate the gross and net calorific value of the fuel contains 6
%hydrogen.
Weight of empty crucible= 2.175 gm
Weight of crucible +fuel= 3.085 gm
Mass of water in calorimeter =1500 gm
Water equivalent of calorimeter = 370 gm
Observed rise in temperature = 1.410C
Cooling correction = 0.0200C
8
83
Fuse wire correction= 10.5 Cal
2. Explain how you will determine calorific value of gaseous fuel by using
Boy’s gas calorimeter.
6
3. Enlist different characteristics of good fuel 6
Batch III 4. Following observations were recorded in a bomb calorimeter experiment.
Calculate the gross and net calorific value of the fuel contains 6
%hydrogen.
Weight of empty crucible= 2.175 gm
Weight of crucible +fuel= 3.085 gm
Mass of water in calorimeter =1500 gm
Water equivalent of calorimeter = 370 gm
Observed rise in temperature = 1.410C
Cooling correction = 0.0200C
1. Fuse wire correction= 10.5 Cal
8
2. Explain how you will determine calorific value of gaseous fuel by using
Bomb calorimeter.
6
3. How fuel cell are classified? 6
Assignment No. 5
Assignment
Title
Unit 5: Corrosion CO 106.5
20M
Batch I 1. Define corrosion. Give classification of corrosion. 6
2. Define corrosion. Explain the mechanism of hydrogen evolution in
electrochemical corrosion.
7
84
3. Define corrosion. Explain the mechanism of oxygen absorption in
electrochemical corrosion.
7
Batch II 1. Discuss factors affecting on rate of corrosion. 7
2. What is Cathodic Protection? Explain cathodic protection as a method to
prevent corrosion.
7
3. Explain electroplating process 6
Batch III 1. Write a note on metal spraying. 7
2. Explain prevention method of metal from corrosion by proper design 7
3. What are the different factors affecting on corrosion 6
Assignment No. 6
Assignment
Title
Unit 6: Metallic materials and green chemistry CO 106.6
20 M
Batch I 1. Explain purposes of making alloy. 5
2. Write a note on stainless steel. 5
3. Write composition and uses of Nichrome. 5
4. Enlist different goals of Green chemistry. 5
Batch II 1. Write properties and uses of Mild carbon steel. 5
2. Write composition, properties and uses of brass. 5
3. Write a note on Tin alloy. 5
4. Write composition, properties and uses of ferrous alloy. 5
Batch III 1. Explain purposes of making alloy 5
2. Write composition and uses of Alnico and Duralumin 5
3. Enlist different goals of Green chemistry 5
4. Write properties and uses of Medium carbon steel. 5
List of Experiments:
Sr.No. Name of the experiment CO
1. Determination of acidity of water CO 106.1
2. Determination of alkalinity of water CO 106.1
3. Determination of chloride content of water by Mohr’s method CO 106.1
85
4. Determination of total hardness of water by EDTA method. CO 106.1
5. Preparation of phenol formaldehyde resin CO 106.3
6. Preparation of urea formaldehyde resin CO 106.3
7. Determination of copper in brass CO 106.6
8. Demonstration of pH meter CO 106.2
9. Demonstration of photo-colorimeter/ spectrophotometer CO 106.2
List of additional experiments
Assignment No. 1
Experiment
Title
Unit 5: Corrosion CO 106.5
Batch I 1. Determination of rate of corrosion of aluminum in acidic and basic medium
Batch II 2. Determination of rate of corrosion of aluminum in acidic and basic medium
Batch III 3. Determination of rate of corrosion of aluminum in acidic and basic medium
List of open ended experiments/assignments
Assignment No. 1
Assignment
Title
CO
Batch I 1. Spectrophometric determination of iron in vitamin tablet CO 106.2
2. Demonstration of paper chromatography using plant extract.
Batch II 1. Demonstration of paper chromatography using plant extract. CO 106.2
2. Water samples from five different sources, e.g. Well, Hand Pump,
Water Supply, etc. from neighborhood to be collected by each group
of two students and following tests to be conducted:
Qualitative Analysis (with the help of field test kits available) or the
following:
• Total Solid dissolved
• Chlorine
• Fluorine
• Iron
CO 106.1
86
• Nitrite
• Sulphide/Sulphate
Batch III 1. Water samples from five different sources, e.g. Well, Hand
Pump, Water Supply, etc. from neighborhood to be collected by
each group of two students and following tests to be conducted:
Qualitative Analysis (with the help of field test kits available) or the
following:
• Total Solid dissolved
• Chlorine
• Fluorine
• Iron
• Nitrite
• Sulphide/Sulphate
CO106.1
2. Demonstration of paper chromatography using plant extract. CO 106.2
87
Course Name Fundamentals of Electronics & Computer
Programming
Course Code FE107
Prepared by Mrs. M.R.Desai & Mr. A. B. Patil Date 09/11/2017
Prerequisites Basic knowledge of electricity, fundamental concepts of physics and analytical
perspective relating to applications where electronics is used.
And basics of Computer System
Course Outcomes
At the end of the course the students should be able to:
CO 107.1 Choose2 appropriate components to design basic circuit in electronics engineering.
CO 107.2 Apply2knowledge of digital electronics in designing combinational and sequential
logic circuits
CO 107.3 Identify1transducers as per application and describe functioning of several electronic
appliances.
CO 107.4 Illustrate4 the working of electronics appliances used for daily needs
CO 107.5 Describe2&Distinguish2complete computer hardware and its peripheral.
CO 107.6 Outline4 of Operating System Features, Types and Explain the System Software’s
CO 107.7 Recognize2and explain2the Computer Networks and programming techniques
Mapping of COs with POs
POs
Cos a b c d e f g h I j k l
CO 107.1 3 2 1 3 1 1 1 2
CO 107.2 3 2 2 3 1 1 1 2
CO 107.3 1 2 1 1 2 1 2 2
CO 107.4 2 3
CO 107.5 2 1
CO 107.6 3 2
CO 107.7 2 1
1 Mild correlation 2 Moderate correlation 3 Strong correlation
88
Course Contents
Unit No. Title No. of
Hours
Section I
1.
Semiconductor Devices and Applications:
Half Wave & Full Wave rectifiers. BJT characteristics, load line,
operating point, leakage currents, saturation and cutoff mode of
operations, Need for stabilization, fixed bias, emitter bias, self bias,
bias stability with respect to variation in ICO, VBE& β, Stabilization
factors, thermal stability, RC coupled CE amplifier, Regulated power
supply.
8Hrs
2.
Digital Electronics:
Logic Gates- Basic gate, Universal gates. Boolean algebra.
Logic Families, Sequential logic, half adder, full adder, multiplexer,
de-multiplexer, Combinational logic, Flip-flops(JK Flip-flop)
7Hrs
3.
Applications:
Transducers: for Displacement, level, temperature, pressure, Speed
measurements, Range Specifications Limitations
Appliances: Block Diagram, Specifications, Operation and use of the
appliances: Digital Thermometer, Digital Watch, Weighing machine,
Microwave oven and Mobile handset
7 Hrs
Section II
4. Computer Basics:
Generation and classification of computers, Computer system
component – CPU, Input Unit, Output Unit, Storage Unit,
Applications of Computers
9 HRS
Computer Architecture :
Details of components of digital computer system – CPU,
Communication among the various units, Instruction format, cycle
Inside the Computer :
Study of System cabin, SMPS, Motherboard, Ports and Interfaces,
89
Expansion Cards, Memory Chips, storage devices
5 Data Representation in Computer:
Types of number system, Binary, Octal, Hexadecimal and their
conversion, Types of coding schemes – ASCII & Unicode
10 HRS
Computer Software :
Operating system – Types and Functions of Operating System,
Learning of the features & structures of Unix /Linux, Windows 7.
System Software – Interpreter , Assembler, Compiler
Application Software – Word Processor, Spreadsheets, Presentations
, DBMS
Unix and Linux commands – LS, CAT, CD, MKDIR, RMDIR and
Other command, & use of any editor in Linux
6 Computer Programming and Languages:
Program Development Cycle, Algorithm, Flowcharts, Programming
Control Structures – sequence, selection, repetition
programming languages – Introduction to low level and high level
PL
6 HRS
Introduction to Computer Networks – Definition and needs of
computer network, standards – OSI, TCP/IP, Types of Networks –
LAN, WAN, MAN, Type of network topologies , Internet (WWW),
emerging computing environment.
Text/Reference Books:
S.N Title of Book Author Publisher/Edition Topics
1 A Text of Applied
Electronics R. S. Sedha S. Chand U1,U3
2 Basic Electronics
Engineering
Vijay Baru,
RajendraKaduskar, S T
Gaikwad
Wiley/DREAMTE
CH U1
3 Principle of Electronics V.K.Mehta S. Chand U1,U2,U3
90
4 Digital Principles &
Applications
Albert Malvino, Donald
Leach
TMGH
Publications U2
5 Electronic Instrumentation H.S.Kalsi TMGH
Publications U3
6 Introduction to
Information Technology,
ITL, Education Solutions
LTD,
Pearson Education
ALL
7 Fundamentals of
Computers
V. Rajaram PHI Publications Unit No.
1
8 UNIX concepts and
applications
SunitaBha Das, TMGH
Unit No.
5.3
9 Computer Fundamentals
Architecture and
Organization
B. Ram New Age
International
Publishers
Unit No.
4.2
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 - 125
Contact Hours/ week 3 2 -- 5
Scheme of Marks
Section Unit No. Title Marks
I
1 Semiconductor Devices and Applications 16
2 Digital Electronics 16
3 Applications 18
II 4.1 Generation and classification of computers, Computer system
component – CPU, Input Unit, Output Unit, Storage Unit,
Applications of Computers
8
4.2 Details of components of digital computer system – CPU, 8
91
Communication among the various units, Instruction format,
cycle
4.3 Study of System cabin, SMPS, Motherboard, Ports and
Interfaces, Expansion Cards, Memory Chips, storage devices
8
5.1 Types of number system, Binary, Octal, Hexadecimal and their
conversion, Types of coding schemes – ASCII & Unicode
8
5.2 Operating system – types Operating system , functions , Unix
/Linux , Windows 7 – Structures and Features
System Software – Interpreter , Assembler, Compiler
Application Software – Word Processor, Spreadsheets,
Presentations , DBMS
8
5.3 Unix and Linux commands – Ls, CAT, CD, MKDIR, RMDIR
and Other command, & use of any editor in Linux
8
6.1 Definition and needs of computer network, standards – OSI,
TCP/IP, Types of Networks – LAN, WAN, MAN, Type of
network topologies , Internet (WWW), emerging computing
environment
9
6.2 Program Development Cycle, Algorithm, Flowcharts,
Programming Control Structures – sequence, selection,
repetition
programming languages – Introduction to low level and high
level PL
9
Course Unitization
Section
Unit Course
Outcomes No. of Questions in
No. Title CAT-I CAT-II
I
1 Semiconductor Devices and
Applications CO107.1 02
2 Digital Electronics CO107.2 01 01
92
3 Applications CO107.2 02
II 4.1 Computer Basics CO107.5 2 questions with
mixing of sub-
questions from
Unit No.4
-
4.2 Computer Architecture CO107.5
4.3 Inside a computer system CO107.5
5.1 Data Representation in
Computer CO107.6
2 questions
with mixing
of sub-
questions
from Unit
No.5 & Unit
No. 6.1
5.2
Computer Software –Types
and Functions, System
Software
CO107.6
Application Software’s CO107.6
5.3 Unix and Linux commands CO107.6
6.1 Introduction to Computer
Networks
C0107.6
6.2 Computer Programming and
Languages
CO107.7
Unit wise Lesson Plan
Section I
Unit No 1 Unit Title Semiconductor Devices and Applications Planned
Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Introduction, Half Wave & Full Wave rectifiers.
2 BJT characteristics, load line, operating point,
3 Leakage currents, saturation and cutoff mode of operations,
4 Need for stabilization, fixed bias, emitter bias, self bias,
5 Bias stability with respect to variation in ICO, VBE& β, Stabilization factors,
6 Thermal stability, RC coupled CE amplifier,
93
7 Regulated power supply.
Review Questions
Q1 Explain in detail Half Wave & Full Wave rectifiers
CO
107.1 Q2
Draw and Explain BJT characteristics, load line, operating point, leakage
currents.
