Post on 21-Jul-2015
XII Science 1
Tahun Pelajaran 2013/2014
SMAN 1 Cibinong
Jl. Mayor Oking Jayaatmaja no.73
www.sman1-cbi.sch.id
@SCORNER73 @sman1cbn
Explanation Text
Content 1. Speech Production
2. Aurora
3. Rainbows
4. Urine Formation
5. Tsunami
6. Tornado
7. Water Cycle
8. Lightning
Created By :
Aidha Savitri
Anita Indriyani
Annisa Indriyani
Dimas Haryo T. Katarina Ariesta A.
Eka Annisa Desiyana
XII IPA 1
Speech (v) : berbicara Adventagous (adj) : menguntungkan Lungs (n) : paru-paru Trachea (n) : batang tenggorokan Larynx (n) : panggkal tenggorokan Terminate (v) : mengakhiri Velum(n) : bagian langit-langit Nostrils (n) : lubang hidung Expelled (v) : mengeluarkan Vibrate (n) : getar Airflow(np) : aliran udara Articulator (n) : artikulasi muscles (n) : otot Tensed (adj) : menegang
Relaxed (adv) : rileks
Constriction(n) : sesak
Thereby(v) : dengan demikian
Turbulent(adj) : bergolak
Closure(n) : penutupan
Pressure(n) : tekanan
Albruptly(v) :Secara Kasar
Brief(n) :laporan
Nasal cavity(n) : rongga hidung
Oral cavity(n) : rongga mulut
http://www.google.com
http://www.wikipedia.co.id
Dictionary
EXPLANATION TEXT
WHY AURORA’HAPPEN
Annissa Ayu Anjani Faris Raihansyah Lungit Fatmawati
Rizky Alfarabih Sanyori Larnardi
Sifa Silfia
Aurora is an electro-static phenomenon, characterised by a bright glow and caused by the collision of charged
particles in the magnetosphere with atoms in the Earth’s upper atmosphere.
Ultimately, the source lies in the solar wind, a fast-moving stream of particles
constantly flowing from the Sun that carries the Sun’s magnetic field out into
space. The solar wind, typically moving at 250 miles (400 kilometers) per second, flows past Earth’s magnetic field and molds it into an elongated bubble or
cavity, compressing its sunward side and stretching its night side far beyond the
Moon’s orbit.
Under certain conditions, the solar wind’s magnetic field can merge with Earth’s, creating electrical currents that drive protons and electrons into the polar
atmosphere. Powerful events occurring on the Sun can drive enormous changes in the solar wind, increasing both its speed and density and enhancing its effect on Earth.
An aurora is usually observed in the night sky, particularly in the polar zone. For this latter reason, some scientists call it a “polar aurora”
(aurora polaris). Aurora Coloured light in the night sky
near the Earth’s magnetic poles, called aurora borealis (northern
lights) in the northern hemisphere and aurora australis (southern lights) in
the southern hemisphere.
Northern lights is the name of a light phenomenon often seen in the northern regions. The lights have been around since Earth formed an atmosphere The scientific name for the phenomenon is “Aurora Borealis”, aurora for short.
The southern lights or aurora australis, most commonly seen in southern New Zealand. It shows a typical red and green aurora, the nearly vertical rays tracing the earth’s magnetic field lines.
MINI VOCABULARY
• (n) Phenomenon : peristiwa/fenomena
• (n) Collision : tabrakan/benturan
• ()Ultimately : akhirnya
• (v) Lies : terletak
• (v) lie : berbohong
• (n) Cavity : ruang hampa
• (adv) Sunward : menuju ke matahari
• (v) Molds : membentuk
• (adv) Elongated : memperpanjang / memanjang / mengulur
• (adv) Merge : menggabungkan
• (adj) Enormous : besar sekali / sangat
• (n) Density : ketebalan • (v) Enhancing :
meningkatkan • (n) Poles : kutub • (n) Hemisphere : belahan
bumi
• Google.com
• Wikipedia.org
• Dictionary
• Look a head
Resources
WHAT IS A RAINBOW?
