Geophysical Survey Report
r covering
Surface & Borehole Pulse EM Surveys over the
Grasset Property.
for
Balmoral Resources during
February - April 2014
by
CRONE GEOPHYSICS & EXPLORATION LTD.
Survey Area: Grasset Property, northwest of Montreal, Quebec.
Survey Type: Surface & Borehole Pulse EM Surveys
Survey Operator: Morgan Glynn, Guy Dumais, Scott Murray
Surface Surveys: Loop 2014-1: Line 600E, 700E Loop 2014-2: Line 100E, 200E, 300E, 400E, 500E, 600E, 700E, 800E, 900E Loop 2014-3: Line 100E, 200E, 300E, 400E, 500E, 600E, 700E, 800E, 900E, 1000, 1100 Loop 2014-4BF: Line 900E
Borehole Surveys: Loop 1: Hole GR-14-16, GR-14-17, GR-14-18, GR-14-19, GR-14-20, GR-14-20FG Loop 5: Hole GR-14-22, GR-14-23, GR-14-24, GR-14-25
Survey Period: February 20th — April 05th 2014
Report By: A.M. Khan
Report Date: May 2014.
GM 69008 Ressources naturelles et
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05 MAI 2015
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10 JUIN 2015 )(1 Dir information géologique
Documents complémentaires / Additional files
Licence / License
Crone Geophysics & Exploration Ltd.
TABLE OF CONTENTS
PULSE ELECTROMAGNETIC SURVEY
1.0 INTRODUCTION
2.0 PROPERTY LOCATION
3.0 PERSONNEL
4.0 SURVEY METHODS
5.0 SURVEY PARAMETERS
6.0 PRODUCTION SUMMARY
APPENDICES
APPENDIX I: PROFILE PLAN MAPS
APPENDIX II: LINEAR (5-AXIS) PULSE EM DATA PROFILES
APPENDIX III: PULSE EM DATA PROFILES (LIN-LOG SCALE)
APPENDIX IV: STEP RESPONSE DATA PROFILES
APPENDIX V: CRONE INSTRUMENT SPECIFICATIONS
APPENDIX VI: STATEMENT OF QUALIFICATIONS
APPENDIX VII: LIST OF EXPENDETURES
Geophysical Survey Report
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Crone Geophysics & Exploration Ltd.
LIST OF FIGURES
FIGURE 1: GRAS SET PROPERTY GENERAL LOCATION GOOGLE MAP
FIGURE 2: PROPERTY LOCATION MAP
FIGURE 3: REGIONAL GEOLOGY MAP
FIGURE 4: VTEM & 2014 TDEM SURVEY PLAN MAP 1
FIGURE 5: 2014 TDEM SURVEY PLAN MAP2
FIGURE 6: LOOP 2014-1 MAP SHOWING DETAILS OF TDEM SURVEYED LINE COVERAGE
FIGURE 7: LOOP 2014-2 MAP SHOWING DETAILS OF TDEM SURVEYED LINE COVERAGE
FIGURE 8: LOOP 2014-3 MAP SHOWING DETAILS OF TDEM SURVEYED LINE COVERAGE
FIGURE 9: BUTTERFLY LOOP 2014-4BF MAP SHOWING DETAILS OF TDEM SURVEYED LINE 900E
FIGURE 10: LOOP-1 & SURVEYED HOLE GR-14-16, 17, 18, 19, 20 LOCATION MAP
FIGURE 11: LOOP-5 & SURVEYED HOLE GR-14-22, 23, 24, 25 LOCATION MAP
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
LIST OF TABLES
TABLE I: SURFACE SURVEY TRANSMITTER LOOP COVERAGE
TABLE II: SURFACE SURVEY COVERAGE
TABLE III: BOREHOLE SURVEY TRANSMITTER LOOP COVERAGE
TABLE IV: BOREHOLE SURVEY COVERAGE
TABLE V: 22-CHANNEL CONFIGURATION FOR THE 50.00 ms TIME BASE (INDUCTION PROBE)
TABLE VI: 25-CHANNEL CONFIGURATION FOR THE 100.00 ms TIME BASE (FLUXGATE PROBE)
TABLE VII: PRODUCTION SUMMARY
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
1.0 INTRODUCTION
Crone Geophysics & Exploration Limited was contracted by Balmoral Resources to conduct Borehole/Surface Pulse Electromagnetic Surveys on its Grasset Property located northwest of Montreal, Quebec. This report summarizes the geophysical work carried out in February 20th — April 05th 2014.
Twenty three (23) surface lines utilizing four (4) separate surface loops and nine (9) holes were surveyed from two separate transmitter loops during this survey period. The appendices to this report contain page size plan/section maps, PEM profiles (linear 5-axis and logarithmic scale), Step response profile plots and the Crone Instrument Specifications.
2.0 PROPERTY LOCATION & ACCESS
The Grasset Property is located about 600 kilometers northwest of Montreal, Quebec along the Detour-Sunday Lake Deformation Zone which hosts the Detour Lake Gold deposit 80 kilometers to the west.
The Property is accessed via a series of recent logging roads and exploration work on the property is conducted out of the Companies Fenelon exploration camp located approximately 3 kilometers west of the property.
Geophysical Survey Report
1
Grasset Property •
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Crone Geophysics & Exploration Ltd.
Figure 1: Grasset Property General Location Google Map
Geophysical Survey Report
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DOIGT HARKI
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DETOUR EAST [rtjpn .b
) ,
Selbaie Mine Past Producer (Cu, Zn, Au)
, Matagami ~ , ,
~Cu,Zn. Au, Ag
011.1110
BALMORA4, 0 5 10 20 30 40 Kilometres
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Estrades Mine Past Producer (Cu, Zn. Aul --
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Past ProclucerlCopper10 .~
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% Casa-Berardi (Au) Aurizon / Hecla
Crone Geophysics & Exploration Ltd.
Figure 2: Property Location Map
Geophysical Survey Report
eu
.y x ae
`C2 Balmoral Resources
Oe Jr Matagami n 114 Cu, Zn, Au, Ag >40M tons
Sunday. Lake- ou
'n Selbaie Mine,
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7
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Legend
Balmoral Claims
Geology
Timiskaming Sediments
Cobalt Plate
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>3M OZ Au (Poly-Metallic) r
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Timmins 71MOzAu
Ô 6
ine De stor Fa /t
0 12.5 25 50 75 100 125 Kilometers
21MOzAu
ouyn Noranda Larder Lake 19M Oz Au 13M Oz Au
Detour Lake Mine
17M Oz Au
BALMORAL
Crone Geophysics & Exploration Ltd.
Figure 3: Regional Geology Map
Geophysical Survey Report
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Crone Geophysics & Exploration Ltd.
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Figure 4: VTEM & 2014 TDEM Survey Plan Mapl
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
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Figure 5: 2014 TDEM Survey Plan Map2
Geophysical Survey Report
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Crone Geophysics & Exploration Ltd.
Figure 6: Loop 2014-1 Map showing details of TDEMSurveyed Lines coverage
Geophysical Survey Report
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Crone Geophysics & Exploration Ltd.