Q3 Explain modes of operation of BJT.
Q4 Why Need for stabilization is required and bias stability with respect to
variation in ICO, VBE& β, Stabilization factors, CO
107.1 Q5 With neat circuit diagram explain fixed bias, emitter bias &self bias circuit
Q6 Draw and explain RC coupled CE amplifier
Unit No 2 Unit Title Digital Electronics Planned
Hrs. 06
Lesson schedule
Class
No. Details to be covered
1 Logic Gates- Basic gate, Universal gates.
2 Introduction of Boolean algebra.
3 Logic Families, Sequential logic.
4 Half adder and full adder
5 Multiplexer and de-multiplexer,
6 Combinational logic, Introduction to flip-flops
7 JK Flip-flop
Review Questions
Q1 Explain all Logic Gates- Basic gate, Universal gates.
CO
107.2
Q2 Write a note on Boolean algebra.
Q3 With the help of truth table explain half adder and full adder.
Q4 Explain 8:1 multiplexer in detail.
Q5 Draw and explain 1:4 de-multiplexer.
Q6 Explain in detail JK flip-flop.
94
Unit No 3 Unit Title Applications Planned Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Introduction of TransducersRange Specifications Limitations
2 Transducers for Displacement measurement, level measurement
3 Transducers for temperature, pressure, Speed measurements
4 Introduction to Appliances: Block Diagram, Specifications, Operation and use of the
appliances.
5 Digital Thermometer, Digital Watch.
6 Block Diagram, Specifications, Operation and use of Weighing machine.
7 Microwave oven and Mobile handset.
Review Questions
Q1 Explain Displacement measurement Transducers and its Range,
Specifications, Limitations CO
107.3 Q2 Write a note on level measurement
Q3 Write a note on temperature, pressure, Speed measurements
Q4
With the help of block Diagram, Specifications, Operation of the appliances:
a) Digital Thermometer
b) Digital Watch
c) Weighing machine
d) Microwave oven
e) Mobile handset
CO
107.4
Section II
Unit No 04 Unit Title Computer Basics, Architecture & Inside the
Computers
Planned
Hrs.
7
Lesson schedule
Class
No.
Details to be covered
95
1 Computer basics - H/W and S/W unit, characteristics of computers
2,3 Generation of Computers - Study of each generation of computers with its
characteristics and limitations
4 Classification of Computers - study of Minicomputers, Micro Computers
5 Mainframe and super computers with comparison of their characteristics and
advantages
6 Expose to Applications of Computers
7 Central Processing Unit, Registers, Control Unit
8 System Bus and its use, Cache Memory and Its Types
9 The Communication way from Processor to memory and Processor to I/O devices
Communication, Instruction format and Instruction Cycle
10 Inside the computer - System cabin, SMPS, Motherboard
11 Ports and Interfaces, Expansion Cards, Memory Chips, storage devices
Review Questions
Q1 Write a short note on characteristics & Applications of computer CO 107.5
Q2 Explain generations of the computers
Q3 Write down Classification of computers
Q4 State the difference between the first and third generation of computers
Q5 Explain the Central Processing unit of the Computer
Q6 Explain System Bus and its use, Cache Memory and Its Types
Q7 Explain Communication from Processor to memory and Processor to I/O
devices Communication, Instruction format and Instruction Cycle
Q8 write a short note on DMA / direct memory access unit
Q9 Explain Instruction Cycle & describe the various steps involved
Q10 What are expansion cards? How many types of expansion cards used in a
computer system
Unit
No
05 Unit Title Data Representation in Computer,
Computer Software
Planned
Hrs.
8
Lesson schedule
Class Details to be covered
96
No.
12 The basics of number system, types of number system, Conversion from Decimal to
binary, octal and hexadecimal
13 The conversion from Binary number system to decimal, octal and hexadecimal
number system
14 The conversion of fraction decimal to other number systems and vice versa and coding
schemes
15 The conversion of Octal number system to Decimal, Hexadecimal, Binary number
system & conversion for fractional numbers
16 The conversion of Hexadecimal number system to Decimal, Binary, Octal number
systems and understanding of the Coding schemes
17 Computer Software’s and their types, study of Operating System software’s ,types,
functions and features
18 System software’s - Assembler, Interpreter, compiler,
19 Understanding the usages of applications software - word processor, spreadsheet,
presentation and DBMS
20 The structure & features of Unix/Linux and Windows 7.0 operating system
21 Unix and Linux Commands
Review Questions
Q1 Convert following binary numbers into decimal numbers: 1010, 1101,
11011011
CO
107.2
Q2 Write down the steps to convert the binary number to equivalent
hexadecimal with example
Q3 Write down the steps to convert the Octal number to equivalent
hexadecimal with example
Q4 Find out octal equivalent of (6A)16 , (123)10, (1010)2
Q5 State difference between system software and application software’s with
example
CO
107.5
Q6 Explain the spreadsheet application and their usage and DBMS
applications
CO
107.6
Q7 Write a short note on application software’s
97
Q8 Explain system software’s and explains assembler, interpreter and
compiler
CO
107.6
Q9 Write a short note system software’s
Q10 Explain the word processor its application CO
107.6 Q11 Explain the presentation application software and its usage
Q12 Explain following Linux/Unix commands -MKDIR, CAT, CD, LS CO
107.6 Q13 Write a short note on Unix Operating system and its features
Q14 List out and explain the types of operating system CO
107.6 Q15 List out and explain the features of operating system
Unit No 06 Unit Title Computer Programming & Languages,
Introduction to Computer Networks
Planned
Hrs.
7
Lesson schedule
Class
No.
Details to be covered
22 Understanding of the Computer Network - definition, function, and need, the types of
networks with its features
23 Types of networks topology
24 OSI model and TCP/IP Model
25 The computer language and comparative study of types of languages, program
development life cycle
26 Learning of algorithms and flowcharts and their usages
27 Writing algorithm and drawing flowcharts for simple programs
28 Control structures - conditional control structure - if, if...else and nested if else, and
writing algorithms and flowcharts for conditional programs
29 Learning of loop control structures - writing algorithm and flowcharts loop based
programs
Review Questions
Q1 Explain the types of network operating system CO
107.7 Q2 Write a short note on Explain LAN, WAN and MAN
Q3 Define the computer networks and explain needs
98
Q4 Define the computer networks and explain its types
Q5 Explain TCP/IP Model
Q6 Explain OSI model
Q7 Define the computer networks and explain the topologies of computer
network
Q8 Define the algorithms and list out the characteristics ofalgorithms CO
107.7 Q9 Explain program development cycle
Q10 State the difference between low level and high level programming
language
Q11 Write down the algorithm and flowcharts for following programming
statement – Accept the rollno and marks for subjects and display the total
and percentage. If percentage is less than 40 display fail, if percentage >40
and <60 display pass , otherwise display first class remark
Q12 Define flow chart & List out guidelines for preparing flowcharts
Q13 Explain the basic program control structures with example
Model Question Paper
Course
Title :
Fundamentals of Electronics and computer Programming Max.
Marks
Duration: 3 hrs 100
Instructions:
1) All questions are compulsory for section-I
2) Figures to the right indicate full marks.
3) Assume suitable data if necessary
Section-I Marks
1 Solve any two 16
A Explain full wave rectifier with centre tap transformer with necessary
waveforms 8
B Explain all gates with its truth table 8
C With help of neat block diagram explain in detail mobile handset 8
99
2 Solve any two 16
A Explain BJT characteristics in detail 8
B Explain in detail JK flip flop 8
C Explain in detail microwave oven 8
3 Solve any three 18
A Explain 8:1 multiplexer with truth table 6
B With help of neat circuit diagram explain regulated power supply 6
C Explain half adder in detail. 6
D With help of neat block diagram explain digital thermometer 6
E Explain fixed bias circuit for biasing transistor. 6
Section-II
Marks
4 a Classify various computer system. Explain any three classification of
computers
8
b Explain Instruction Cycle in detail 8
c Explain Central Processing unit 8
5 a Convert
1. Hex to Binary ------------- CFG
2. Hex To Octal ------------- A217
3. Binary to Decimal ------- 111.0111
4. Binary to Hex ------------ 1111.11
8
b Explain following UNIX command with example – LS, CD, CAT &
MKDIR
8
c List and Explain the types of operating system
6 a Explain OSI Model 9
b Explain program development cycle 9
c List & Explain different types of computer networks 9
Assignments - Fundamentals of Electronics
100
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Choose2 appropriate components to design basic circuit in
electronics engineering.
CO107.1
Batch I 1. What are unregulated power supplies? Explain with help of neat circuit
diagram explain regulated power supply
2. Explain with waveform diagram the operation of Bridge rectifier?
3. What are the factors affecting thermal stability of transducer?
4. Explain input & output characteristics of CE configuration.
Batch II 1. What is the advantage of adding emitter resistance in Emitter-Biasing?
2. Explain with waveform diagram the operation of center tap Bridge
rectifier?
3. Explain single stage RC coupled amplifier circuit
Batch III 1. Explain with waveform diagram the operation of half waverectifier?
2. Explain input & output characteristics of CE configuration.
3. Explain with the help of neat diagram & derivation voltage divider bias?
4. What is biasing? Explain with the help of neat diagram & derivation fixed
bias?
Assignment No. 2
Assignment
Title
Analyze4 and differentiate2 basic gates in digital electronics CO107.2
Batch I 1. Differentiate between Combinational & Sequential circuits?
2. What do you mean basic gates & derived gates? Explain with the help
of examples?
3. Design 8:1 Multiplexer using basic gates.
Batch II 1. Why NAND & NOR gates are called as Universal gates?
2. What do you mean by Boolean algebra? Explain all the laws of
Boolean algebra?
3. Explain the operation of half adder & full adder with the help of truth
table.
101
Batch III 1. Briefly explain the different types of logic families?
2. Explain with the help of truth table working of
a) Full adder
b) Clocked SR latch
c) 1:4 demultiplexer
d) 4:1 multiplexer
3. Explain with the help of neat diagram & truth table working of positive
edge triggered JK flip flop
Assignment No. 3
Assignment
Title Categorize5 the concept and working of different transducers CO107.3
Batch I
1. Draw and explain working of strain gauge?
2. Explain any one type ofpressure transducer?
3. Explain Microwave oven with its block diagram.
Batch II
1. Draw and explain working of LVDT?
2. Explain any one type of pressure transducer?
3. Write note on mobile handset.
Batch III
1. Explain in detail what are the different techniques used for measurement of
level?
2. Explain any one type of pressure transducer?
3. Write note on washing machine.
4. Explain digital thermometer with its block diagram:
102
Course Code Applied Mechanics Course Code FE108
Prepared by Mr R P Kamble Semester II
Pre-requisites This course requires the student to know about the basic knowledge of
fundamental laws of Mathematics, Physics.
Course Outcomes
At the end of the course the students should be able to:
CO108.1 Find2 the resultant and locate it from any point for any given structures.
CO108.2 Compute3 the support reactions for any given beam.
CO108.3 Determine3 the member forces in various members of a truss by method of joint
or section. CO108.4 Explain2 geometric properties of plain lamina and solve it for Moment of Inertia.
CO108.5 Solve3 the problems on kinetics of linear and circular motions.
CO108.6 Explain2 the effect of impact loads on various bodies.
Mapping of COs with POs
POs
Cos
a b c d e f g H i J k l
CO108.1 1 2 1 3 1 1
CO108.2 2 3 2 1
CO108.3 1 3 3 2 2 3
CO108.4 3 3
CO108.5 3 3 3 1
CO108.6 3 1 3 3 1 2
103
Course Contents
Unit
No. Title
No. of
Hours
Section I
1. Fundamentals of Statics:
Basic Concepts and Fundamental Laws, Force, Moment and Couple, System
of Forces, Resultant, Resolution and Composition of Forces, Varignon’s
Theorem, Law of Moments.
07
2. Equilibrium:
Lamis’ Theorem, Free Body Diagram, Equilibrium of Forces, Equilibrium
conditions, Surface friction for bodies on horizontal and inclined planes.
Beams:Types of Loads, Types of supports, Analysis of Simple beams,
Virtual work method for support reactions.
07
3. Analysis of Truss:
Types of Trusses, Assumptions, Methods of Analysis:- Method of Joints.