A rainbow is an optical and
meteorological phenomenon that is
caused by both reflection and
refraction of light in water droplets
in the Earth's atmosphere, resulting
in a spectrum of light appearing in
the sky.
OVERVIEW A rainbow spans a continuous spectrum of colours. Any distinct bands perceived are an artifact of human colour vision, and no banding of any type is seen in a black-and-white photo of a rainbow, only a smooth gradation of intensity to a maximum, then fading towards the other side. For colours seen by the human eye, the most commonly cited and remembered sequence is Newton's sevenfold red, orange, yellow, green, blue, indigo and violet.
Rainbows can be caused by many forms of airborne water. These include not only rain, but also mist, spray, and airborne dew.
WHEN CAN WE SEE RAINBOW? Rainbows can be observed whenever there are water drops in the air and sunlight shining from behind at a low altitude angle. The most spectacular rainbow displays happen when half the sky is still dark with raining clouds and the observer is at a spot with clear sky in the direction of the sun. The result is a luminous rainbow that contrasts with the darkened background.
HOW DOES IT LOOKS? The colour pattern of a
rainbow is different from
a spectrum, and the
colours are less
saturated. There is
spectral smearing in a
rainbow owing to the
fact that for any
particular wavelength,
there is a distribution of
exit angles, rather than a
single unvarying angle.
HOW RAINBOWS WERE FORMED?
ARE YOU CURIOUS ABOUT THE PROCESS?
HERE IT IS...
CHECK OUT THE VARIATIONS
Multiple Rainbow
Twinned Rainbow
Tertiary and
quaternary
rainbow
Higher-order
rainbow
Supernumerary
rainbow
Reflected rainbow,
reflection rainbow
Full circle rainbow
Monochrome
Rainbow
Rainbows under
moonlight
Fogbow
Circumhorizontal
arc
Rainbows on Titan
FATHERS OF RAINBOW.. • The classical Greek scholar Aristotle (384–322 BC)
was first to devote serious attention to the rainbow.
• In the Naturales Quaestiones (ca. 65 AD), the Roman
philosopher Seneca the Younger devotes a whole book
to rainbows, heaping up a number of observations and
hypotheses.
• According to Hüseyin Gazi Topdemir, the Persian
physicist and polymath Ibn al-Haytham (Alhazen;
965–1039), attempted to provide a scientific
explanation for the rainbow phenomenon.
LOTS OF FATHERS, RIGHT?
• In Song Dynasty China (960–1279), a polymathic scholar-
official named Shen Kuo (1031–1095) hypothesized that
rainbows were formed by a phenomenon of sunlight
encountering droplets of rain in the air.
• According to Nader El-Bizri, the Persian astronomer, Qutb
al-Din al-Shirazi (1236–1311), gave a fairly accurate
explanation for the rainbow phenomenon.
• Theodoric of Freiberg is known to have given an accurate
theoretical explanation of both the primary and secondary
rainbows in 1307.
• Descartes' 1637 treatise, Discourse on Method, further
advanced this explanation.
• Modern physical descriptions of the rainbow are based on
Mie scattering, work published by Gustav Mie in 1908.
RAINBOW IN CULTURE Rainbows form a significant part of human culture. They occur frequently in mythology, and have been used in the arts. Rainbow flags have been used as a symbol of hope or social change for centuries, featuring as a symbol of the Cooperative movement in the German Peasants' War in the 16th century, as a symbol of peace in Italy, and as a symbol of gay pride and LGBT social movements since the 1970s.
RAINBOW IN MYTHOLOGY • In Greco-Roman mythology, the rainbow was considered to be a path
made by a messenger (Iris) between Earth and Heaven.
• In Chinese mythology, the rainbow was a slit in the sky sealed by
goddess Nüwa using stones of five different colours.
• In Hindu religion, the rainbow is called Indradhanush, meaning "the bow
of Indra, the god of lightning, thunder and rain".
• In Armenian mythology the rainbow is a belt of Tir, a Sun god.