Figure 7: Loop 2014-2 Map showing details of TDEM Surveyed Line Coverage
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
Figure 8: Loop 2014-3 Map showing details of TDEM Surveyed Line Coverage
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
Figure 9: Butterfly Loop 2014-4BF Map showing details of TDEM Surveyed Line 900E
Geophysical Survey Report
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281 •n
748m
Grasset Project
Crone Geophysics & Exploration Ltd.
Figure 10: Loop -1 & Surveyed Hole GR-14-16, 17, 18, 19, 20 Location Map
Geophysical Survey Report
CliCG-18
Crone Geophysics & Exploration Ltd.
Figure 11: Loop -5& Surveyed Hole GR-14-22, 23, 24, 25 Location Map
3.0 PERSONNEL
The personnel involved in this project during the reporting period include:
Survey Operator: Morgan Glynn, Guy Dumais, Scott Murray
Data Processing / Data Discussion: Kevin Ralph
Report: A.M. Khan
Geophysical Survey Report
Crone Geophysics & Exploration Ltd.
4.0 SURVEY METHODS
Crone Pulse EM is a time domain electromagnetic method in which a precise pulse of current with a controlled linear shut off is transmitted through a large loop of wire on the ground and the rate of decay of the induced secondary field is measured across a series of time windows during the off-time. The EMF created by the shutting-off of the current induces eddy currents in nearby conductive material thus setting-up a secondary magnetic field. When the primary field is terminated, this magnetic field will decay with time. The amplitude of the secondary field and the decay rate are dependent on the quality and size of the conductor.
On this project, a 3D Borehole Pulse EM system was assembled in which an axial component (Z) probe and a cross component (XY) probe were used to measure the three components of the induced secondary field. The first pass with the 'Z' probe detects any in-hole or off-hole anomalies and gives information on size, conductivity, and distances to the edge of conductors. The second pass with the `XY' probe measures two orthogonal components of the EM field in a plane orientated at right angles to the borehole. These results give directional information to the center of the conductive body. Data is usually collected at a nominal sample interval of 10m.
In addition to measuring the standard Primary Pulse channel on the ramp and 20 off-time channels, the Step Response may also be calculated. Step Response requires accurate geometrical control in which the loop position and the hole geometry are accurately determined. In the current surveys positional information was collected by Crone using a sub-meter capable GPS and regional base station. Positional information is provided in the UTM projection (zone 17 North), utilizing the NAD 1983 Canada datum. Elevations are given relative to Mean Sea Level based on the EGM96 Global geoids model.
The calculated Step Response values are binned into an S1 channel (from 0.5T to T), an S2 channel (from 0.25T to 0.5T), an S3 channel (from 0.125T to 0.25T) and an S4 channel (from 0.0625T to 0.125T, where T is the time base). The S1 channel is normalized to the theoretical primary field, while S2, S3 and S4 are normalized to 51. The 51 value is used to identify responses from highly conductive sources. In the absence of any conductors the Primary Field should exactly equal the theoretical field for a given component. In the case of generally resistive host and poorer conductors the S1 value will be very close or equal to the theoretical field for a given component
The borehole surveys were carried out using time base of 50.00 ms, off-time channels 1 — 22 for loop 1 (Table V) and off-time channels 1 - 24 for loop 5(Table VI) with a 1.5 ms shut-off ramp time. The primary inducing field is defined as positive up inside the transmitter loop.
Geophysical Survey Report
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Crone Geophysics & Exploration Ltd.
Fluxgate surveys were carried out on Hole GR-14-20FG using a time base of 100.00 ms (2.5 Hz), with a 1.5 ms shut-off ramp time and 25 off time channels (Table VII).
The surface surveys were carried out using a time base of and 50.00 ms, off-time channels 1 - 22 with a 1.5 shut-off ramp time (Table V). The primary inducing field is defined as positive up inside the transmitter loop.
A butterfly loop 2014-4BF (Figure -9) was used for the survey of line 900E.
The equipment used on this project was a Crone Pulse EM Borehole system. This includes a 4.8 kW transmitter with a 220V voltage regulator which is powered by an 11 hp motor generator. The Crone Digital Receiver was used to collect the field data. The synchronization between the Transmitter and the Receiver was maintained by direct cable link.
Data units are nT/s inductive probe and pT for Fluxgate.
Geophysical Survey Report
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5.0 SURVEY PARAMETERS
Table I: Surface Transmitter Loon Coverage
Loop Property Size
( meters)
Corner Coordinates
UTM NAD83 Zonel7N
2014-1 Grasset Project 500 x 500 679543E, 679734E,
5540134N 5539462N
679302E, 679987E,
5539722N 5539900N
2014-2 Grasset Project 800 x 1200 679278E, 679986E,
5540275N 5539032N
678936E, 680345E,
5539642N 5539704N
2014 3 Grasset Project 1300 x 1200 679574E, 679983E,
5540780N 5539041N
678916E, 680608E,
5539655N 5540171N
2014-4BF 679441E, 5539356N 679985E, 5539043N
(Butterfly Grasset Project 600 x300 680123E, 5539314N 679592E, 5539608N
Loop) 679944E, 680608E,
5540213N 5540173N
680454E, 680087E,
5539913N 5540483N
Table II: Surface Survey Coverage
Line TX loop Time base
(ms)
Off Time Channels
Ramp
(ms)
Current
(Amps)
Station Length
(m) Comp
From To
600E 2014-1 50.00 22 1.5 25 550 850 300 X,Z
700E 2014-1 50.00 22 1.5 25 -650 650 1300 X,Z
100E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
200E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
300E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
450E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
500E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
600E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
700E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
800E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
Geophysical Survey Report
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900E 2014-2 50.00 22 1.5 14 -600 650 1250 X,Z
100E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
200E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
300E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
400E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
500E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
600E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
700E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
800E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
900E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
1000E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
1100E 2014-3 50.00 22 1.5 12 -400 400 800 X,Z
900E 2014-4BF 50.00 22 1.5 13 -325 300 625 X,Z
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Table III: Borehole Survey Transmitter Loon Coverage
Loop Property Size
( meters)
Corner Coordinates
UTM NAD83 Zonel7N
1 Grasset Project 500 x 500 679543E, 5540133N679303E, 5539721N 679737E, 5539461N679987E, 5539900N
5 Grasset Project 750 x 800 679369E, 5540228N679004E, 5539605N 679693E, 5539204N680081E, 5539862N
Table IV: Borehole Survey Coverage
Hole TX
Time base
Off Time Channels
Ramp Current Comp p
Station (m) Length
(ms) (#) (ms) (Amps) From To (m)
GR-14-16 1 50.0 22 1.5 25 100 290 190 X,Y,Z
GR-14-17 1 50.0 22 1.5 25 100 245 145 X,Y,Z
GR-14-18 1 50.0 22 1.5 25 80 210 130 X,Y,Z
GR-14-19 1 50.0 22 1.5 25 80 160 80 X,Y,Z
GR-14-20 1 50.0 22 1.5 25 110 280 170 X,Y,Z
GR-14-20FG 1 100.0 25 1.5 25 100 285 185 X,Y,Z
GR-14-22 5 50.0 24 1.5 22 150 320 170 X,Y,Z
GR-14-23 5 50.0 24 1.5 22 170 320 150 X,Y,Z
GR-14-24 5 50.0 24 1.5 22 90 300 210 X,Y,Z
GR-14-25 5 50.0 24 1.5 22 80 510 430 X,Y,Z
Geophysical Survey Report
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The following table shows the various time gates that constitute the channel configurations set up in the Crone PEM Receiver used in the surveys discussed in this report. This 50.00 ms timebase uses off-time channels 1 - 22.