Method of Section, Analysis of Simple truss with maximum seven
members.
06
Section II
4. Centroid and Moment of Inertia:
Centroid and Center of Gravity, Moment of Inertia of Standard shapes from
first principle, Parallel and perpendicular axis theorem, Moment of Inertia of
plain and composite figures, Radius of Gyration.
07
5. Kinetics of Linear and Circular motion:
Introduction to Kinematics of Linear and Circular motion (no numerical on
kinematics), Kinetics of linear motion, Newton’s Laws, D’Alembert’s
Principle, Work- Energy Principle, Impulse Momentum Principal, Kinetics
of Circular Motion.
09
6. Impact and Collision:
Impact, Types of Impact, Law of conservation of Momentum, Coefficient of
Restitution, Numerical on Direct central Impact.
04
104
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1. Vector Mechanics for
Engineers Vol.-I and II
F. P. Beer and E. R.
Johnston
Tata Mc-Graw Hill
Publication. All
2. Engineering Mechanics. Irving H. Shames Prentice Hall of India All
3. Engineering Mechanics S. Timoshenko Tata McGraw-Hill All
4. Strength of Materials S. Ramamrutham Dhanapat Rai
Publishing Company All
5. Engineering Mechanics S. S. Bhavikattis New Age
International Pvt. Ltd All
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 - 125
Contact Hours/ week 3 2 -- 5
Scheme of Marks
Section Unit No. Title Marks
I
1 Fundamentals of Statics 16
2 Equilibrium and beams 18
3 Analysis of trusses 16
II
4 Centroid and moment of inertia 16
5 Kinetics of linear and circular motion 18
6 Impact and collision 16
(*Weightage may vary, but each unit will have minimum 16 marks Weightage)
Course Unitization
CO Evaluation Remark
CO108.1 CAT 1 1 question on unit 1 and 2 with 15 marks each
CO108.2
105
CO108.3 CAT 2 1 question on unit 3 and 4 with 15 marks each
CO108.4
CO108.5
CAT 3 1 question on unit 5 and 6 with 15 marks each CO108.6
CO104.6
Unit wise Lesson Plan
Section I
Unit No Unit Title Planned Hrs.
1 Fundamentals of Statics 07
Class
No. Details to be covered
1 Introduction to APM & its Course plan
2 Fundamentals of vector mechanics and laws of motions.
3 Definition of force, various force systems, moment and couple and types of all.
4 Differences between resolution and composition, resultant and equilibrant.
5 Various laws - triangle law, parallelogram law, polygon law of forces and law of
moment.
6 Numerical problems.
7 Numerical problems.
Review Questions
Q1 State and prove law of parallelogram law of forces.
Q2 Explain resolution and composition of forces.
Q3 State and explain “law of transmissibility of forces”
106
Q4 Define a force. State the characteristics of a force.
Q5 Define a couple and prove that moment of couple is constant anywhere in the
plane of couple.
Q6 Define and explain moment of force.
Q7 Define a force system. Name the different force systems.
Q8 What do you mean by moment and couple? Explain its types.
Unit No Unit Title Planned Hrs.
2 Equilibrium and beams 07
Class
No. Details to be covered
1 Equilibrium conditions- Analytical and graphical. Types and principle of
equilibrium.
2 Free body diagrams and Lami’s theorem.
3 Numerical problems on equilibrium. Types of supports, loadings, beams.
4 Numerical problems on equilibrium.
5 Types of supports, loadings, beams. Virtual work principle.
6 Numerical problems
7 Numerical problems.
Review Questions
Q1 State the analytical conditions of equilibrium for coplanar concurrent forces and
coplanar non-concurrent forces.
Q2 Define and explain: i) Angle of repose, ii) Angle of friction, iii) Coefficient of
friction.
Q3 With suitable examples explain F.B.D
Q4 State Lami’s theorem. What are the limitations of it?
107
Q5 Write short notes on virtual work and virtual displacement.
Q6 Explain different types of beams.
Q7 State and explain principle of virtual work.
Q8 What are different types of beam supports?
Unit No Unit Title Planned Hrs.
3 Analysis of trusses. 06
Class
No. Details to be covered
1 Statically determinate and indeterminate trusses, perfect and imperfect trusses and
assumptions.
2 Various force members and method of analysis of truss.
3 Numerical problems on method of joints.
4 Numerical problems on method of sections.
5 Numerical problems.
6 Numerical problems.
Review Questions
Q1
What is difference between: A) Statically determinate and indeterminate truss,
B) Perfect and imperfect truss,
C) Deficient and redundant truss.
Q2 What are the assumptions made in the analysis of truss
Q3 What are two force, three force and zero force members?
Q4 State the methods of analysis of truss. Explain any one in detail.
Unit No Unit Title Planned Hrs.
4 Centroid and moment of inertia 07
108
Class
No. Details to be covered
1 Difference between Centroid and center of gravity.
2 Numerical problems on finding out location of Centroid.
3 M.I., Radius of gyration, parallel axes and perpendicular axes theorems.
4 M.I. of various sections such as triangle, rectangle, circle etc.
5 Numerical problems.
6 Numerical problems.
7 Numerical problems.
Review Questions
Q1 Explain the terms: A) Centroid and C.G., B) Polar M.I., C) Radius of gyration.
Q2 State and prove parallel axis theorem.
Q3 State and prove perpendicular axis theorem.
Q4 Derive an expression for M.I. of a circular section about its diameter, from first
principles.
Q5 Derive an expression for M.I. of a rectangular section about its base.
Q6 Using first principle, find the expression for M.I. of a triangle about its base.
Unit No Unit Title Planned Hrs.
5 Kinetics of linear and circular motion 09
Class
No. Details to be covered
1 Linear motion and circular motion, basic equations.
2 Motion under gravity and motion diagrams.
3 Centrifugal and centripetal force, superelevtion, angle of banking.
109
4 Numericals on superelevtion.
5 Newton’s second law of motion- theory and numericals.
6 D’Alembert’s principle, work energy principle.
7 Numericals on D’Alembert’s principle and work energy principle.
8 Numericals on D’Alembert’s principle and work energy principle.
9 Impulse-momentum principle- theory and numericals.
Review Questions
Q1 State and explain D’Alembert’s principle.
Q2 Distinguish between linear motion and circular motion.
Q3 Write a note on Centrifugal and centripetal force.
Q4 Derive the basic equations of linear motion.
Q5 Derive the expression for displacement in nth second with uniform linear
acceleration.
Unit No Unit Title Planned Hrs.
6 Impact and collision 04
Class
No. Details to be covered
1 Impact- definition and types, law of conservation of momentum.
2 Coefficient of restitution. Numericals.
3 Numerical problems.
4 Numerical problems.
Review Questions
Q1 Define and explain a) collision of elastic bodies and loss of K.E.
b) Law of conservation of momentum.
110
Q2 What do you mean by direct impact and indirect impact?
Q3 Define coefficient of restitution. Derive expression for it.
Model Question Paper
Course Title : Applied Mechanics
Duration: 3 Hrs. Max. Marks: 100
Instructions:
All questions are compulsory.
Use of non programmable calculator is allowed.
Section-I
Marks
1 a State and prove law of parallelogram law of forces. 4
b Find equilibrant force of the given force system w.r.t. point P.
12
2 a Write short notes on virtual work and virtual displacement. 6
b Two smooth cylinders A & B rest on a smooth inclined plane and
supported by smooth vertical plane as shown in fig. Determine
reactions at points of contact. Cylinder A weighs 500N and is 0.2 in
diameter, Cylinder B weighs 1200N and is 0.4 in diameter.
12
111
OR
b A beam ABCDE, simply supported at A &D, carries a U.D.L. of 20
KN/m from A to B; a point load of 20 KN at E and a clockwise
moment of 40KNm at C. Using principle of virtual work, determine
the support reactions. Take AB=2m, BC=CD=1.5m and DE=1m.
12
3 a What are the assumptions made in the analysis of truss? 4
b Determine the various member forces of the truss shown in fig.
12
4 a State and prove perpendicular axis theorem. 4
b Find the polar M.I. of the shaded lamina as shown in fig.
12
5 a Write a note on Centrifugal and centripetal force. 6
b Two masses of 80 kg and 20 kg are connected by a thread and move
along a rough horizontal plane under action of a 400 n as shown in fig.
The coefficient of friction at sliding surface is 0.3. Determine the
common acceleration of both objects and the tension in the string,
using D’Alembert’s principle.
12
112
OR 4
b A body of mass 30 kg is projected up on an inclined plane of slope 300
with an initial velocity of 10 m/sec. Take µ =0.2. Calculate a) distance
travelled before coming to the rest, b) the time required to reach the
highest point & c) the time required and final velocity to return to the
starting point.
12
6 a What do you mean by direct impact and indirect impact? 4
b The coefficient of restitution between two spheres of masses 1 kg and
5 kg is 0.75. The 1 kg sphere moving with a velocity of 3 m/sec strikes
the another sphere moving in the same direction with velocity
60cm/sec. Find the velocities of the two spheres after impact and the
loss of K.E. during impact.
6
c A 10 gm bullet is shot horizontally into a wooden block of mass 1 kg.
The bullet gets embedded in the block is displaced on a rough
horizontal table (µ=0.2) through 1m. What is the firing velocity of the
bullet?
6
Practical/Termwork
Practicals
All Batches 1) Polygonal law
2) Beam reaction
3) Bell Crank lever
4) Jib Crane
5) Coefficient of Restitution
6) Graphical methods to find unknown force
Termwork 1) At least one assignment on each topic
113
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Fundamentals of Statics
All Batches 1. A non-concurrent force system acts on a lamina as shown in the fig 1;
determine the magnitude of force P such that the resultant of the force
system passes through point E. Hence determine the resultant.
Fig. 1
Fig. 2
2. For the force system shown in fig.2, find the resultant and its point of
application w.r.t. point A along the bar.
3. Find equilibrant force of the given force system w.r.t. point P. Refer fig.
3.
Fig. 3
114
Fig. 4
4. Forces of magnitude P, 2P, 3P, 4P and 5P act from the successive corners
of a rectangular pentagon towards the center of the pentagon. Find the
magnitude and direction of the resultant force.
5. A member of a crane is attached by 3 cables. (Refer Fig.4). If TAC= 8 kN,
TAD=10.4 kN. Determine tension in the cable AE if resultant of three
cables is directed along AB. Also find the corresponding resultant.
6. A bracket is subjected to three forces and a couple as shown in fig. 5.
Determine magnitude, direction and the line of action of the resultant
w.r.t. A.
Fig. 5
Fig. 6
7. Determine angle θ for which resultant of three forces is vertical. Also find
corresponding magnitude of R. Refer fig. 6.
8. Three concurrent forces –
115
i) 40 N along X- axis
ii) 40 N making angle α with negative Y –axis measured anti-
clockwise.
iii) 80 N making angle α with negative X –axis measured anti-
clockwise.
Find the angle α and the magnitude of the resultant force given that the
resultant is vertical (along Y axis).
Assignment No. 2
Assignment
Title
Equilibrium and beams
All Batches 1. Explain different types of loads.
2. Two blocks, tied together by a 200 inclined string are to be moved by a
force P as shown in the fig 1.. Find the magnitude of force P if the
coefficient of friction under block A is0.25 and block B is 0.4.
Fig. 1
Fig. 2
3. Two smooth cylinders A & B rest on a smooth inclined plane and
supported by smooth vertical plane as shown in fig. 2. Determine
reactions at points of contact. Cylinder A weighs 500N and is 0.2 in
diameter, Cylinder B weighs 1200N and is 0.4 in diameter.
4. Two spheres of diameter 180mm and 60mm rests on three planes as
shown in fig.3. The weight of bigger sphere is 60N and that of smaller
116
sphere is 30N. Determine reactions at points of contact.
Fig. 3
Fig. 4
5. Two blocks 1 and 2 of weighs 1290 N and 570 N are resting on the
horizontal surface as shown in fig. 4. The block 2 is attached to a
vertical wall by inclined string AB. Find the magnitude of the
horizontal force P that will be necessary to cause slipping to impend.
Take µ between the surface and the block as 0.4 and µ between blocks
as 0.25.
6. Two cylinders of weighs 200 N & 100 N are hinged at their centers to
a rigid bar of negligible weight. What force should be applied to keep
them at the position as shown in fig?