• In Norse Mythology, a rainbow called the Bifröst Bridge connects the
realms of Ásgard and Midgard, homes of the gods and humans,
respectively.
• In New Age and Hindu philosophy, the seven colours of the rainbow
represent the seven chakras, from the first chakra (red) to the
seventh chakra (violet).
CLOSING
• THE CONCLUSION FROM THIS EXPLANATION IS ….?
RAINBOW IS A CIRCLE THAT HAS A MIX OF COLORS. HOWEVER, THE
AVERAGE OBSERVER ONLY SEES APPROXIMATELY THE UPPER HALF OF
THE ARC.
RAINBOW WAS FORMED BY THE REFRACTION OF SUNLIGHT ON
RAINDROPS AND PRODUCE SOME MIX OF COLORS.
RED ORANGE YELLOW GREEN BLUE INDIGO VIOLET
TODAY’S VOCABULARIES • REFRACTION (N) : PEMBIASAN
• PHENOMENON (N) : PERWUJUDAN, KEJADIAN, GEJALA
• DROPLETS () : RINTIK
• SPECTRUM (N) : SPEKTRUM
• SPANS (N) : MASA, JANGKA, WAKTU
• DISTINCT (ADJ) : TERANG, JELAS, NYATA
• PERCEIVED (ADV) : MERASA
• SEVENFOLD (ADJ) : TUJUH KALI
• AIRBORNE (ADJ) : ADA DI UDARA, TERBANG
• MIST () : BERKABUT
• DEW (N) : EMBUN
• ALTITUDE ANGLE (N) : KETINGGIAN SUDUT
• LUMINOUS (ADJ) : BERCAHAYA, BERKILAU
• OBSERVER (N) : PENINJAU, PENGAMAT
• PATTERN (N) : POLA, SUSUNAN GAMBAR
DAN WARNA
• SATURATED (ADJ) : JENUH
• SMEARING () : PELUMURAN
• OWING () : DISEBABKAN OLEH
• WAVELENGTH () : PANJANG GELOMBANG
• UNVARYING (ADJ) : TIDAK BERUBAH
• SUPERNUMERARY (ADJ) : MELEWATI JUMLAH STANDAR
• FOGBOW () : LENGKUNGAN KABUT
• SCHOLAR (N) : SARJANA, PELAJAR
• DEVOTE (ADV) : MENCURAHKAN, MENYEDIAKAN
• HEAPING (ADV) : MENUMPUK
• POLYMATH (N) : ORANG YANG AHLI DALAM
BERBAGAI BIDANG
• ATTEMPTED (ADV) : MENCOBA
• ENCOUNTERING (ADV) : TEMU
• TREATISE (N) : KARYA TULIS
• DISCOURSE (N) : PERCAKAPAN
• SCATTERING (ADV) : MENYEBAR
• OCCUR (ADV) : TERJADI
• FREQUENTLY () : SERING KALI
• PEASANTS (N) : PETANI
• PRIDE (N) : KEBANGGAAN
• SLIT (N) : CELAH
• SEALED () : TERTUTUP
• GODDESS (N) : DEWI
• REALMS (N) : DUNIA, ALAM, KERAJAAN
• RESPECTIVELY () : MASING-MASING, BERTURUT-TURUT
REFERENCES Look Ahead 3
Developing English Competencies For Grade
XII
SPM (Seri Pendalaman Materi) Bahasa
Inggris
Dictionary
http://en.wikipedia.org/wiki/Rainbow
How Does The Process Of Urine Formation? Adellia Sallwa Baqarizky
Febrian Reynaldi
Khansa Zera Putritama
Oktavia Rianti
Sekar Arum Sari
XII IPA 1
General Statement
A Sequenced Explanation
Closing
As a device of excretion, the kidney has a role in the process of urine formation. Urine is a liquid that contains substances which are not used by the body and then it’ll be excreted through the urethra. The process of formation of urine occurs through the three stages, namely filtration, reabsorption, and augmentation.