Table V: 22-Channel Configuration for the 50.00 ms time base (Induction Probe Channel Start Finish Channel Start Finish
PP -2.000e-04 -1.000e-04 1 4.800e-05 6.400e-05 2 6.400e-05 8.400e-05 3 8.400e-05 1.120e-04 4 1.120e-04 1.520e-04 5 1.520e-04 2.040e-04 6 2.040e-04 2.680e-04 7 2.680e-04 3.600e-04 8 3.600e-04 4.800e-04 9 4.800e-04 6.400e-04 10 6.400e-04 8.480e-04
11 8.480e-04 1.128e-03 12 1.128e-03 1.496e-03 13 1.496e-03 1.992e-03 14 1.992e-03 2.644e-03 15 2.644e-03 3.512e-03 16 3.512e-03 4.664e-03 17 4.664e-03 6.192e-03 18 6.192e-03 8.220e-03 19 8.220e-03 1.092e-02 20 1.092e-02 1.440e-02 21 1.440e-02 3.107e-02 22 3.107e-02 4.774e-02
The following table shows the various time gates that constitute the channel configurations set up in the Crone PEM Receiver used in the surveys discussed in this report. This 50.00 ms timebase uses off-time channels 1 - 24.
Table VI: 24-Channel Configuration for the 50.00 ms time base (Induction Probe) Channel Start Finish Channel Start Finish
PP -2.000e-04 -1.000e-04 1 4.800e-05 6.400e-05 2 6.400e-05 8.400e-05 3 8.400e-05 1.120e-04 4 1.120e-04 1.520e-04 5 1.520e-04 2.040e-04 6 2.040e-04 2.680e-04 7 2.680e-04 3.600e-04 8 3.600e-04 4.800e-04 9 4.800e-04 6.400e-04 10 6.400e-04 8.480e-04
11 8.480e-04 1.128e-03 12 1.128e-03 1.496e-03 13 1.496e-03 1.992e-03 14 1.992e-03 2.644e-03 15 2.644e-03 3.512e-03 16 3.512e-03 4.664e-03 17 4.664e-03 6.192e-03 18 6.192e-03 8.220e-03 19 8.220e-03 1.092e-02 20 1.092e-02 1.440e-02 21 1.440e-02 1.770e-02 22 1.770e-02 2.770e-02 23 2.770e-02 3.770e-02 24 3.770e-02 4.770e-02
Geophysical Survey Report
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Table VII: 25-Channel Configuration for the 100.00ms time base (Flux ate Probe) Channel Start Finish Channel Start Finish
PP -1.900e-03 -1.800e-03
1 4.800e-05 6.400e-05 2 6.400e-05 8.400e-05
3 8.400e-05 1.120e-04 4 1.120e-04 1.520e-04
5 1.520e-04 2.040e-04 6 2.040e-04 2.680e-04
7 2.680e-04 3.600e-04 8 3.600e-04 4.800e-04
9 4.800e-04 6.400e-04 10 6.400e-04 8.480e-04
11 8.480e-04 1.128e-03 12 1.128e-03 1.496e-03
13 1.496e-03 1.992e-03 14 1.992e-03 2.644e-03
15 2.644e-03 3.512e-03 16 3.512e-03 4.664e-03
17 4.664e-03 6.192e-03 18 6.192e-03 8.220e-03
19 8.220e-03 1.092e-02 20 1.092e-02 1.440e-02
21 1.440e-02 3.107e-02 22 3.107e-02 4.774e-02
23 4.774e-02 6.440e-02 24 6.440e-02 8.107e-02
25 8.107e-02 9.774e-02
6.0 PRODUCTION SUMMARY
Table VIII: Production Summar
20-Feb-2014 MOB.
21-Feb-2014 MOB.
22-Feb-2014 Surveyed GR-14-20 while Jordan was gpsing the loop finished the hole then moved on to GR-14-17 dummied the hole, surveyed the Z.
23-Feb-2014 Finished survey on hole GR-14-17, hole 18 and hole GR-14-19.
24-Feb-2014 Surveyed GR-14-16 then moved on to hole GR-14-20 with the fluxgate finished. Used 100 time base with fluxgate
25-Feb-2014 Surveyed line 700 finished that line then got a start on line 600 of loop-1 got 300 meters.
26-Feb-2014 Picked up most of the first loop TX-1 left one side out for the next loop then got the next loop all out and ready to go and packed dow a little bit of the lines for surveying.
27-Feb-2014 Went to Val Dor to drop off Jordan and pick up Charlie and went back to camp.
28-Feb-2014 Set up and started to survey while Charlie was Gpsing the loop finished line 100 of loop-2.
01-Mar-2014 Surveyed line 200 finished and moved onto line 300 and finished.
02-Mar-2014 Surveyed on line 400 finished and moved on to line 400 and finished.
03-Mar-2014 Surveyed on line 400, loop-2 finished and moved on to line 400 and completed. Went and broke trail for lines 800 and 900 for tomorrow.
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04-Mar-2014 Surveyed on line 800 finished and moved on to line 900 and finished loop-2 then went and borke trail for lines 1000 and 1100 for tomorrow.
05-Mar-2014 Got caught up on the Gps then waited for the plan then picked up most of the loop and left the south edge.
06-Mar-2014 Laid out loop.
07-Mar-2014 Surveyed on line 100 of loop-3.
08-Mar-2014 Surveyed on line 200,300,400.
09-Mar-2014 Surveyed on line 500,600.700
10-Mar-2014 Surveyed on line 800, 1000.
11-Mar-2014 Surveyed on line 1100
12-Mar-2014 Surveyed on line 900.
13-Mar-2014 Surveyed on line 900BF.
14-Mar-2014 Picked up loop, packed up gear.
15-Mar-2014 Operator DEMOB.
16-Mar-2014 Operator DEMOB.
28-Mar-2014 Operator Mob.
29-Mar-2014 Operator Mob.
30-Mar-2014 Surveyed hole GR-14-24.
01-Apr-2014 Surveyed continuous mag on holes GR-14-24, GR-14-20.
02-Apr-2014 Surveyed hole GR-14-25 at the Grasset grid.
03-Apr-2014 Surveyed holes GR-14-22, GR-14-23, picked up loop 5 and packed up the truck and trailer.
04-Apr-2014 DEMOB.
05-Apr-2014 DEMOB.
Respectfully submitted,
A.M. Khan, M.Sc.
Crone Geophysics & Exploration Ltd.