7. A beam ABCDEF is supported at A & E. The beam carries a point
load of 58KN acting vertically downloads at B; another point load of
85 KN at point C making an angle of 71.5650 with horizontal; a udl of
117
18 KN/m from D to F and a clockwise couple of 56 KNm at F. If
support A is hinged and support E is roller support, determine reactions
at the supports.
Length(AB)=0.5m, L(BC)=L(CD)=L(DE)=1m, L(EF)=1.5m.
8. Find the support reactions for the beam shown in fig.
9. A beam ABCDE, simply supported at A &D, carries a U.D.L. of 20
KN/m from A to B; a point load of 20 KN at E and a clockwise
moment of 40KNm at C. Using principle of virtual work, determine
the support reactions. Take AB=2m, BC=CD=1.5m and DE=1m.
10. A simply supported beam of span 4 m supports a central point load of
100 KN and a central concentrated moment of 50 KNm (Clock-wise).
Find support reactions.
11. A simply supported beam AB is subjected to distributed load
increasing 1500N/m to 4500 N/m from end A to B. AB=6m.
Determine support reactions.
Assignment No. 3
Assignment
Title
Analysis of trusses
All Batches 1. Determine the various member forces of the truss shown in fig. 1. by
method of sections.
118
Fig. 1
2. Determine the various member forces of the truss shown in fig.2. by
method of joints.
3. Determine the various member forces of the truss shown in fig.3. by
method of sections.
Fig. 3
119
Fig. 4
4. Find the forces in the members AB, AC, BD and VD as shown in fig.
4.
5. For the truss shown in fig.5. below, calculate the forces in each
member.
Fig. 5
Fig. 6
6. Determine the various member forces of the truss shown in fig.6 by
method of joints.
7. A cantilever truss is subjected to loads as shown in fig. Find all the
member forces and tabulate the result.
120
Assignment No. 4
Assignment
Title
Centroid and moment of inertia
All Batches 1. Find Ixx, Iyy and polar M.I. of the shaded area shown in fig. 1 below.
Fig.1
Fig. 2
2. Find the polar M.I. of the shaded lamina as shown in fig. 2.
3. Calculate M.I. for the shaded part of the lamina as shown in the fig.3
121
about the centroidal horizontal axis.
Fig.3
Fig.4
4. Compute the M.I. of the shaded area as shown in the fig. 4 about X-X
axis. Also calculate radius of gyration about XX axis.
5. For the section shown in fig.5, determine M.I. about two mutually
perpendicular axes.
Fig. 5 Fig. 6
122
Fig. 7
6. From a plate 4 cm X 8 cm, a semi-circle of 4 cm diameter is cut as
shown in fig. 6. ‘O’ is the center of it. Determine the Centroid of
remaining portion of the plate and M.I. of the plate about its base.
7. For the composite section shown in fig. 7 determine the M.I. about its
base.
Assignment No. 5
Assignment
Title
Kinetics of linear and circular motion
All
Batches
1. Two masses of 80 kg and 20 kg are connected by a thread and move along a
rough horizontal plane under action of a 400 n as shown in fig. The
coefficient of friction at sliding surface is 0.3. Determine the common
acceleration of both objects and the tension in the string, using D’Alembert’s
principle.
2. A circular automobile track has a radius of 183 m. The track is so designed
that when a car travels at a speed of 193 kmph, the force between the
automobile and track is normal to the surface of the track. Find the angle of
banking.
3. In what distance will body ‘A’ shown in fig. attains a velocity of 3 m/s
starting from rest.
123
Take µ = 0.2. Assume pulley is smooth. What is the tension in the chord?
4. A pile of 500 kg mass is driven into ground by dropping a hammer freely,
having as mass of 318 kg through a height of 2.7 m. If the pile is driven into
the ground by 0.15m, calculate the average resistance of the soil.
5. Find at what maximum speed a vehicle can move round a flat curve of 60 m
radius without slide slip. Also find the limiting value of height of C.G. of
vehicle if overturning consideration should not limit the speed of vehicle on
this curve. Given weight of vehicle is 22 kN. Base width = 1.6 m.
Coefficient of friction between tires and road surface= 0.5.
6. A body of mass 30 kg is projected up on an inclined plane of slope 300 with
an initial velocity of 10 m/sec. Take µ =0.2. Calculate a) distance travelled
before coming to the rest, b) the time required to reach the highest point & c)
the time required and final velocity to return to the starting point.
7. A 10 gm bullet is shot horizontally into a wooden block of mass 1 kg. The
bullet gets embedded in the block is displaced on a rough horizontal table
(µ=0.2) through 1m. What is the firing velocity of the bullet?
8. A body weighing 300 N is pushed up on a 300 plane by a 400 N force acting
parallel to the plane. If the initial velocity of the body is 1.5 sec and µ = 0.2,
what velocity will the body have after moving 6 m?
Assignment No. 6
Assignment
Title
Impact and collision
All
Batches
1. The coefficient of restitution between two spheres of masses 1 kg and 5 kg is
0.75. The 1 kg sphere moving with a velocity of 3 m/sec strikes the another
sphere moving in the same direction with velocity 60cm/sec. Find the velocities
124
of the two spheres after impact and the loss of K.E. during impact.
2. A ball of 4 kg mass moving with velocity of 2m/s impinges directly on another
ball of 5 kg mass moving with a velocity of 1 m/s in opposite direction. If e=
0.5, find the velocity of balls after impact. Also find the loss of energy due to
impact.
3. A ball of 100 gm mass strikes directly on another ball of same mass which is at
rest. The first ball comes to the rest due to the impact. Find the loss of K.E. if
e=0.707.
4. A vehicle of mass 600 kg and moving with a velocity of 12 m/s strikes another
vehicle of mass 400 kg moving at 9 m/s in the same direction. Both get coupled
together due to impact. Find the common velocity with which the two vehicles
will move. Also find the loss of K.E. due to impact.
5. 80 N and 150 N bodies are approaching each other with a velocity of 20 m/s
and 6 m/s. What will be the velocity of each body after impact? How much is
loss of K.E.? Take e=0.6. Assume 80N block is moving from LHS to RHS.
6. Three perfectly elastic bodies A,B and C of mass 20 kg, 40 kg and 80 kg
moving in the same direction with velocities of 4 m/s, 1m/s and 0.75 m/s
respectively. If the body A strikes with B, which in turns impact with the body
C, find the velocities of bodies after impact.
7. A vehicle of mass 600 kg and moving with a velocity of 12 m/s strikes another
vehicle of mass 400 kg moving at 8 m/s in the same direction. Both get coupled
together due to impact. Find the common velocity with which the two vehicles
will move. Also find the loss of K.E. due to impact.
125
Course Basic Mechanical Engineering Course Code FE109
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 -- 125
Contact Hours/ week 3 2 -- 5
Prepared by Gavali P.B., Shinde H.T., N. V.
Sabnis
Date 05/11/2017
Prerequisites This course requires the student to know about the basics of physics,
chemistry & mathematics.
Course Outcomes
At the end of the course the students should be able to:
CO109.1 Analyze2 basic concepts of thermodynamics and solve numerical on that.
CO109.2 Describe1 basics of I. C. Engine and different cycles.
CO109.3 Describe1 basics of Refrigeration and Air Conditioning Systems.
CO109.4 Discuss1principle of energy conversion system and power plants.
CO109.5 Identify2 power transmission devices with their functions and solve
numerical on belt drives.
CO109.6 Identify1 and elaborate different manufacturing process.
Mapping of COs with POs
POs
COs a b c d e f g h i j k
CO109.1 2 1
CO109.2 1
CO109.3 1
CO109.4 2
CO109.5 2 2
CO109.6 1
126
Course Contents
Unit No. Title No. of
Hours
Section I
1. Thermodynamics:
Thermodynamic State, Process, Cycle, Thermodynamic System,
Heat, work, Internal Energy, First Law of Thermodynamics,
Application of First Law to steady Flow and Non-Flow processes,
Limitations of First Law (Numerical Treatment) Statements of
Second Law of Thermodynamics.
07
2. Introduction to I C Engine:
Carnot Engine, Construction and Working of C.I and S.I., Two
stroke, Four Stroke Cycles, Air standard cycles- Carnot Cycle, Joule
Cycle, Otto Cycle, Air Standard efficiency (Descriptive Treatment
only)
07
3 Introduction to Refrigeration and Air Conditioning:
Carnot refrigerator, Refrigerant types and properties, Vapour
compression and vapourabsorption system, solar refrigeration,
Window Air Conditioning, Psychometric properties of moist air,
Applications of refrigeration and air conditioning (Descriptive
Treatment only)
07
Section II
4 Energy Sources and power plants:
Renewable and non-renewable, Solar-flat plate collector, concentric
collector–Parabolic and cylindrical, Photovoltaic cell, Wind,
Geothermal, Tidal, Hydropower plant, Steam Power plant, Bio-gas,
Bio-Diesel (Descriptive Treatment only).
07
5 Mechanical Power Transmission and Energy conversion devices:
Type of Belt and belt drives, chain drive, Types of gears and gear
Trains, Types of Coupling, Types of Bearings (Numerical Treatment
on belt drive), Types Construction, working and applications of
07
127
Pumps, compressor and Hydraulic Turbines
6 Introduction to Manufacturing Processes:
Casting Process, Steps involved in casting processes, and their
applications, Metal removing processes and their applications, Metal
Joining Processes – welding, soldering and brazing and their
applications.
07
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1 Solar Energy Dr.S.P. Sukathame Tata Mc-Graw Hill
Publication
4
2 Non-Conventional
Sources of Energy G.D. Rai Khanna Publication
4
3 Engineering
Thermodynamics R.Joel
The English Language
Book Society
1
4 Engineering
Thermodynamics Achultan Prentice Hall of India.
1
5 Thermal Engineering R.K. Rajput Laxmi Publication,
Delhi
1
6 Elements of Heat
Engine
Patel and
Karamchandani Acharya Book depot
1
7 Power Plant
Engineering
Arora and
Domkunwar DhanpatRai and Sons
1
8
Manufacturing
Technology Volume I
& II
P. N. Rao
Tata Mc-Graw Hill
Publication
6
9
Elements of Workshop
Technology, Vol.I and
II,
HajaraChoudhari Media Promoters
6
10 Basic Mechanical
Engineering
BasantAgrawal& C.
M. Agrwal
Wiley India Pvt. Ltd.
1-6
128
11 Energy Technology S. Rao and Dr.B.B.
Parulekar Khanna Publication
4
Scheme of Marks
University Examination: (Theory Examination – 100 Marks)
Section Unit No. Title Marks
I 1, 2 and 3 Thermodynamics, Introduction to I C Engine,
Refrigeration and Air Conditioning System
50
II 4,5 and 6
Energy Sources and power plants, Mechanical Power
Transmission and Energy conversion devices,
Introduction to manufacturing processes
50
Term Work Marks: (Practical Term Work – 25 Marks)
Theory
Class
Performance
Practical
Performance
Practical
Knowledge
&Journal
Presentation
Assignments&
Knowledge
Acquired
Average of
Continuous
Assessment
Tests
(CAT)
Total
Marks
Term Work
out of 25
(Total
Marks/2)
10 10 10 10 10 50 25
Course Unitization
Section
Unit Course Outcomes No. of Questions in
No. Title CAT-I CAT-II CAT-III
I
1 Thermodynamics CO109.1 All
Questio
ns are
compuls
ory.
2 Introduction to I C Engine
CO109.2
II 3 Introduction to
Refrigeration and Air
CO109.3
All
129
Conditioning Question
s are
compulso
ry.
4 Energy Sources and power
plants
CO109.4
III
5
Mechanical Power
Transmission and Energy
conversion devices
CO109.5
All
Questio
ns are
compuls
ory.