Before that, the blood carries remains of metabolism, protein will get into the kidney through the bloodstream and then it’ll come into the glomerular.
BACK TO...
In the glomerular, the substances of the blood will be refined. The substances that can pass the glomerular filter are substances that have small molecule, such as water, salts, ammonia, urea, and sugar. Then, they called filtranglomerulus. Filtranglomerulus get into the Bowman's capsule and it’ll be accommodated. Then it will be continued to the proximal tubule.
In the proximal tubule, reabsorption of substances (that are still required) will occur, namely glucose, ammonia, salt, and sugar. And in the Henle’s curve, substances that are reabsorpted, such as water, K, Fe, and Na. While the other substances that are not absorbed will become the primary urine.
The primary urine get into the distal tubule and will happen augmentation, the addition of substances that are not used to the primary urine to become the secondary urine. The secondary urine is the real urine.
Secondary urine is accommodated in the colecta tubule, then it’ll be continued to the ureter and it’s reaccommodated in the bag before it’s excreted from the body through the urethra.
PICTURE
BACK TO...
The process of urine formation occurs through three steps, namely filtration, reabsorption, and augmentation. The final result of it is the secondary urine that contains substances which are not used by human body.
1. Device (N) : Alat
2. Excretion (N) : Pengeluaran
3. Excrete-Excreted-Excreted (V) : Mengeluarkan
4. Kidney (N) : Ginjal
5. Liquid (N) : Cairan
6. Contain-Contained-Contained (V) : Mengandung
7. Substance(s) (N) : Zat
8. Urine (N) : Air Seni/Kencing
9. Urethra (N) : Saluran Kencing
10. Formation (N) : Pembentukan
11. Blood (N) : Darah
13. Remain (N) : Sisa 14. Carry-Carried-Carried (V) : Membawa 15. Bloodstream (N) : Pembuluh Darah 16. Metabolism (N) : Metabolisme 17. Use-Used-Used (V) : Menggunakan 18. Glomerular (N) : Glomerulus 19. Occur-Occurred-Occurred (V) : Terjadi 20. Refine-Refined-Refined (V) : Menyaring 21. Pass-Passed-Passed (V) : Melewati 22. Filter (N) : Saringan 23. Molecule (N) : Molekul 24. Bowman’s Capsule (N) : Kapsula Bowman 25. Proximal Tubule (N) : Tubulus Proksimal 26. Glucose (N) : Glukosa 27. Ammonia (N) : Amonia
28. Distal Tubule (N) : Tubulus Distal
29. Colecta Tubule (N) : Tubulus Kolekta
30. Require-Required-Required (V) : Memerlukan
31. Henle’s Curve (N) : Lengkung Henle
32. Absorb-Absorbed-Absorbed (V) : Menyerap
33. Primary Urine (N) : Urin Primer
34. Secondary Urine (N) : Urin Sekunder
35. Addition (N) : Penambahan
36. Real (N) : Nyata/Sesungguhnya
37. Bag (N) : Kantung Kemih
38. Accommodate-Accommodated- : Menampung
Accommodated (V)
• http://urine-formation-process-di.html
• An English-Indonesian Dictionary by John M. Echols and Hassan Shadily.
• Look Ahead Book for Senior High School Year XII Science or Social Program.
Anggara Dirga P
Devinta Wardhani
Harlan Topa
Meutia Ramadhani S
Nadya Lailyshofa
BANDA ACEH, INDONESIA: June 23, 2004
A satellite image of the waterfront area of Aceh
province's capital city before the tsunami.
BANDA ACEH, INDONESIA: December 28, 2004
An image taken after the tsunami shows destroyed
housing and the shoreline nearly wiped out.
Tsunamis, on the other hand, can be caused by a few different means:
earthquake
a large-scale undersea landslide
a submarine volcanic eruption
a large meteor or asteroid impact at sea
How Earthquakes Cause Tsunamis The illustration below shows a subduction earthquake
(one where a denser plates shifts below its neighboring plate, at left). Energy is transferred and the displaced water forms a wave. As the wave travels and enters shallower water in the coastal area, it begins to increase in amplitude.