Geophysical Survey Report
5540000N —
5539500N
5540500N
Scale 1:15000 250 0 250
(meters)
679500E 680000E 680500E I I I
5539000N
Balmoral Resources Grasset Project
Surface Pulse G Survey
Lines & Loon Location NOD
Loon: 201 4-1 Survey Date: February 25, 2014
Crone Geophysics & Exploration Ltd,
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5539300N- -5539300N Balmoral Resources Grosset Project (Loop 2014-1)
Surface Pules EM Survey
Loop Location Mop 079390E 879900E 079500E 079000E 0]9]00E 979800E 079909E 080000E 889100E 5E0200E Vertical Z Component
Rn16
bnnau CaaAhyaka k E:Plomtlen Ltd_
680000E 680500E I I
679500E 679000E
G Survey Surface Pulse
Boreho e Loos Location Man
Scale 1:15000 250 0 250
(meters)
5539000N
5540500N
5540000N —
5539500N
Balmoral Resources Grasset Project
Loon: 2014-2 Survey date: March 2014
Crone Geophysics & Exploration Ltd,
680000E 680500E I I
679500E 679000E
1 Survey Surface Pulse
Boreho e Loos Location Man
Scale 1:15000 250 0 250
(meters)
5540500N —
5540000N
3
5539500N —
Balmoral Resources Grasset sroject
Loon: 2014-3 Survey date: March 7-11, 2014
Crone Geophysics & Exploration Ltd,
679500E
680000E
680500E
5540500N
5540000N —
5539500N —
5539000N
Scale 1:15000 250 0 250
(meters)
Balmoral Resources Grasset sroject
Surface Pulse V1 Survey
Lines & Looc Location Na u
Butterfly Loo c: 201 4-4BF Survey Date: March 13, 2014
Crone Geophysics & Exploration Ltd.
5540500N- -5540500H
554040014- - 5540400H
5540300 N - ' - - 5540300H
554020014- - . -5540206H
554010014- , -5540106H
554000014- / -554000611
.
553990014- -553990611
5539E001.1- -5539E0611
144BF
563970O14- , ~
-5539]0611
l
5539E0014- ~ -5339W011
5539500N- . / / -5339500N
5539400N- - 53394001
5539300N- ' -53393001
if
5539200N -5339200N oSoule Oon' ~
• A A A-LI{ b 1. 4
5539100N- -55391001 ® e im im Nee1
8afmorof Resources Croeee1 project (Loop 2014-413F)
Su rto ce Pulse EN Survey 663 1- 9000 - 65390001 Loop Location Nap
679400E 679500E 679600E 679700E 679900E 679900E 090000E 630100E 6E0200E 630300E 630400E 630500E 690600E HonzonFol X Corn ponenl SLUMP Ern Nora 15..14
crcr. 0.opWsiaa n 6ryrt,oLiam Lm.
879.1-ME 979.0E 97911100E 9797110E Felsooe 6790KIE 6.90000E 6.901NIE MIME. 0.1311.363E 8.1313.1-03E 0.1305CAE 0901900E
5540500N- -5544500N
55404001.1- -55494000
55403001.1- ' - -55443001.
55402001.I- - . -55442001.
55401001.1- , -55441001.
55400001.1- -55440000
55399000- -55399000
~
5539000N-
f./
-55390060
'4 AL
).7T
5639700N- , - 55397000
55.596001.1 - 553960011
.
663 0 9600 - • / -53395000
55394001.I- -55399000
55393001.1- ' -55393000
if
553920014 -5339200N Moto ' Soule
• A A A-LI{ b 1. 4
553910014- -55391000 ® 5 im im Ne 0
8almoraf Resources Croeeet project (Loop 2014-413F)
SLAY LE PL116E EN survey 65350001.1- -04090001.1 Loop Location Nap
679433E 6795500E 679600E 679700E 079000E 079900E 090000E 600100E 600600E 600300E 600900E 600500E 050600E VSrticol Z Component SLUMP Ern Nora 15..14
cmr. 415pWsiaa n Eryrt,5Liam Lm.
679400E 679600E 679800E 680000E
5540200N
Scale 1:7500 goo o oo
(meters)
5539400N
5540000N
5559800N —
5559600N
Ralmorcl Resources Grasset Project
3—C Borehole Pulse 7v Survey
Boreho e & Loon Location Con
Hole: GR-14-16 Survey Date: February 24, 2014
Crone Geophysics o Exploration Ltd.
Balm oral Resources Grasset roj ect
3—D Beres o e se EM Survey
Hole Section w its Primary Fie d
e: GR-14-16,Loop Survey Date, Februory 24, 2014
o
Crone Geophysics & Ex plo ra tion L td
679696E,5540209N
679552E,5539941N GP-14-16
, ~\\,\,\, 1 \\--z/ 1 1 1? 1 1 Hill i P 1 L ~1 / / 1 1 11 11 f 1
ï111P1111 N 1 1 T11
/r1ïTT11 1111T
/ l / /4 /l' ï
//1 / / 7 1 1 1 /1I1 ï 1
,//11/// /~~ï1 ~ z ~~/'~~% m
i~~//
1 DD - y
----- 7-'/- // 1 11 / I zzi / 1
// / / /11 i 1 z / 1
/ r / / l / 111// / î l / // //
.77// // / 11 1 >' / / l l / / / I 1
1DD / / /
~~~~ --- ~~ _----.~i// J/if 1 % / / / / / it / I --_-- --.--- -----~ -5- ~- ---' / ,--/ / / /' 1 / / / / / / / 1 1
~ ~~ ~ ~-~ ~ ---- //`f I /' / / / / / / / / / I ~~ ----- --- ~,-- Ç- - , z-z/'////4 /// // / / / - -- _ ---' ---'- - -' ----". ,-.-- / / / / / / / / / / / / / I ---- ~»,- ~~ - / /' x• / / / / / / / / / / / / / 1 ---- .-~,-~,--- //' z'///i1 / / / / / / / / I
// //////// // / 1
scQie 1:25oa 25 D 25 50
eters)
679200E 679400E 679800E 680000E 679500E
5540200N
Scale 1:7500 goo o oo
(meters)
5539400N
5540000N
9
5559800N —
5539600N
Ralmorcl Resources Grasset Project
3—C Borehole Pulse 7v Survey
Boreho e & Loon Location Con
Hole: GR-14-17 Survey Date: February 23, 2014
Crone Geophysics o Exploration Ltd.
579773E,5539724N 679916E>553992N GR-1 4-17
2DD
i I / % / / / ï i ,----- ////// 1
,L\N------ //111f1f1r
f//l/ll1 „-~7/7 / / / / / / i
- z. / /' / / l / / /
~-d~77//1//il'1I
1 DD
D
1 DD
Scale 1!2,500 50 a 50
(mete rs)
BoIm oral Resources Gresset Project
3—D Bo re nol e 7 u lse E v Survey Hale 5eoti on with ri mory fl e c
ole: GR-1 4-17, Loop Survey Date: February 23, 2014
Crane Geophysics 2c Explora~io n L~d ,
679400E 679600E 679800E 680000E
5540200N
Scale 1:7500 goo o oo
(meters)
Ralmorcl Resources Grasset Project
3—C Borehole Pulse 7v Survey
Boreho e & Loon Location Con
Hole: GR-14-18 Survey Date: February 23, 2014
Crone Geophysics o Exploration Ltd.