6 Manufacturing Processes
CO109.6
Unit wise Lesson Plan
SECTION I
Unit No 1 Unit Title Thermodynamics Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Thermodynamic State, Process, Cycle
2 Thermodynamic System
3 Heat, work, Internal Energy
4 First Law of Thermodynamics, Application of First Law to Steady Flow and Non-Flow
processes
5 Limitations of First Law of thermodynamics
6 Second Law of thermodynamics statement& implication
7 Examples on steady Flow and Non-Flow processes
Review Questions
Q.1 Steam enters a nozzle with a specific enthalpy of 2940 KJ/Kg with initial
velocity 25 m/s and leaves with a specific enthalpy at 2540 KJ/Kg Determine
the velocity of steam leaving the nozzle if the process is isentropic and
potential energy changes are ignored (May 2006)
CO109.1
Q.2 Define following terms associated with thermodynamics- Thermodynamic CO109.1
130
systems, Thermodynamic equilibrium, Perpetual Motion machine of second
kind, Point Function and Path Function (May 2009)
Q.3 Explain Heat & work (Nov. 2007) CO109.1
Q.4 A fluid at a pressure of 3 bar, and with specific volume of 0.18
m3/kg,contained in a cylinder behind a piston expands reversibly to a pressure
of 0.6 bar according to a law, p =C/v2where C is a constant. Calculate the work
done by the fluid on the piston.
(May 2008)
CO109.1
Unit No 2 Unit Title Introduction to I C Engine Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Carnot Engine, Construction and Working of C.I and S.I. Engine
2 Two stroke Engine
3 Four stroke Engine
4 Air standard cycles- Carnot Cycle
5 Joule Cycle
6 Otto Cycle
7 Air Standard efficiency
Review Questions
Q.1 Distinguish between Two Stroke Engine and Four Stroke Engine (May 2010,
May 2011, Nov 2012)
CO109.2
Q.2 Compare between S. I. Engine & C. I. Engines.
(May 2013, Nov 2011)
CO109.2
Q.3 Explain in detail with neat sketch Joule Cycle. Derive expression for
efficiency for the same.(May 2013, Nov 2011)
CO109.2
Q.4 Explain the working & construction of C. I. Engine.
(May 2008, Nov 2010)
CO109.2
Q.5 Explain the working & construction of S. I. Engine.
(May 2009, Nov 2012)
CO109.2
131
Unit No 3 Unit Title Introduction to Refrigeration and Air
Conditioning
Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Carnot refrigerator, Refrigerant types and properties
2 Vapour compression system
3 Vapour absorption system
4 Solar Refrigeration
5 Window Air Conditioning
6 Psychometric properties of moist air
7 Applications of refrigeration and air conditioning (Descriptive Treatment only)
Review Questions
Q.1 With the help of neat sketch, explain construction and working of windowair
conditioner.(May 2013)
CO109.3
Q.2 Define sensible heat, latent heat, totalheat, dry steam. (May 2013) CO109.3
Q.3 Define dryness fraction of steam, latent heat, superheated steam, dry saturated
steam. (Nov 2012)
CO109.3
Q.4 Explain construction and working of vapour compression refrigeration system
with neat sketch. (May 2011, Nov 2011)
CO109.3
Q.5 Define Refrigeration, air conditioning, ton of refrigeration, C.O.P.
(May 2011, May 2009)
CO109.3
Q.6 Explain vapour absorption refrigeration cycle with neat sketch.
(Nov 2012)
CO109.3
SECTION II
Unit No 4 Unit Title Energy Sources and power plants Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Renewable and non-renewable energy sources
132
2 Solar-flat plate collector, concentric collector–Parabolic and cylindrical
3 Photovoltaic cell, Wind power plant
4 Geothermal power plant, Tidal energy
5 Tidal power plant, Hydropower plant
6 Steam Power plant
7 Bio-gas, Bio-Diesel (Descriptive Treatment only).
Review Questions
Q.1 With the help of neat sketch explain Geothermal power plant.
(May 2013, Nov 2012)
CO109.4
Q.2 Write short note on Bio Diesel,solar dryer and solar distillation, wave energy.
(May 2013)
CO109.4
Q.3 What are drawbacks of solar energy? (Nov 2012) CO109.4
Q.4 Explain construction and working of fuel cell' (Nov 2012) CO109.4
Q.5 Explain with neat sketch construction and working of hydroelectric power
plant.(May 2011)
CO109.4
Q.6 Write short note on solar collectors, tidal energy. (May 2011) CO109.4
Unit No 5 Unit Title Mechanical Power Transmission and Energy
conversion devices
Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Type of Belt and belt drives, chain drive.
2 Types of gears and gear Trains
3 Types of Coupling
4 Types of Bearings
5 Types Construction, working and applications of Pumps
6 Types Construction, working and applications of , compressor
7 Types Construction, working and applications of Hydraulic Turbines
Review Questions
133
Q.1 An open belt drive connects two pulleys of 500 mm diameter and 2m apart.
Initial Tension in belt is 400 N. If coefficient of friction in belt is 0.25, find
power transmitted at 700 rpm. Also calculate length of belt. (May 2010)
CO109.5
Q.2 Explain construction and working of Kaplan Turbine.
(Nov 2012, May 2009, May 2011)
CO109.5
Q.3 Explain construction and working of Francis Turbine. (Nov. 2011) CO109.5
Q.4 Derive an expression for Length of Cross Belt Drive. ( Nov. 2008) CO109.5
Q.5 Explain with neat sketch construction and working of Centrifugal pump.
(Nov. 2010)
CO109.5
Unit No 6 Unit Title Manufacturing Process Planned Hrs. 07
Lesson schedule
Class No. Details to be covered
1 Introduction to manufacturing processes
2 Casting Process, Steps involved in casting processes
3 Casting and their applications
4 Metal removing processes
5 Metal removing applications
6 Metal Joining Processes – welding, their applications
7 Metal Joining Processes – soldering and brazing and their applications
Review Questions
Q.1 What are the steps involved incasting process. CO109.6
Q.2 What are the different metal removing process CO109.6
Q.3 Explain the different types of metal joining process with example CO109.6
Q.4 How welding is classified explain the applications of same CO109.6
134
Model Question Paper
Course Title : Basic Mechanical Engineering FE109
Duration : 3 hours Max. Marks:100
Instructions:
1. Attempt any three questions from each section.
2. Figures to the right indicate full marks.
3. Assume suitable data if necessary and indicate clearly.
4. Use of non-programmable calculator is allowed.
Section-I
Marks
1 a Explain different thermodynamic systems with example. 08
b A mass of air has an initial pressure of 1.3 MN/m2, volume 0.14 m3
and temperature 1350 C. It is expanded until its final pressure is 275
KN/m2and its volume becomes 0.56 m3. Take R=0.287 KJ/Kg K
Determine 1) The mass of air 2) The final temperature of air.
10
2 a Explain the working of S.I. Four stroke engine with neat sketch. 08
b Describe Carnot Engine 08
3 a Explain Vapour Absorption refrigeration Cycle. 08
b Explain following terms
1) Humidity 2)Dry air
3) Degree of Saturation 4) relative Humidity
08
4 a Differentiate between Two stroke and four Stroke I C Engine 04
b Explain Different Properties required for refrigerant 04
c Explain PMM-I and PMM-II 04
d Explain similarities between heat and work 04
Section-II
5 a Explain with neat sketch the hydroelectric power plant. Write
advantages of the plant over other power plants
10
b Explain wind energy power plant with neat sketch 06
135
6 a Explain the Centrifugal Pump with neat sketch 08
b Derive the derivation for length of cross belt 08
7 a Define manufacturing process with examples. Explain facing and
turning operation with neat sketch
08
b Explain sand casting process in detail. 08
8 a Explain welding process 06
b Explain with neat sketch different solar collectors 06
c Explain with neat sketch Oldham coupling 06
Experiments and Assignments
List of experiments/assignments to meet the requirements of the syllabus
Experiment No. 1
Assignment
Title
Two stroke and Four Stroke Engine CO109.2
Batch I Demonstration of Two stroke and four stroke engine
Batch II Demonstration of Two stroke and four stroke engine
Batch III Demonstration of Two stroke and four stroke engine
Experiment No. 2
Assignment
Title
Vapour Compression Refrigeration System CO109.3
Batch I Demonstration of VapourCompressionRefrigeration System (VCRS)
&Window AirConditioner.
Batch II Demonstration of Vapour Compression Refrigeration System (VCRS) &
Window Air Conditioner.
Batch III Demonstration of Vapour Compression Refrigeration System (VCRS) &
Window Air Conditioner.
Experiment No. 3
Assignment Title Solar water heating system. CO109.4
Batch I Demonstration of solar water heating system.
Batch II Demonstration of solar water heating system.
Batch III Demonstration of solar water heating system.
Experiment No. 4
136
Assignment Title Diesel power plant CO109.4
Batch I Demonstration of Diesel power plant
Batch II Demonstration of Diesel power plant
Batch III Demonstration of Diesel power plant
Experiment No. 5
Assignment Title Gears and gear trains. CO109.5
Batch I Demonstration of types of Gears and gear trains.
Batch II Demonstration of types of Gears and gear trains.
Batch III Demonstration of types of Gears and gear trains.
Experiment No. 6
Assignment Title Pumps and compressor. CO109.5
Batch I Demonstration of pumps and compressor.
Batch II Demonstration of pumps and compressor.
Batch III Demonstration of pumps and compressor.
Experiment No. 7
Assignment Title Hydraulic turbine CO109.5
Batch I Demonstration of hydraulic turbine
Batch II Demonstration of hydraulic turbine
Batch III Demonstration of hydraulic turbine
Experiment No. 8
Assignment Title Metal joining processes. CO109.6
Batch I Demonstration of metal joining processes.
Batch II Demonstration of metal joining processes.
Batch III Demonstration of metal joining processes.
List of additional assignments /experiments
Assignment No. 9
Assignment Title Metal removal process CO109.6
Batch I Demonstration of Metal removal process
Batch II Demonstration of Metal removal process
Batch III Demonstration of Metal removal process
137
Course Name Engineering Mathematics II Course code FE110
Prepared by S.S.Salgare/P.V.Patil/ S.A.Tele/S.T.Patil Date 3/11/2017
Prerequisites • Basic knowledge of results from Algebra.
• Knowledge of Derivatives.
• Knowledge of Definite and Indefinite integration.
• Basic knowledge Geometry and Trigonometry.
Course Outcomes
At the end of the course the students should be able to:
CO 110.1 Solve3 different types of ordinary differential equations of first order and first
degree.
CO 110.2 Apply3 the knowledge of ordinary differential equation of first order and first
degree to solve engineering problems.
CO 110.3 Apply3 different numerical methods for solving differential equation of first
order and first degree.
CO 110.4 Solve3integrations by using special functions.
CO 110.5 Trace4 and find1 arc length the equations in Cartesian and polar form.
CO 110.6 Solve3 double integral and formulate6 and find1 for area, moment of inertia,
centre of gravity, mass of lamina.
Mapping of COs with POs
POs
Cos
a b c d e f G H i j k l m n o
CO 110.1 3 3 3
CO 110.2 3 3 3
CO 110.3 3 3 2
CO 110.4 3 2 2
CO 110.5 3 3 3
CO 110.6 3 2 2
138
Course Contents
Unit No. Title No. of
Hours
Section I
1. Ordinary Differential Equations of First Order and First Degree:
1. Linear differential equations
2. Reducible to Linear differential equations
3. Exact differential equations
4. Reducible to Exact differential equations
07
2. Applications of Ordinary Differential Equations of 1st Order
&1st Degree
1. Applications to Orthogonal trajectories (Cartesian & Polar
equations)
2. Applications to Simple Electrical Circuits
3. Newton’s law of cooling
4. Rate of decay and growth
06
3. Numerical Solution of Ordinary Differential Equations of First
Order and First Degree:
1. Taylor 's series method
2. Euler's method
3. Modified Euler's method
4. Runge-Kutta fourth order formula
5. Simultaneous 1st order differential equations by Runge–Kutta
method
08
Section II
4. Special Functions:
1. Gamma function and its properties
2. Beta function and its properties
3. Differentiation under integral sign
4. Error function and its properties
06
5. Curve Tracing: 06
139
1. Tracing of curvesin Cartesian form a) Semi cubical parabola,
b)Cissiod of Diocles,c)Strophoid, d)Astroid, e) Witch of Agnesi,
f) Common Catenary, g)Folium of Descartes,
2. Tracing of curvesin polar form a)Cardioid, b) Pascal’s Limacon,
c) Lemniscate of Bernoulli,d) Parabola, e) Hyperbola,
f)Rose curves
3. Rectification of plane curves (Cartesian and Polar form)
6. Multiple Integration and its applications
1. Double Integrals and evaluation
2. Change of order of integration
3. Double Integrals in Polar Coordinates
4. Change into Polar
5. Area enclosed by plane curves
6. Mass of a plane lamina
7. Center of Gravity of Plane Lamina
8. Moment of inertia of plane lamina
09
Reference Books:
Sr.