TSUNAMI - water wave generated by earthquake
NY Times
How Landslides Cause Tsunamis
Landslides are similar to volcanoes that avalanche into the sea. They occur in the water and often are triggered by earthquakes. There is an instance in 1958 where a tsunami was caused by rockfall in Lituya Bay, Alaska. In this instance, a gigantic boulder was loosed by an earthquake and fell into the bay causing a tsunami that went out to sea.
How Volcanic eruptions Cause Tsunamis
There are two different ways that volcanoes can cause seismic
waves. One possibility is for a land-based volcano to break down and collapse, forcing large amounts of ash and debris into the water. This sudden change and displacement of the water column transfers to kinetic energy and results in waves
PLATE TECTONICS IS DESTRUCTIVE TO HUMAN
SOCIETY
Mt Saint Helens 1980 eruption
earthquake
How The Tsunami may effect us
Tsunamis can cause as follows :
1. They can destroy lives/drowned loved ones.
2. Wash away properties.
3. Wash away and drowned pets.
4. The sound will make you scared and after it happens you might not be able to sleep well because you might hear the sound of a tsunami at night.
5. You won’t have anything to live like: Food, clothes, shelter, beds and blankets.
Closing
The term tsunami has its origins in the Japanese language; an English equivalent is "seismic sea waves." Tsunamis are often incorrectly interchanged with the term" tidal waves," which refer to high waves of water caused by changes in the flow and surge of the ocean. Tsunamis, on the other hand, can be caused by a few different means. And than tsunami also have many effect for us.
Today Vocabularies • Spread (N) : Menyebar
• Harbor Wave (n) :Gelombang di Pelabuhan
• Resemble () : Menyerupai
• Force (N) : Kekuatan
• Amounts (N) : Jumlah
• Ash (N) : Abu
• Debris (N) : Reruntuhan/Puing
• Avalanche (N) : Batu Longsor
References : Look A-Head
Google.com
Wikipedia.com
How does the Tornado Occur?
Tornado is the most damaging storm. In the Sumatra region is called "Wind Bohorok" and there are still other designations. Tornadoes often occur in the afternoon or evening on the season of transition. Tornado is air column which rotate very fast and form relation between cumulonimbus cloud. Tornado usually has wind velocity between 177 km/hours or more with reach average 75 meters and attack several kilometers before disappearing. Characteristics of a tornado is coming in the daytime view the white clouds that towered like cauliflower, then develop into dark clouds with cold air blowing, and the trees are begun to shake by the wind to the left and right, not long before the faster winds and heavy rain followed by and sometimes accompanied by hail.
Before tornado happens, it has several signal. First, the sky seems dark. Then happen ice rain around the area, usually 20-25 minutes. After that, the situation will calm, but the sky become darker. Fourth, cloud moving around the area. Fifth, the sound of tornado heard. At the beginning, the sound like water fall, but in the process of time it will change until like jet plane which is very loud
There is a clear set of steps in the formation of a tornado. First, just before the thunderstorm develops, a change in wind direction and an increase in wind speed, at an increasing altitude, creates an invisible horizontal spinning effect in the lower atmosphere. Wind sliding is created by when winds at two different altitudes blow at two different speeds. It is one way the rotation appears to happen.
Second, rising air within the thunderstorm’s updraft tilts and the air rotating from horizontal to vertical. Next, An area of rotation, 2-6 miles wide is contained within a vast majority of the storm. The strongest, most violent tornadoes form within this area of rotation. After that, a lower cloud base in the center of the storm becomes a rotating wall cloud.
Tornado is created by the rain and hail in the thunderstorm and makes the funnel to touch down. Lastly, just a very few minutes later, a tornado develops and starts to wreak its destruction.
Formation
Maturity
Demise
THE PHASES OF TORNADO
Occurring in a cloud rising air currents upward strong.
Yet drop of rain the drops of water or ice crystals still
restrained by air currents rise to the top of the clouds.