5539400N
5540000N
5559800N —
5559600N
67986E,553956N
1 1 1 1 1 ----/ / I I
IIT T11 1 1 1 1 I 1' II 1 1111P 1 I IïP
I] 1 1 1_ 1 /1/ / / / / I 1 / 1
/ / 7 1 I 1~ ï / i l / ////llI 11
z//i//7/IÎ1P J/ / / / / 7 / l l 1 ~
7f ///// 1/I 1 00,z /7/ / 1/ 1
J/'//// / / / 71> / 1 7I/~~~//~l/111 /r/~/////17111 x / I l I
1 / • / //i//7/ 7111
Q,////////7/ l
1////////
/ ///////7// 1/1 / / /
//I1/ l / //////l' //' I / l I
1o0,// // //// l l / I l 1 //// /1
579752E 1 5539689N
I9 / 1 1 1 1 11 / 1 1 11 11
1 1
1 1 11 1 1 11 1 1 11
11 1 1 /
GR-1 4-1 8
Scale 1:2500 25 fl 25 50
(meters)
Balmoral Resources Grasset Droi'ect
3—D Bore-10 e se -M Survey o le Soctla n with ri m a ry =le d
c e: GR-14-1 B,LDoD Survey Date, February 23 2D14
Crone Geophysics ck Exploration Ltd_
679400E 679600E 679800E 680000E
5540200N
Scale 1:7500 goo o oo
(meters)
5539400N
5540000N
5559800N —
5559600N
Ralmorcl Resources Grasset Project
3—C Borehole Pulse 7v Survey
Boreho e & Loon Location Con
Hole: GR-14-19 Survey Date: February 23, 2014
Crone Geophysics o Exploration Ltd.
77J//' / / / / / / / / 7//'J// / / / / / / / / / ~ 77
679933E,5539994N 679774E,5539734N GR-14-19
4 P1t11f 1ff1
l P 1 P 1 1
//lI P / 1 is //// / 1 ~
l'7/l / f
200
// // / / 1 1 /1 /1
/1
/1 /1
/ / 1 1 / 1 1 1 / / / 1
Balm orol Res Drc es Grasset Project
3—D Boreho e se Ev Survey
Hole 5ection with Pr'I mcry =le c
H e e: /1--19 , soap Survey Dote: February 23. 2014
Crone Geophysics & Exploration Ltd.
Scale 1:2500 25 6 25 50
(meters)
679400E 679600E 679800E 680000E
5540200N
Scale 1:7500 goo o oo
(meters)
Ralmorcl Resources Grasset Project
3—C Borehole Pulse 7v Survey
Boreho e & Loon Location Con
Hole: GR-1 4-2Q Survey Date: February 22, 2014
Crone Geophysics o Exploration Ltd.
5539400N
5540000N
5559800N —
5559600N
679870E,5540041N GR-14-20 5.79718E 1 5539777N
L \\\ tiy f/ l 1?' ? 1' 1 1 M 1 ,\titi----R/ /1 1 l l 1t 1 f?
/ /// 1 l i 1 P 1 // // r I 1 1/ 1
1 1 1 l 1
R// R 1 //// 1 I l P // / P
/ 1 liR 1
RR///' // //
--_-- z-/ z / / i / / / / / / / l 1 7-ff ///4 / / I l 1
R/ / I l 1 -7-7//r/ P
~-~ z- 7Jff R i / / / I l P I7//'Jff I R///// r rI l 1
R/ 1/ / // Jz- ffRR//' / / / / z/'7-ff / 1
/'/ff/R 1 / / % / / l P rf/ffi ///i1I lP
R / ,zfffR//1//// I /f fR~~~~////l
Balmoral Resources
25 0 25 50
Scale 1:2500
G ra sset Project
eters
He e: GR-14-20, LOoD
Survey Date Februory 22 , 2D14
Crone Geophysics & ExRlo rd tion Ltd
200
100
u
100
3—D Q4re'1 o e se EN
Hale Section with rlm a ry
Survey
=re d
— ]
oa
z6
L9
— A
OO
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— A
0096L9
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Aoao6L9
—
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17
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—
Aoa96L9
5540200N —
5540000N —
5539800N —
5539000N 4
5539400N —
5539200N —
Scale 1:10000 100 0 100 200
(meters)
7
Balmoral Resources Grasset project
3—D Borehole pulse -M Survey Boreho e & Loon Location Ma o
ole: GR-14-22 Survey Date: April 2, 2014
Crone Geophysics & Exploration Ltd.
679537E,5540227N 0R-1 4-22
6794D2E,5539955N
~ \ /r1 1 11f1 fi ?f1fi 11 1 911 1f 1P 1 P 1
N %/ /1 1 P 11P 1 f 1 l 1 / 1 1 1 1 1 f i
\\ r0i 1 1 1 1 1 1 1 /1/1T1 1 i 1
Loo ~̀ ~~y~~~~J ~ B /t// î l/ 1~ 1 1 / 1
// 11P1 -~~-~-~ -Y-~ --~~ ~ B B// / l/ 1/ / 1 / I ~y~~~~,- ~~ ~ / B / / / / / / l / / / / 1
~~.~~~~~ ~~ ,7 / B / / / / / / l / 1 / / 1
~~~~~~,-~~7 / / / / / / / / / / 1 / 1 /
,-~~,/ B / / / / / I / / / / / /
_.._,' / / /// /' /////// / I / / /
~ .-----------'.~~~- ~ ~ 7 / B / / / / / / / / I / 1 /
~ /B// / /
/ //l%îl]~ z° / /
~ , / ~ / / / / / / / Î ï l ~ /
z / / / /
/ / 1 / i 1 % % l % / 7/ /f /
/ r/~
B/ / / / / % /
`/îB ////// ~/~ 100z / 7 / / % / / / % /
100
Scale 1,2,500 50 a 50
(mee rs)
BBm o ra l Resources Gresset Project
3—D Bo re nol e u lse E V Survey
Hale 5eoti on with ri mory fl e c
ol e: GR— 1 4-22, Loop 5 Survey Date April 2, 2014
Crane Geophysics 2c Exploraio n L~d ,
— ]
oa
z6
L9
— A
OO
OO
g9
— A
0096L9
-
Aoao6L9
—
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17
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—
Aoa96L9
5540200N —
5540000N —
5539800N —
5539000N 4
5539400N —
5539200N —
Scale 1:10000 100 0 100 200
(meters)
7
Balmoral Resources Grasset project
3—D Borehole pulse -M Survey Boreho e & Loos Location Ma o
ole: GR-14-23 Survey Date: April 2, 2014
Crone Geophysics & Exploration Ltd.
79523E, 554022N GR-14-23
579402E,5539950N
11.