No.
Title of Book Author Publisher/Edition Topics
1 Higher Engineering
Mathematics
Dr. B. S. Grewal Khanna
Publishers, Delhi.
All
2 A text book of Applied
Mathematics, Vol.-I,II,III
P. N. Wartikar & J.
N. Wartikar
Pune Vidyarthi
Griha Prakashan,
Pune.
All
3 Higher Engineering
Mathematics
H.K. Das and Er.
Rajnish Varma
Chand Technical
publication
All
4 A textbook of Engineering
Mathematics
N. P. Bali, Iyengar Laxmi Publications
(P) Ltd., New Delhi
All
5 Advanced Engineering Erwin Kreyszig Wiley India Pvt. All
140
Mathematics Ltd.
6 Advanced Engineering
Mathematics
H. K. Dass, S.
Chand
New Delhi All
7 A textbook of Engineering
Mathematics Volume I
Peter V. O’Neil
and Santosh K.
Sengar, Cengage
Learning
All
8 Mathematical Methods of
Science and Engineering
Kanti B. Datta,
Cengage
Learning.
All
9 Numerical Methods Dr. B. S. Grewal Khanna
Publishers, Delhi.
4
10 Numerical Methods S.S. Shastri 4
11 Differential Equation and
Partial Differential Equation
M.D.
Raisinghaniya.
1 & 2
12 Computer Based numerical
& Statistical techniques
Masish Goyal Laxmi Publication 3
13 Higher Engineering
Mathematics
B.V. Raman Tata McGraw Hill All
14 A text book of Applied
Mathematics, Vol.-I,II,III
P. N. Wartikar & J.
N. Wartikar
Pune Vidyarthi
Griha Prakashan,
Pune.
All
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks 100 25 - 125
Contact Hours/ week 3 2 -- 5
141
Scheme of Marks
Section Unit No. Title Marks
I 1 Ordinary Differential Equations of First Order and
First Degree
15
2 Applications of Ordinary Differential Equations of
First Order and First Degree
15
3 Numerical Solution of Ordinary Differential
Equations of First Order and First Degree
20
II 4 Special Functions 15
5 Curve Tracing 15
6 Multiple Integration and its applications 20
Course Unitization
Section
Unit Course
Outcomes
No. of Questions in
No. Title CAT-I CAT-II CAT-III
I 1 Ordinary Differential
Equations of First
Order and First
Degree
CO 110.1 Q.1
(15 Marks)
2 Applications of
Ordinary Differential
Equations of First
Order and First
Degree
CO 110.2 Q.2
(15 Marks)
3 Numerical Solution
of Ordinary
Differential
Equations of First
Order and First
CO 110.3 Q.1
(15 Marks)
142
Degree
II 4 Special Functions
CO 110.4 Q.2
(15 Marks)
5
Curve Tracing
CO 110.5 Q.1
(15
Marks)
6 Multiple Integration
and its applications
CO 110.6 Q.2
(15
Marks)
Unit wise Lesson Plan
Section I
Unit No 1 Unit Title Ordinary Differential Equations of First
Order and First Degree
Planned
Hrs.
08
Lesson schedule
Class
No.
Details to be covered
1 Differential equation, Degree, Order and types of solutions
2 Exact Differential equation
3 Reducible to exact ( Rule 1,2)
4 Reducible to exact ( Rule 3,4)
5 Examples
6 Linear Differential Equation
7 Non-linear Differential Equation
8 Examples
Review Questions
Q1 Explain Degree, order of differential equation
Q2 Solve 2(sin .cos ) cos .sin tan 0xx y e dx x y y dy
143
Q3 Solve 2 1 2 1 0x y dx y x dy
Q4 Solve 2 2 2 2 2 2 0x y a xdx x y b ydy
Q5 Solve 22 22 0a xy y dx x y dy
Q6 Solve 2 sin 0yx e dy y x x dx
Q7 Solve 11 cos log sin 0y y dx x x x y dyx
Q8 Solve
2 log
dy y
dx y y y x
Q9 Solve
2 2( ) 2 1
ydx xdy dx
x y x
Q10 Solve 2 3 2 2( 2 ) 2 3 0yxe xy y dx a x y xy dy
Q11 Solve 22 0xy y dx xdy
Q12 Solve ( ) 0yx xxe dx dy e dx ye dy
Q13 Solve 2 21 ( 1)dy
x x y x xdx
Unit No 2 Unit Title Applications of ordinary differential
equations of first order and first degree
Planne
d Hrs.
07
Lesson schedule
Class
No.
Details to be covered
1 Different engineering applications of ordinary differential equations
2 Formation of orthogonal trajectories of Cartesian curves
3 Formation of orthogonal trajectories of Polar curves
4 Examples on Simple R-L-E electric circuit
5 Examples on Simple R-C-E electric circuit
6 Study of Newton’s law of cooling
7 Study of rate of decay and growth
144
Review Questions
Q1 Find orthogonal trajectories of given curves
a) 2 2
2 21
x y
a b
, being of the parameter
b) (1 cos )r a
c)
21 cos
a
r
d) 2 2 2 0x y gx c , where g is parameter
2 2 24x y a
Q2 A resistance of 100 ohms, an inductance of 0.5 Henry are connected in series with a
battery of 20 volts. Find the current in a circuit as a function of t
Q3 The equation of electromotive force in terms of current I for an electrical circuit
having resistance R and a condenser of capacity C, in series, isi
E Ri dtC
. Find the
current I at any time t, when 0 sinE E wt
Q4 A constant emf E volt is applied to a circuit containing constant resistance R Ω in
series & constant inductance L H. If the initial current is zero show that a current built
up to half its theoretical maximum in log2L
Rsec
Q5 The number N of bacteria in a culture grew at a rate proportional yo N. The value of N
was initially 100 and increased to 332 in one hour. What was the value of n after 11
2
hours?
Q6 Water at temperature 1000C cools 10 minutes to 800C in a room temperature 250C.
Find (i) the temperature of water after 20 minutes, (ii) the time when the temperature
is 400C.
Unit No 3 Unit Title Numerical solutions of ordinary differential
equations of first order and first degree
Planned
Hrs.
08
Lesson schedule
Class No. Details to be covered
1 study of numerical methods to solve first order ordinary differential equations
145
2 Formula of Taylor’s series method and examples
3 Formula of Euler’s method and examples
4 Formula of Euler’s modified method and examples
5 Examples
6 Formula of Runge kutta fourth order method and examples
7 Solutions of simultaneous first order differential equations by Runge kutta method
8 Examples
Review Questions
Q1 Solve using Taylor’s series method, the differential equation
dyx y
dx numerically.
Start from x=1, y=0 and carry to x=1.2 with h=0.1. Compare the final results with the
value of the exact solution
Q2 Using Euler’s method find the approximate value of y when x=1.5 in five steps given
dy y x
dx xy
and y (1)=2
Q3 Use Euler’s modified method to find the value of y satisfying the equation
log( )dy
x ydx
, y(1)=2 for x=1.2 and x=1.4 correct to three decimal by taking h=0.2
Q4 Solve numerically (using Runge Kutta fourth order method) the differential equation
2 2dyx y
dx with the given condition x=1, y=1.5 in the interval (1, 1.2) with h=0.1
Q5 Solve Numerically by RK method ;
dy dzyz x xz y
dx dx given that (0) 1; ( ) 1y z o
for (0.2), ( .2)y z o
Section II
Unit No 4 Unit Title Special Functions Planned
Hrs.
07
Lesson schedule
Class
No.
Details to be covered
146
1 Gamma function and its properties
2 Beta function and its properties
3 Examples on beta function
4 Differentiation under integral sign with constant limits
5 Differentiation under integral sign with parameter limits
6 Error function and its properties
7 Examples on error function
Review Questions
Q1 Prove that Γ(n+1) = nΓn
Q2
Evaluate the following integrals
4
04x
xdx
b)
1
0 1log
x
xdx
c) 0
n axx e dx
d) 24
0
xa dx
Q3 Evaluate the following integrals
a)
1
3 5
0
(1 )x x dx b) /2
20 11 sin
2
d
c)
1
1
(1 ) (1 )m nx x dx
d) 1/47
3
( 3)(7 )x x dx
Q6 Show that
8 6
24
0
(1 )0
(1 )
x xdx
x
Q7 Show that
/2 2 1 2 1
2 2
0
sin cos 1( , )
( sin cos ) 2
m n
m n m nd B m n
a b a b
Q8 Prove that
/2 /2
0 0sin
dsin d
Q9
Prove that
1
3 30
2
3 31
dx
x
Q10
Evaluate
0
1x
axee dx
x
147
Q11
Prove that
1
0
1log
log 1
a bx x adx
x b
; a > 0, b > 0
Q 12 Define error function and verify all properties
Unit No 5 Unit Title Curve Tracing Planned Hrs. 08
Lesson schedule
Class No. Details to be covered
1 Procedure to trace Cartesian curve
2 Tracing of Semi cubical parabola, Cissiod of Diocles, Strophoid, Astroid, Witch of
Agnesi
3 Tracing of Common Catenary, Folium of Descartes
4 Tracing of Cardioid, Pascal’s Limacon, Lemniscate of Bernoulli
5 Tracing of Parabola, Hyperbola, Rose curves
6 Rectification of plane Cartesian form
7 Rectification of plane polar curve
8 Examples
Review Questions
Q1 Trace 2 23ay x a x
Q2 Trace 2 3y a x x
Q3 Trace 2 2 2y a x x a x
Q4 Trace r = a(1+cosѲ)
Q5 Trace 3 2cosr
Q6 Trace sin 2r a
Q7 Find the total length of the curve 3sin3
r a
Q8 Find the length of loop of the curve
2
2 13
xy x
Q9 Find the perimeter of cardioide 1 cosr a and show that the line 2
3
divides
upper half of cardioide into two parts.
148
Unit No 6 Unit Title Multiple Integration and its applications Planned Hrs. 10
Lesson schedule
Class No. Details to be covered
1 Definition of double integration
2 Evaluation of Double Integration
3 Change of order of integration
4 Double integration in polar form
5 Change into polar form
6 Area by double integration
7 Mass of Plane Lamina
8 Center of gravity of Plane Lamina
9 M.I. of Plane Lamina
10 Examples
Review Questions
Q1
Evaluate
2 2
2 2 2
0 0
a ya
a x y dxdy
Q2
Evaluate
1 sin22
0 0
cos
a
r drdr
Q3 Change the order of integration and evaluate
2 2
0
aya
y
xdxdy
x y
Q4
Change to polar co-ordinates and evaluate
24 164
22 2
0
1
16
y
y
dxdyx y
Q5 Find the area enclosed by between the parabolas 2 4 1y x and 2 2 2y x
Q6 Find the mass of the lamina bounded by the curve 2 3y x and the line y x . If the
density at a point varies as the distance of the point from X-axis.
Q7 Find the M.I. of the semi-circle about the line joining one end of the bounding
diameter to the midpoint of the arc.
149
Model Question Paper
Course Title : Engineering Mathematics II Max.
Marks
Duration 3 Hours 100
Instructions:
• All questions are compulsory
• Figures to the right indicates full marks
• Use of non-programmable calculator is allowed
Section-I Marks
1 Attempt any three 15
a Solve 2(sin .cos ) cos .sin tan 0
xx y e dx x y y dy 5
b Solve
2 2( ) 2 1
ydx xdy dx
x y x
5
c Solve x y yxdye e e
dx
5
d Solve 2cos tandy
x y xdx
5
2 Attempt any three 15
a Find orthogonal trajectory for the curve 2 2 cos2r a 5
b A voltage atEe is applied at t=0 to a circuit containing inductance L and
resistance R. Show that the current at any time t is Rt
at LE
e eR aL
5
c According to Newton’s law of cooling, the rate at which a substance
cools in moving air is proportional to the difference between the
temperature of the substance that of the air. If the temperature of the air
is 300C and the substance from 1000C to 700C in 15 minutes, find when
the temperature will be 400C.