MATURITY
1. The water dots not restrained by
air up to the clouds.
2. It rains caused the string between rising
air currents and down. The mass of air temperature down is
cooler than its air.
3. Between air currents up and down may arise
whirling the current slide
forming a vortex.
4. A current of air whirling faster, this
resembling a cyclone that "bootlick" the
earth as wind waterspout.
DDEMISE
No air mass up . The mass of
air down extends across
the clouds.
Condensation stop.
Air down weaken to cloud growth
completed columbus.
Positive effects Negative effects
Based on the explanation above, tornado is the most damaging storm. The tornado is formed by during the storm cold air and warm air combine. The cold air goes drops as the warm air rises. The warm air eventually twists into a spiral and forms a funnel cloud. The sky turns a very dark color and the tornado begins its destruction. There’re so much the negative effect of tornado more than the positive of it.
Today’s Vocabularies 1. (n) Designation : Penyebutan
2. (n) Velocity : Kecepatan
3. (n) Cauliflower :Kembang Kol
4. (adj) Average : Rata-rata
5. (v) Disappear : Menghilang
6. (n) Hail : Hujan es
7. (n) Thunderstorm : Hujan badai
8. (v) Increase : Meningkat
9. (n) Altitude : Ketinggian
10. (adj) Invisible : Tidak terlihat
11. (n) Updraft : Udara yang bergerak ke atas
12. (n) Tilts : Kemiringan
(v) Tilt : Memiringkan
13. (adj) Vast : Luas
14. (n) Majority : Sebagian besar
15. (adj) Violent : Keras
16. (v) Wreak : Melampiaskan
17. (n) Daytime : Siang hari
18. (v) Blow : Meniup
19. (v) Resembling : Menyerupai
20. (n) Funnel : Corong
(v) Funnel : Menyalurkan
21. (n) Waterspout : Putting beliung
22. (n) Maturity : Kematangan
23. (n) Demise : Kematian
24. (adj) Restrained : Terkendali
25. (n) Vortex : Pusaran
26. (v) Whirling : Berputar
27. (v) Extend : Meluas
References www.google.com
www.youtube.com
Dictionary
http://www.windows2universe.org/earth/Atmosphere/tornado/formation.html
http://news.bbc.co.uk/2/hi/5328524.stm
http://www.pa.msu.edu/sciencet/ask_st/093092.html
http://maybedinna.blogspot.com/2010/01/explanation-text.html
Created By:
Andhika Akbari Perdana
Anrizqa Dewi Rachmani
Maula Salma Fikriana
Nuryenty Seftianty
Putri Larasati
XII Science 1
The water cycle or hydrologic is a continuous cycle
where water evaporates, travels into the air and becomes
part of a cloud, falls down to earth as precipitation, and then
evaporates again. This repeats again and again in a never-
ending cycle. As water goes through its cycle, it can be a
solid (ice), a liquid (water), or a gas (water vapor). Ice can
change to become water or water vapor. Water can change
to become ice or water vapor. Water vapor can change to
become ice or water.
• Humans use water for drinking, respiration, perspiration, and
elimination of wastes are all part of this cycle
• Large amounts of water are needed for most economic
activities: agriculture and mining, food processing,
manufacturing
• Lakes and rivers provide towns and cities with a means of
discharging wastes
• Generation of electricity from thermal power plants
• Waterways provide transportation
• Recreational activities
• Some people view the rivers and large lakes of this country as
a part of their own identity
It happens when the temperature and the
atmospheric pressure are right. Larger droplets
and precipitation occur is formed by the small
droplets of water in clouds. The raindrops fall
to earth occurs when so much water has
condensed that the air cannot hold it anymore.
The clouds get heavy and water falls back to
the earth in the form of rain, hail, sleet or snow
Important process where
rain water soaks into the
ground, through the soil
and underlying rock layers.
The flow of water from the
ground surface into the
ground. Once infiltrated, the
water becomes soil
moisture or groundwater.
Movement of water underground is called
groundwater flow . The spaces and cracks
particles between the soil is moved by
groundwater slowly on its journey to lower
elevations.