1 1~ 1 f 1 f i ~? f 1 f i 1 1 i I 1 P 1 P 1
1 ï1P /1P1f 1 / 1 1 1 1 1 l' i
1 P 1 / 1 -~-~-~-~--~~» 1///// 1/ 1 1 / 1 / 1
z 1 1 / 1 ~~~~~~~~- B/ / l l l 1/ P f / 1
lllllïi ll ~--~~ B B/// l/ l/ / 1 l
~~~~ / l / Î /
/ / / / / / 1 / / / l /
- ~~~~~~~B/i///Î lÎl1/
B/ 1/ l/ / l l l l l ~ / / Î / l l
/ / / / / î / / / ----- ~ ----- ~- ~- ~ ' ~ B B 1 / / /' / / / 1 / / / ~ ---- ~ ---- ---- ~ ' 7 ~ ~ /' / / /' 1 / / / / / 1 / / / ------ ----- ,-~~~~r~z /rB/111/////Îïll ~_-,-,- - 3 ~ B B 1 1 // B/ B B ~~~,- '~ "~~vBB11 / / / / / / / / /
°_-~,-~ 7- --/-- / z. /' / / /I / 1 / / / / / / / / / ~—' ' ° r 7 f / % / i J /1 / % % % / l / / l l l - -,-~~~ i~~/ z /' /4 /111//4 ////lll ~ ' ' r" 7 / /' / /f//B1////// l l l -'-'~7 7- I/°f/BB%I111 / 1 / / / / l l l � ~ ----- r~ ~/ z'- fB~/4 /1/i//////lll � l ~ ~ ~ 7 /' I / / B / J 1 / 1 / / / / / Î / / /
100 ~~~7 7'7- /J/f /B B / / ///Îlll ~~- ~~ /r z~/ / / /'1 /1 / 1 / / / / / / / / l
200
100
Scale 1,2.500 50 a 50
(mee rs)
BBm o ra l Resources Gresset Project
3—D Bo re nol e u lse E V Survey
Hale 5eoti on with ri mory fl e c
ol e: GR— 1 4-23, Loop 5 Survey Date April 2, 2014
Crane Geophysics 2c Explora~io n L~d ,
— ]
oa
z6
L9
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OO
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0096L9
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Aoa96L9
5540200N —
5540000N —
5539800N —
5539000N 4
5539400N —
5539200N —
Scale 1:10000 100 0 100 200
(meters)
7
Balmoral Resources Grasset project
3—D Borehole aulse -M Survey Boreho e & Loos Location Ma o
ole: GR-14-24 Survey Date: March 31, 2014
Crone Geophysics & Exploration Ltd.
679892E,5539957N G2-19--24
57977CE553967EN
\ ,./.. /i111f1P1f1P111 N.— -r /// 1 1 1 1 1 1 f 1 f 1 f 1
////171111f1f1 / 1 1 1 1 1 1 1 / 1/ 1 1 1 1 1 1
111 11 l 1 / y 1 1 1
/ // l l 1 / 1 1 1 / 1 1
/ / l l 1/ 1 1
/ / /11 1 /
~— ~7- 7 /1 1 //lll1/
7- 7- z/ / / / / 1 / /- / /ïl111
llllll z / /
/ / ~"é.o /4 / / l l l l 1 / / 725 / / // ~îr/~%//1/11
z'
/i/ / //llll ~ /i / /i/ /%llll
/
/ / / //1//1 x /f ~~~~/////1//1
~ / z / ~~~// //////1 ~ /// / /1 / /////llll
/i/,/ / / / /////1 , / /// 1171
/ ////1 /// /1/ // l l l l 1
200
100
0
100
Scale 1 ,2500 25 6 25 55
(meters)
Balm oral Resources
Grasset ro/ect
3—D Bcreho e buse EV Survey
Hole Section ri mort' Fie n
0 e: GR-1 4-2L , Loop 5 Survey Dote: March 51, 2014
Crone Geophysics dc Exploration Lt~,
— ]
oa
z6
L9
— A
OO
OO
g9
— A
0096L9
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Aoao6L9
—
]oa
17
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—
Aoa96L9
5540200N —
5540000N —
5539800N —
5539000N 4
5539400N —
5539200N —
Scale 1:10000 100 0 100 200
(meters)
7
Balmoral Resources Grasset project
3—D Borehole pulse -M Survey Boreho e & Loos Location Ma o
ole: GR-14-25 Survey Date: April 2, 2014
Crone Geophysics & Exploration Ltd.
679869E,554019,3N GR-14-25
679524E,55,39698N
\ rn \ \ \ \ \„ — / / / \\\\\\\N,--_ —at//
/
//
////
sr// / / /
2 ttt/////
- ~~-t t t / t i' / / / / 77////////
/ t t t t / / / / / /
7/'7/////////
/tttttt////// /ttttt/////// tttt/t/////// ttttt/l'//
Z////////////
/////////////
_t//t/////////
t / / / / / / / / / / / /
Scale 1:5000 100 100
(meters)
Balmoral Resources Grasset Project
O Porch() e se _VI Survey
e Section witn Primary =iele
Hale: 4-25,Loop 5 Survey Date: April 2 , 2014
200
100
0
—100
—200
—300
—400
—500
I 1 P t 11 t t t i iP
iP
iP
1P
iP
iP
iP
iP
iP
t t t t
3—
Ha
Crone Geophysics & Exploration Ltd.
Crone Geophysics & Exploration Ltd.
APPENDIX II
LINEAR (5-AXIS) PULSE EM DATA PROFILES
Geophysical Survey Report
lB
600 650 700 750 800 850 i i i i i i
a~
P-1 ~ a~
ns ~
—1 U a)
~ aJ G E~
g
C.)
ü un
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co -3
cn
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60.
40. —
20. —
0.
2000. —
1500. —
1000. —
500. —
0. I I I I
1000. —
800. —
600. —
400. —
200. —
0. 19
9
I I I I 10
I I I
20. —
15. —
10. —
5.-
1 1-5 0.
1.-
1-6 0.
—1. —
—2. —
—3. —
Balmoral Resources Grasset Project Loop 2014-1,Line 600E X Component
Crone Geophysics & Exploration Ltd.
550 80.
550 600
650 700 750 800
850
1
1-2
a~
P-1 ~ a~
ns ~
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~
co U un
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~ G
~
,-y ü ~ m m ~
a~ q C ~ G G
0.
—500.
—1000.
—1500.
-2000.
0.
—500.
—1000.
—1500.
—2000.
300.
200.
100.
0.
—100.
—200.
50.
40.
30.
20
10.
1.-
Balmoral Resources Grasset Project Loop 2014-1,Line 600E Z Component
Crone Geophysics & Exploration Ltd.
—
—
—
—
—
O. 1
2.-
—
—
-
—
5
—5
—
—
—
—
—
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—
—
NOE
0 -000 5000. —
-400 -200 200 00 600
—5000.
—10000. —
—15000. —
1000. —
0. ~
—1000. —
—2000. —
~
II
~ s ,
Balmoral Resources Grasset Project Loop 2014-1,Line 700E X Component
Crone Geophysics & Exploration Ltd.
-000 200000. —
-400 -200 0 200 00 600 i i i i i i
ii
100000. —
50000. —
—50000. -
Balmoral Resources Grasset Project Loop 2014-1,Line 700E Z Component
Crone Geophysics & Exploration Ltd.