5
d Uranium disintegrates at rate proportional to the amount present at any
instant. If M1 and M2 grams of uranium are present at a time T1 and T2
5
150
respectively, show that the half life of uranium is
2 1
1
2
log 2
log
T T
MM
3 Attempt any three 15
a Using Taylor’s series method, Obtain correct upto four decimal places, a
solution of the differential equation 2 2dyx y
dx with y=o when x=0 at
x=0.4
5
b Given that 2dyx y
dx and y=1 at x=0. Find an approximate value of y at
x=0.5 using Euler’s method.
5
c Use Euler’s modified method to solve 2 , (0) 1dy
x y ydx
. Find (0.4)y
taking h=0.2
5
d Use Runge kutta fourth order method to solve
( ) 1, (0) 1 1dy
x y y for xdx
5
e Solve Numerically by RK method ;
dy dzyz x xz y
dx dx given that
(0) 1; ( ) 1y z o for (0.2), ( .2)y z o
5
Section-II Marks
4 Attempt any three 15
a Evaluate
2 2h xe dx
5
b Evaluate 4 tan 2
/2tan sec
0e d
5
c Evaluate 5 2sin cos
0x x x dx
5
d Prove that
2 2
2 2
cos 1log ; , 0
20
x bax bxe e dx a bx a
; 5
5 Attempt any three 15
a Trace 3 3
3y axyx 5
151
b Trace 1
1 cosr
5
c Trace cos4r a 5
d For the curve
2
2 13
xy x
prove that 2 2 24
3s y x , where s being
measured from origin to (x, y).
5
6 Attempt any three 15
a Evaluate
22
2 2
1 2
2
y
y
x y dxdy
5
b Change the order of integration and evaluate
2
2
0
a a x
xa
xy dxdy
5
c Change to polar coordinates and evaluate
2
2 21R
dxdy
x y over one loop
of the lemniscates 2
2 2 2 2x y x y
5
d Find the mass of the lamina of the region included between the curves y
= log x, y = 0 , x = 2, having uniform density.
5
e Find area of the ellipse by using double integration 5
152
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment Title Differential equation of 1st order & 1st degree CO110.1
Assignment No. 2
Assignment Title Applications of differential equation of 1st order & 1st degree CO110.2
Batch I
1. Find the Orthogonal Trajectories of the following curves
a) 2 2 24x y a
b) sinn nr a n
c) 2 2 4 2 0y x xy cx
d) 2 2 2 0x y gx c ; where ‘g’ is parameter
e) 2 3ay x
f) (1 cos )r a
2. A voltage atEe is applied t =0 to a circuit containing inductance L & resistance R. Find current
153
at any time t if initially t=0, I =0.
3. When a switch is closed, the current built up in an electric circuit is given by di
E Ri Ldt
. If
L=640, R=250, E=500 & i=0 when t=0. Show that the current will approach 2 amp when t=∞.
4. A voltage atEe is applied t =0 to a circuit containing inductance L & resistanceR. Show that
any time t the current
Rtat LE
i e eR aL
5. A constant emf E volts is applied to a circuit containing constant resistance R Ω in series &
constant inductance L H. If the initial current is zero show that a current built up to half its
theoretical maximum in log2L
Rsec
6. At the start of an experiment, there are 100 bacteria. If the bacteria follow an exponential growth
pattern with rate k= 0.02, what will be the population after 5 hours? Howlong will it take for the
population to double?
7. A bottle of soda pop at room temperature (720F) is placed in a refrigerator where the temperature
is 440F. After half an hour the soda pop has cooled to 610F.(a) What is the temperature of the
soda pop after another half hour?(b) How long does it take for the soda pop to cool to 500F?
Assignment No. 3
Assignment Title Numerical Solutions of differentiation of 1st order & 1st degree
CO110.3
155
Assignment No. 4
Assignment Title
Numerical Solutions of differentiation of 1st order & 1st degree
CO110.3
157
1) Prove that Γ(n+1) = nΓn
2) Evaluate the following integrals
i)
4
04x
xdx
ii)
1
0 1log
xdx
x
iii)
0
n axx e dx
iv) 24
0
xa dx
3) Evaluate the following integrals
i)
1
3 5
0
(1 )x x dx ii) 1/47
3
( 3)(7 )x x dx
4) Prove that
/2 /2
0 0sin
dsin d
5) Prove that
1
3 30
2
3 31
dx
x
6) Prove that
1
0
1log
log 1
a bx x adx
x b
; a > 0, b > 0
7) Verify the rule of differentiation under integral sign for the integral
2
1
0
tan
ax
dxa
8) Define error function and state and prove any two properties of error function
Assignment No. 5
Assignment Title Curve Tracing and Rectification CO110.5
159
Assignment No. 7
Assignment Title Multiple Integrals CO110.6
A) Change the order of integration and evaluate
B) Change to polar form and evaluate
C) Evaluate the double integral
160
Assignment No. 8
Assignment Title Applications of Multiple Integrations CO110.6
A) Area by Double integral
i. Mass of Lamina
C) Moment of Inertia
List of Tutorials
1. Examples on Differential equations
2. Examples on linear and reducible to linear Differential equations
3. Examples on applications of Differential equations
4. Examples on Eulers method, Modified Euler,s Method, and Taylor’s series method to solve
differential equations of first order and first degree
5. Examples on Runge kutta method to solve differential equations of first order and first degree
and Runge kutta 4th order method to solve simultaneous differential equations of first order
and first degree
6. Examples on Beta, Gamma function and DUIS
161
7. Examples on tracing of curves and rectification
8. Examples on Multiple Integration
List of open ended experiments/assignments
Assignment
1. Solve above given assignments by open source software
2. Trace given curves by using graph calculator
166
Course Name WORKSHOP PRACTICE-I Course Code FE112
Prepared by Y.B.Kumbhar Date 08/11/2017
Prerequisites Basic knowledge of manufacturing processes.
Course Outcomes
At the end of the course the students should be able to:
CO 112.1 Explain2the use of safety equipments and precautions in workshop
CO 112.2 Use3 the measurement tools for processing of work piece
CO 112.3 Explain2 smithy tools and operations
CO 112.4 Explain2 fitting tools and operations
CO 112.5 Perform5 smithy operations in workshop
CO 112.6 Perform5 cutting operation and produce assembly of two work pieces
Mapping of COs with POs
POs
Cos a b C d e f G h i J k l
CO 112.1 1 1
CO 112.2 1
CO 112.3 1
CO 112.4 1 1
CO 112.5 1 1
CO 112.6 1 1
167
Course Contents
Unit
No.
Title No. of
Hours
1. Safety:
Concept of accidents causes of accidents, safety precautions while working
in shop, safety equipments and their use.
3
2. Measuring Instruments:
Brief introduction to instruments like – Steel rule, Calipers, Vernier
Caliper, Micrometer, Dial Gauge, Vernier height Gauge etc. Least counts,
common errors and care while using them, Use of marking gauge,
‘V’block and surface plate.
3
3. Smithy
Introduction to smithy operations like- bending, forming, upsetting,
drawing. Smithy tools-hammer, hot & cold chisel flatters, tongs, anvil etc.
4
4 Fitting:
various tools like- files, drills, taps, dies. Fitting operations.
4
Reference Books:
Sr. No. Title of Book Author Publisher Edition
1. A Course in Workshop
Technology, Vol – I
B. S.
Raghuvanshi
DhanapatRai and Sons 2nd Edition
2. Elements of Workshop
Technology, Vol – I
HajaraChaud
hari
Media Promoters 1st Edition
3. Workshop Technology,
Vol – I
Gupta and
Kaushik
New Heights 1st Edition
4. Workshop Technology,
Vol – I
Chapman The English Language
Book Society
6th Edition
5. Workshop Technology,
Vol.-I
H.S. Bawa TMH Publications, New
Delhi
1st Edition
168
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks - 50 - 50
Contact Hours/ week 1 2 -- 3
Unit wise Lesson Plan
Section I
Unit
No
1 Unit Title Safety Planned Hrs. 03
Lesson schedule
Class
No.
Details to be covered
1 Safety - Concept of accidents, causes of accidents
2 Safety precautions while working in shop.
3 Safety equipments and their use.
Review Questions
Q1 ExplainConcept of accidents CO 112.1
Q2 Explain causes of accidents.
Q3 Explain Safety precautions while working in shop
Q4 Explain Safety equipments and their use. CO 112.2
Unit
No
2 Unit Title Measuring Instruments Planned Hrs. 03
Lesson schedule
Class
No.
Details to be covered
4 Measuring Instruments - Brief introduction to instruments like – Steel rule,
Calipers, Vernier Caliper, Micrometer, Dial Gauge, Vernier height Gauge etc.
5 Least counts, common errors and care while using them
169
6 Use of marking gauge, ‘V’block and surface plate.
Review Questions
Q1 Explain different types of measuring instruments. CO112.3
Q2 What is least count explain it with three examples. CO112.3,CO112.4
Q3 What are common errors while taking measurement
using different measuring instruments like – Steel rule,
Calipers, Vernier Caliper, Micrometer, Dial Gauge,
Vernier height Gauge
Unit
No
3 Unit Title Smithy Planned Hrs. 04
Lesson schedule
Class
No.
Details to be covered
7 Smithy - Introduction to smithy operations like- bending, forming, upsetting,
drawing.
8 Smithy operations
9 Smithy tools-hammer, hot & cold chisel flatters, tongs, anvil
10 Smithy tools
Review Questions
Q1 What are different types of smithy operations? CO112.4
Q2 What are different types of Smithy tools?
Unit
No
4 Unit Title Fitting Planned Hrs. 04
Lesson schedule
Class
No.
Details to be covered
11 Fitting - Study of various tools like- files, drills, taps, dies. Fitting operations.
170
12 Study of various tools like- files, drills
13 Study of various tools like- taps, dies
14 Fitting operations.
Review Questions
Q1 Explain various tools like- files, drills, taps, dies. CO112.5
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Safety CO112.1,
CO112.2
Batch I
Batch II
Batch III
Q1 What is concept of accidents? Explain causes of accidents.
Q2 What are safety precautions while working in shop?
Q3 Explain Safety equipments and their use.
Assignment No. 2
Assignment
Title
Measuring instruments CO112.3
Batch I
Batch II
Batch III
Q1 Explain different types of measuring instruments.
Q2 Write about various types of calipers.
Q3 Write difference between:
1.Direct measuring & indirect measuring instruments
2. Absolute and comparative measuring instruments.
Q4 What is least count explain it with three examples.
Q5 What are common errors while taking measurement using following
measuring instruments –
1.Steel rule2.Calipers 3.Vernier Caliper4.Micrometer, 5.Dial Gauge,
6.Vernier height Gauge
Assignment No. 3
Assignment
Title Smithy CO112.4,CO112.5
Batch I Q1 What are different types of smithy operations?
171
Batch II
Batch III
Q2 What are different types of Smithy tools?
Q3 Explain various tools like- files, drills, taps, die.
Assignment No. 4
Assignment
Title
fitting CO112.4,CO112.5
Batch I
Batch II
Batch III
Q1 Explain different types of fitting operations.
Q2 What are different types of Smithy tools?
Course Code WORKSHOP PRACTICE-II Course FE113
172
Prepared by Kumbhar Y.B. Date 08/11/2017
Prerequisites Basic knowledge of manufacturing processes
Course Outcomes
At the end of the course the students should be able to:
CO 113.1 Describe2 types of welding, tools, equipments and joints
CO 113.2 Describe2 types of carpentry, tools, equipments and joints
CO 113.3 Describe2 sheet metal work, tools, equipments and joints
CO 113.4 Explain2 the effects of air pollution due to automobile
CO 113.5 Perform5 a job on arc welding
CO 113.6 Produce3 a hard product with joints
CO 113.7 Provide5 a product of sheet metal
Mapping of COs with POs
POs
Cos
a b c d E f G h i j k L
CO 113.1 1
CO 113.2 1
CO 113.3 1
CO 113.4 1 1
CO 113.5 1
CO 113.6 1 1 1
CO 113.7 1
Course Contents
173
Unit No. Title No. of
Hours
1.
2.
3.
4.
Welding - Types of welding – gas welding, arc welding, resistance
welding, Welding equipment’s, welding of various metals, electrode
classification and coding, welding joints.