The movement of land water to the oceans,
mainly in the form of rivers, lakes, and streams,
consists of precipitation that neither
evaporates, transpires nor penetrates the
surface to become groundwater. Excess runoff
can lead to flooding, which occurs when there
is too much precipitation
A process that
happens through plants.
Water from the soil is
absorbed by the plants,
the roots through the
stems to the leaves are
moved by the water. Once
the leaves are reached by
the water, some of it
evaporates from the
leaves, adding to the
amount of water vapor in
the air.
The process where a liquid, in this case water,
changes from its liquid state to a gaseous state.
Water in rivers or lakes or the ocean and turn it
into vapor or steam are heated up by the sun. The
water vapor or steam then leaves the river, lake,
or ocean and goes into the air.
Water in its gaseous state-instead of liquid
or solid (ice) is totally invisible, extremely
important to the weather and climate. Without it,
there would be no clouds or rain or snow. All of
the water vapor that evaporates from the
surface of the Earth eventually returns as
precipitation - rain or snow.
Formation of liquid drops from water vapor
occurs when a parcel of rising air expands and
cools. These clouds may produce precipitation,
which is the primary route for water to return to
the Earth's surface within the water cycle
When water falls back to earth as
precipitation, it may fall back in the oceans,
lakes or rivers or it may end up on land. When it
ends up on land, it will either be soaked into the
earth and become part of the “ground water”
that plants and animals use to drink. It may run
over the soil and collect in the oceans, lakes or
rivers where the cycle starts all over again.
The water cycle is called the hydrologic cycle. In the hydrologic
cycle, water from oceans, lakes, swamps, rivers, plants, and even you,
can turn into water vapor. Water vapor condenses into millions of tiny
droplets that form clouds. Clouds lose their water as rain or snow,
which is called precipitation. Precipitation is either absorbed into the
ground or runs off into rivers. Water that was absorbed into the
ground is taken up by plants. Plants lose water from their surfaces as
vapor back into the atmosphere. Water that runs off into rivers flows
into ponds, lakes, or oceans where it evaporates back into the
atmosphere. The cycle continues.
Today’s Vocabulary
Verb 1 Verb 2 Verb 3 Meaning
Lower Lowered Lowered Menurunkan
Penetrate (s) Penetrated Penetrated Menembus
Occur(s) Occurred Occurred Terjadi
Evaporate(s) Evaporated Evaporated Menguap
Expand Expanded Expanded Memperluas
Condense Condensed Condensed Mengembun
Discharge Discharged Discharged Mengeluarkan
Today’s Vocabulary • (adj) Gaseous : Dalam bentuk gas
• (n) Steam : Uap air (panas)
• (n) Heated : Panas
• (n) Surface : Permukaan
• (adv) Eventually : Secepatnya
• (n) Swamp : Rawa
• (n) Droplet : Titik kecil
• (adj) Invicible : Tak terlihat
• (n) Formation : Pembentukan
• (n) Crack(s) : Retak
• (n) Elevation : Peninggian
• (n) Excess : Kelebihan
Today’s Vocabulary • (n) Waterway(s) : Jalan Air
• (n) Hail : Hujan Es
• (n) Moisture : Embun
• (n) Waste(s) : Limbah
• (n) Mining : pertambangan
• (adj) Soaked : Direndam
• (n) Precipitation : Hujan
• (adj) Absorbed : Serapan, terserap
• (adj) Stem(s) : Tangki
• (n) Vapor : Uap air
• http://www.enchantedlearning.com/subjects/astr
onomy/planets/earth/watercycle.shtml
• Water Cycle. Wikipedia.
http://en.wkipedia.org/wiki/water_cycle
• The Water Cycle.
http://www.kidzone.ws/water/
• http://www.slideshare.com
• http://google.com
• Dictionary
LIGHTNING
THE CYCLE OF LIGHTNING
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Production, Aurora, Rainbows, Urine Formation, Tsunami, Tornado, Water Cycle, and Lightning.
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