I I I I I I I I I e iiiiiiiii
~ -100000.
4000.
3000.
co U un
2000.
,~ G7 a) O A E~ 1000. ~ G
~ 0.
80.
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G G
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0.
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—
—
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i_ I I I I I I I I I I i I I I I inr
100000. —
0.
—100000. —
—200000. —
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0. 1
i2
I I I I 1 1 1 1 1 1 1 1 1 I I 1 1 I
—500. —
—1000.
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60. —
40. —
1
~ —20.
6.-
4. —
2. —
—2. —
1000. —
0. i
—1000. —
—2000. —
—10000. —
2000. —
-600 -400 -200 0 200 400 600 500.—
Balmoral Resources Grasset Project Loop 2014-2,Line 100 X Component
Crone Geophysics & Exploration Ltd.
~
~ —20000.-
3000. —
—100000.
60000.
40000.
LC
20000. U
CL)
N \~ G E~ 0.
2000. —
1`—o'1000. —
co ü un
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0. g • G
~ —1000. —
50000.
0.
—50000.—
—
—
—
—
1—+1 11111111 41111
~
111111 1 1
--
3
1 I I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I I I I I I
120. —
80. —
40. —
0.
1
-600 -400 -200 0 200 400 600 100000. —
Balmoral Resources Grasset Project Loop 2014-2,Line 100 Z Component
Crone Geophysics & Exploration Ltd.
12. —
8.-
4.-
0.
—4. —
Balmoral Resources Grasset Project Loop 2014-2,Line 200 X Component
Crone Geophysics & Exploration Ltd.
a~
1000.
500.
0.
P-1 ~
n:s ~ —500.
—1000.
10000.
5000.
LC
. "-c-̀)
CL) ,T6
g (d
—5000.
~ —10000.
2000.
1000.
co U un
0.
N O A E~ —1000. ~ G
CJ —2000.
-600 —
-400 -200 0 200 400 600 i i i i i i
A .41L r ..
—
—
—
—
—
....+7=.~ ~
—
1
—
—
—
50000. P
0.
—50000.—
—100000. —
1—+1 I I I I I I I I I l I 1 1 I
30000. —
20000. —
10000. —
0.
-10000 —
3000. —
5-
2000. —
—1000. —
150. —
1000. —
~~ •
1 I I 1 1 I I I I I I I I I I I I I I I 1 1
—50. —
0. 1
100.
50. —
-600 100000. —
-400 -200 0 200 400 600 i i i i i i
Balmoral Resources Grasset Project Loop 2014-2,Line 200 Z Component
Crone Geophysics & Exploration Ltd.
1 1 1 1 ~111.•••.--
—1000. —
—2000. —
—3000. —
1000. —
0. ~
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Balmoral Resources Grasset Project
Loop 1, Hole GR-14-16 X Component
Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
120 140 160 180 200 220 240 i i i i i i i
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
4.1 0.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
80 —
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Crone Geophysics & Exploration Ltd.
~ 0 .
—20. —
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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20000.
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Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 Z Component
Crone Geophysics & Exploration Ltd.
2000. —
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0.
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Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 X Component
Crone Geophysics & Exploration Ltd.
a)
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0.
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6000.
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30000. —
20000. —
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0.
Balmoral Resources Grasset Project Loop 1,Hole GR-14-20 (Fluxgate) Z Component
Crone Geophysics & Exploration Ltd.
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100 125 150 175 200 225 250 275 8000.-
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Crone Geophysics & Exploration Ltd.
20000 —
15000. —
10000. —
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Crone Geophysics & Exploration Ltd.
150 175 200 225 250 2000. — i i i i
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Crone Geophysics & Exploration Ltd.
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Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 Y Component
Crone Geophysics & Exploration Ltd.
—
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Crone Geophysics & Exploration Ltd.
180 200 220 240 260 280 300 320 0. 1 1 1 1 1
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Balmoral Resources Grasset Project Loop 5, Hole GR-14-24 Y Component
Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
1\...71\H.1
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Crone Geophysics & Exploration Ltd.
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Crone Geophysics & Exploration Ltd.
APPENDIX III
PULSE EM DATA PROFILES (LIN-LOG SCALE)
Geophysical Survey Report
lB
550 600 650 700 750 800 850 i i i i i i i
0 ~ 0
11
1-i
1~-
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2
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âlmoral Resources Grasset Project Loop 2014-1,Line 700E X Component
Crone Geophysics & Exploration Ltd.
i
0 200 00 600 i i
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Crone Geophysics & Exploration Ltd.
i
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o 0
0 0 0 Q ,-~
200 400 600 -600 -400 -200
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Loop 2014-2,Line 100 Crone Geophysics & Expl
..s: Project fornponent
.ration Ltd.
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i Balmoral Resources Grasset Project Loop 2014-2,Line 200 X Component
Crone Geophysics & Exploration Ltd.
200 400 600 -200 -400 -600
~
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Crone Geophysics & Exploration Ltd.
0 O
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Crone Geophysics & Exploration Ltd.
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Loop 2014-2,Line 300
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tion Ltd.
-600 -400 -200 0 200 400 600 i i i i
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Crone Geophysics & Exploration Ltd.
i
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Crone Geophysics & Explo tion Ltd.
0 0 o- 0
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Balmoral Resources Grasset Project Loop 2014-2,Line 500 X Component
Crone Geophysics & Exploration Ltd.
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Balmoral Resources G Loop 2014-2,Line 500
Crone Geophysics & Expl
roject
ponent
tion Ltd.
-600 -400 -200 0 200 400 600 i i i i
i Balmoral Resources Grasset Project Loop 2014-2,Line 600 X Component
Crone Geophysics & Exploration Ltd.
-600 -400 -200 0 200 400 600 i i i i
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Crone Geophysics & Explo
roject
ponent
ion Ltd.
-600 -400 -200 0 200 400 600 i i i i
i Balmoral Resources Grasset Project Loop 2014-2,Line 700 X Component
Crone Geophysics & Exploration Ltd.
-600 -400 -200 200 400 600
Balmoral Resources Gra Loop 2014-2,Line 700 Z
Crone Geophysics & Explo
se roject
ponent
ion Ltd.
-600 -400 -200 0 200 400 600 i i i i
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Crone Geophysics & Exploration Ltd.
~J-
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Balmoral Resources Gra Loop 2014-2,Line 800 Z
Crone Geophysics & Explo
t .project
o ponent
a ion Ltd.
-600 -400 -200 0 200 400 600 i i i i
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Crone Geophysics & Exploration Ltd.
-600 -400 -200 200 400 600
•
Balmoral Resources Gras' Loop 2014-2,Line 900 Z C
Crone Geophysics & Explora
roject
panent
on Ltd.
-400 -200
0
200
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Crone Geophysics & Exploration Ltd.
-400
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Crone Geophysics & Exploration Ltd.
0 200 L00 -400 -200
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Crone Geophysics & Exploration Ltd.
-400
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Crone Geophysics & Exploration Ltd.
0 200 00 -400 -200
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Crone Geophysics & Exploration Ltd.
-400
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200
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Crone Geophysics & Exploration Ltd.