Carpentry- Introduction, Classifications of wood, common varieties
of Indian timber, carpentry tools like- Marking tools, cutting tools,
planes, striking tools, holding tools. Carpentry operations- marking,
sawing, chiseling, grooving etc. carpentry joints.
Sheet metal work -Specifications of metal sheets, working tools,
sheet metal operations like-cutting, bending, folding, punching,
revetting and joining by brazing and soldering.
Air pollution- Air pollution due to automobiles, causes, PUC
testing.
(4)
(4)
(4)
(2)
Reference Books:
Sr. No. Title of Book Author Publisher Edition
1. A Course in Workshop
Technology, Vol – I
B. S. Raghuvanshi Dhanapat Rai and
Sons
2nd Edition
2. Elements of Workshop
Technology, Vol – I
Hajara Chaudhari Media Promoters 1st Edition
3. Workshop Technology,
Vol – I
Gupta and Kaushik New Heights 1st Edition
4. Workshop Technology,
Vol – I
Chapman The English
Language Book
Society
6th Edition
5. Workshop Technology,
Vol.-I
H.S. Bawa TMH Publications,
New Delhi
1st Edition
6. I.C. Engines Mathur& Sharma Dhanapat Rai and
Sons
2nd Edition
174
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks - 50 - 50
Contact Hours/ week 1 2 -- 3
Unit wise Lesson Plan
Section I
Unit No 1 Unit Title Welding Planned Hrs. 04
Lesson schedule
Class No. Details to be covered
1 Types of welding – gas welding, arc welding, resistance welding
2 Welding equipments
3 Welding of various metals
4 Electrode classification and coding, welding joints.
Review Questions
Q1 ExplainTypes of welding CO 113.1
Q2 Explain Welding equipments.
Q4 Explain Electrode classification and coding, welding joints
Unit No 2 Unit Title Carpentry Planned Hrs. 04
Lesson schedule
Class No. Details to be covered
5 Introduction, Classifications of wood, common varieties of Indian timber
6 Carpentry toolslike- Marking tools, cutting tools, planes, striking tools, holding
tools
7 Carpentry operations- marking, sawing, chiseling, grooving etc
8 carpentry joints
175
Review Questions
Q1 Explain different types of Carpentry tools CO113.2
Q2 Explain Classifications of wood, common varieties of Indian
timber
Q3 Explain Carpentry operations
Unit No 3 Unit Title Sheet metal work Planned Hrs. 04
Lesson schedule
Class No. Details to be covered
9 Specifications of metal sheets
10 working tools,
11 sheet metal operations like-cutting, bending, folding, punching
12 Riveting and joining by brazing and soldering
Review Questions
Q1 What are different types of sheet metal operations? CO113.3
Q2 What are different types of sheet metal tools?
Unit No 4 Unit Title Air pollution Planned Hrs. 02
Lesson schedule
Class No. Details to be covered
13 Air pollution due to automobiles
14 Causes, PUC testing.
Review Questions
Q1 Explain Air pollution due to automobiles CO113.4
Assignments
176
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Welding CO113.1
Batch I
Batch II
Batch III
Q1 ExplainTypes of welding.
Q2 Explain Welding equipments?
Q3 Explain electrode classification and coding, welding joints
Assignment No. 2
Assignment
Title
Measuring instruments CO113.2
Batch I
Batch II
Batch III
Q1 Explain different types of Carpentry tools
Q2 Explain Classifications of wood, common varieties of Indian timber
Q3 Explain Carpentry operations
Assignment No. 3
Assignment
Title
Sheet metal work CO113.3
Batch I
Batch II
Batch III
Q1 What are different types of sheet metal operations?
Q2 What are different types of sheet metal tools?
Q3 How we specify metal sheets?
Assignment No. 4
Assignment
Title Air pollution
CO113.4
Batch I
Batch II
Batch III
Q1 What is Air pollution due to automobiles?
Q2 What are different causes of air pollution?
178
Course Code Professional Communication - II Course code FE111
Prepared by Mr. B.B.Pujari, Dr. U. P. Jadhav, Mr. I. A.
Kamble
Date 3/11/2017
Prerequisites An ability to construct grammatically correct and meaningful sentences.
Knowing the difference between verbal and non-verbal communication and
applying different communication techniques.
Course Outcomes
At the end of the course the students would be able to:
CO 111.1 Relate2 importance of advanced technical writing with different methods
of data collection.
Create6 efficient technical reports.
CO 111.2 Adapt6 positive attitude to enhance leadership skills.
Apply3 decision making techniques to solve problems.
Explain2 stress, its consequences and handling stress with different
techniques.
Utilize3 time management techniques effectively.
Distinguish4 between intelligence and emotional intelligence and using it
efficiently.
CO 111.3 Develop6 effective presentation on a given topic using various presentation
techniques.
CO 111.4 Compose6 job application letter along with resume for various posts.
Identify3 different interview techniques.
Make3 use of various strategies and techniques for group discussion.
Mapping of COs with POs
POs
Cos
a b C d E F g h i j k l
CO1 3 3
179
CO2 3
CO3 2 3 2
CO4 2 3 2
Course Contents
Unit No. Title No. of
Hours
1. Developing writing skills 02
2. Behavioral skills 03
3. Presentation skills 03
4. Career Skills 02
Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1 Handbook for Technical
Writing
David A.
McMurrey, Joanne
Buckley
Cengage 1
2 Communication Skills
Handbook: How to succeed in
written and oral
communication
Jane Summers,
Brette Smith
Wiley India
Pvt.Ltd
1 and 3
3 Soft Skills for Managers T. Kalyana
Chakravarthi, T.
Latha
Chakravarthi,
Biztantra 2 and 4
4 Soft Skills for every one Jeff Butterfield Cengage 2, 3 and
4
5 Behavioral Science Abha Singh, Wiley India
Pvt.Ltd
2
6 An Introduction to Professional Bikram K. Das, Cambridge 2,4
180
English and Soft Skills Kalyan Samantray University
Press New Delhi.
7 Speaking Accurately K.C. Nambiar Cambridge
University Press
New Delhi
3
8 Speaking Effectively Jeremy Comfort,
Pamela Rogerson
Cambridge
University Press
New Delhi.
3
9 Cambridge English for Job
Hunting
Colm Downes Cambridge
University Press
New Delhi.
4
10 Body Language Allen Pease 3,4
Evaluation scheme
Examination Scheme Theory Term Work POE Total
Max. Marks - 25 - 25
Contact Hours/ week 1 2 -- 3
Unit wise Lesson Plan
Section I
Unit No
1
Unit Title Developing writing skills Planned
Hrs.
03
Lesson schedule
Class
No.
Details to be covered
1 Importance of advanced technical writing
2 Techniques of report writing, Data collection methods and utilization
3 Report Writing – survey , inspection and investigation
181
Unit No
2
Unit Title Behavioral skills Planned
Hrs.
04
Lesson schedule
Class
No.
Details to be covered
1 Understanding Self and Attitude Building/ Developing Positive attitude
2 Decision making skills and Leadership skills
3 problem solving skills with a case study
4 Emotional intelligent, stress and time management
Unit No 3 Unit Title Presentation skills Planned Hrs. 03
Lesson schedule
Class No. Details to be covered
1 the importance and techniques of presentation
2 professional presentation
3 public speaking
Unit No
4
Unit Title Career skills Planned
Hrs.
04
Lesson schedule
Class
No.
Details to be covered
1 corporate manners and etiquettes
2 planning and managing career
3 interview technique and skills
4 group discussion and debate
Assignments
List of experiments/assignments to meet the requirements of the syllabus given by
182
university:
1. Group Discussion (lab session/class room activity)
2. Mock Interview
3. Report Writing (lab session/class room activity)
4. Paragraph writing on current technical writing
5. Presentation on current affairs
6. Developing Professional Telephonic skills
7. Exercise of Application writing and Resume writing
8. Practice of Case Study
9. Team building activities
10. Report writing ( 3 types)
11. Introduction and use of modern communication techniques
12. Computer aided presentation of a project report (PPT)
Assignment No. 1
Assignment
Title
Developing Professional Telephonic Skills CO
111.2,4
Batch I, II &
III
Discussion:
• Structuring the message
• Greeting, introduction
• Putting someone on hold, transferring the call, taking message and
leaving message
• Answering machine, handling wrong numbers
• Telephone etiquettes, manners, tone, pause
Activity: Role playing in the following situations:
1. Booking hotel using telephone.
2. Making an enquire using telephone
3. Seeking an appointment of a CEO of a company.
Assignment:
4. Booking hotel using telephone.
5. Making an enquire using telephone
183
6. Seeking an appointment of CEO of a company.
Assignment No. 2
Assignment
Title
Group discussion CO 111.4
Batch I, II &
III
Discussion:
• Dynamics of group discussion,
• Intervention,
• Summarizing,
• Modulation of voice,
• Body language,
• Relevance, fluency and coherence.
Topics:
• 1. Factual Topics
• 2. Controversial Topics
• 3. Abstract Topics
Activity:
Group Discussion on different topics
Assignments:
1. Written Script of a Group Discussion
Assignment No. 3
Assignment
Title
Job Application letter and resume CO 111.4
Batch I, II &
III
Discussion:
• Processes of recruiting candidates for a job
• Elements of a formal letter
• Body language of a business letter
• Parts of job application letter and their functions-Introduction,
Body, Conclusion
• Parts of resume, Types of resume- Chronological Resume,
184
Functional Resume, Combination Resume,
• Structure and presentation, planning, defining the career
objective.
• Projecting ones strengths and skills-sets,
• Summary formats and styles letter-writing.
Activity:
1) Writing job application letters for different posts
2) Drafting effective resume
3) Preparing parts of resume in group
Assignments:
• Applying for different posts
• Responding to the job advertisements published in
newspapers/internet
• Writing resume
Assignment No. 4
Assignment
Title
Team Building Activity CO 111.2
Batch I, II &
III
• Team and group
• Teamwork, Definition and meaning
• An individual’s role in a team
• Leadership
• Communication in a team
• Enhancing social relations and defining team members’ roles
• To improve performance and Team competencies
Activity:
• Teambuilding through various activities
Assignment:
• Solving problem in group
Assignment No. 5
Assignment
Title
Presentation on current affairs CO 111.3
185
Batch I, II &
III
Discussion:
• Presentation and speeches
• Structure of a presentation-Introduction-Body-Closing
• Sources and methods of data collection
• Handling stage fear-strategies
Activity:
• Giving presentations on different topics such as:
1. Make in India
2. Digital India
3. Swachh Bharat Abhiyan
4. Stealth Technology
Assignments:
1. Preparing a written script of a presentation to be given in the
practice sessions
Assignment No. 6
Assignment
Title
Paragraph Writing CO 111.1
Batch I, II &
III
Discussion:
• What is a paragraph?
• Structure of a paragraph-Topic sentence, Supporting sentences,
Conclusion
• Types of paragraph: narrative, descriptive, and expository
• Characteristics of a good technical paragraph- unity, coherence etc.
Activity:
• Writing paragraphs on different topics in group by adding a line by a
student
Assignment:
Paragraph writing on topics like:
• Social networking cites
• Washing Machine
186
• Computer
Assignment No. 7
Assignment
Title
Report Writing CO 111.1
Batch I, II &
III
Discussion:
• What is report?
• Importance of report in professional set up
• Parts of report
• Types of report- Feasibility Report, Progress Report,
Evaluation Report
• Structure of report:
(i) Title page
(ii) A table of contents
(iii) A synopsis
(iv) The body of the report
(a) Introduction
(b) Investigation methods adopted
(c) Findings from investigation
(d) Conclusions drawn
(e) Recommendations
(v) Acknowledgements
(vi) Appendixes
Activity:
• Writing Different types of reports
Assignments:
• Writing Survey Report
• Writing Inspection Report
Assignment No. 8
Assignment
Title
Mock Interview CO 111.3,4
187
Batch I, II &
III
Aim: To give students experience of appearing and succeeding in interviews
Objectives:
1. To acquaint students with the process of interview
2. Enabling students to appear confidently before the interview panel
Discussion:
• Concept and process,
• Pre-interview
• Planning, opening, strategies, answering strategies,
• Interview through telephone and video-conferencing.
Activity:
• Mock Interviews-
• Face-to –face, Telephonic, Video Conferencing
Assignments:
• Writing script of mock interview
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