-400 -200 0 200 00
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Crone Geophysics & Exploration Ltd.
15
-400
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0
200
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Crone Geophysics & Exploration Ltd.
-400 -200 0 200 00
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H
H-
12
12
lv 12
2
P2 1-2
3 13
1-4 3 4 14 14
o_ -I 15 15 15 ~5
17 17 _ 17 17 - 17 16 1G--
17- 17
Balmoral Resources Grasset Project Loop 2014-3, Line 500E Z Component
Crone Geophysics & Exploration Ltd.
-400 -200
0
200
00
i Balmoral Resources Grasset Project Loop 2014-3, Line 600E X Component
Crone Geophysics & Exploration Ltd.
-400 -200
0
200 00
~ 0
-6
Q ~ O
7
B
ïl_
9
9
19
1-o
1:
o
0 0
i-2
13
3
~ ~
13 +6-
i5 15
1F 1R
0 0
0 0 0
Balmoral Resources Grasset Project Loop 2014-3, Line 600E Z Component
Crone Geophysics & Exploration Ltd.
-400
-200
0
200
L00
i Balmoral Resources Grasset Project Loop 2014-3, Line 700E X Component
Crone Geophysics & Exploration Ltd.
-400 -200 0 200 00
0 0 o- 0
4 4 4 4
6
~
0 0 ô
B
a
9-
9 9
16-
1 11 0 O-
42 12 12
13 1-a
44 1
1C ~ ~z 17 17 _- 4
Balmoral Resources Grasset Project Loop 2014-3, Line 700E Z Component
Crone Geophysics & Exploration Ltd.
11 ~4
12 42- 1-2
H 1-3
--16 7
-400
-200
0
200
L00
i Balmoral Resources Grasset Project Loop 2014-3, Line 800E X Component
Crone Geophysics & Exploration Ltd.
0 200 00 -400 -200
O ~0
3
_ PP
4-~
Salif 7 ~
19 14
GA CA
17
6
~
7-
O 0 Ô
1B
Balmoral Resources Grasset Project Loop 2014-3, Line 800E Z Component
Crone Geophysics & Exploration Ltd.
-400
-200
0
200
L00
i Balmoral Resources Grasset Project Loop 2014-3, Line 900E X Component
Crone Geophysics & Exploration Ltd.
0 200 00 -400 -200
P 3- 3
~ -7 -7
B- O 0 O
9 -9
16 49- 0 19
11 1--
12 12 1-2
12 1-3
17
15 w-. r O m
n2 E-~ b G ~ v d
37 .... 17 .._ 1~ 17 17 17
4
Balmoral Resources Grasset Project Loop 2014-3, Line 900E Z Component
Crone Geophysics & Exploration Ltd.
O O—
-400
-200
0
200
L00
i Balmoral Resources Grasset Project Loop 2014-3, Line 1000E X Component
Crone Geophysics & Exploration Ltd.
-400 -200 0 200 00
0 0 o 0 3
2
-4- 4
— 6
~
1B
0 O—
4
12 12
14 11
0 15
16 16 16 16 lfi 17 n
1-7 1-7 7 17 17 ,~ 17 ,J2 1~ ~ i
..~ . . L T-47 R ZIG r ~u
Balmoral Resources Grasset Project Loop 2014-3, Line 1000E Z Component
Crone Geophysics & Exploration Ltd.
-400
-200
0
200
L00
i Balmoral Resources Grasset Project Loop 2014-3, Line 1100E X Component
Crone Geophysics & Exploration Ltd.
15 --
0
~ 15 - -15 1-5 -1-5 1-5 w--1.. o m 1-6 10
1-G
17 7
-400 -200
0
200 00
0 0 o- 0
a-
2-
~
7- ~
0 o ~
8
9
10
0 o-
11 11 11 H 11 11
â2 ~ 13 13 1-3
o 0 o-
Balmoral Resources Grasset Project Loop 2014-3, Line 1100E Z Component
Crone Geophysics & Exploration Ltd.
-300 -200 -100 0 100 200 300 i i i i i i i
0 0 o 0
~—
0 o ~
6
7
7- ~
o o- r
~
~ eo
12
Ina an= -- -~ •
Balmoral Resources Grasset Project Loop 2014-4BF(Butterfly), Line 900E X Component
Crone Geophysics & Exploration Ltd.
-300 -200 -100 0 100 200 300
0 0 0
b O
O
O O
O O Q
Balmoral Resources Grasset Project Loop 2014-4BF(Butterfly), Line 900E Z Component
Crone Geophysics & Exploration Ltd.
I /
i
100 150 200 i
250 i
0 0 o-
~-
-----_____-
_e__-
~
0 0 0
,-1 01 0-
0 0 0-,-1 I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-16 Z Component
Crone Geophysics & Exploration Ltd.
0 0 0 0-,-1 I
100 150 200 i
250 i
0 0 o
o 0 ,-,
0 ,-,
I
I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-16 X Component
Crone Geophysics & Exploration Ltd.
100 150 200 i
250 i
Balmoral Resources Grasset Project Loop 1, Hole GR-14-16 Y Component
Crone Geophysics & Exploration Ltd.
100 120 140 160 180 200 220 240 i
Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 Z Component
Crone Geophysics & Exploration Ltd.
i
100 120 140 160 180 200 220 240 I I I I
i Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 X Component
Crone Geophysics & Exploration Ltd.
100 120 140 160 180 200 220 i i i
240 i
I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 Y Component
Crone Geophysics & Exploration Ltd.
0 0 o 0 I-I
-4 4-
o 0 I-1
0 ,-, I
0 0 ,-1
I
-------4-------------
80 100 120 140 160 180 200 i i i
I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 Z Component
Crone Geophysics & Exploration Ltd.
80 100 120 140 160 180 200 i i i
o 0- ,-1
1
21
0
i
I
0 0 0 0-,-1
I Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 X Component
Crone Geophysics & Exploration Ltd.
0 0 0 0 ,-1
,
----- V /~
_/~
o 0- ,-1
1
-----------..--
o 0 0-,-1 I
4
0 0 I
80 100 120 140 160 180 200 i i i
I Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 Y Component
Crone Geophysics & Exploration Ltd.
80 90 100 110 120 130 1L0 150 i i i
i Balmoral Resources Grasset Project Loop 1, Hole GR-14-19 Z Component
Crone Geophysics & Exploration Ltd.
80 100 120 1 60 i
1 L0
I Balmoral Resources Grasset Project Loop 1, Hole GR-14-19 X Component
Crone Geophysics & Exploration Ltd.
2
O O o-
2
__---____________
~,- _________
4 —4-7------- ci
a) ________----113-
0_
I ,,.
ô ~ 2 m
CQ ~ n2 ~ E-, b
v d
__-------
____--1-6
O
i
I
2
0_.1_____
—2i
0 0 0 0-,-1
0 0- ,-1
1-4-
80 100 120 1 60 i
1 L0
PP
1---~~ Z\~
\______..„------------__
0 0 O. 0 ,-,
---------rs
19--
0
I
P
0 0 —,
o 0 0- ,-1 I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-19 Y Component
Crone Geophysics & Exploration Ltd.
0 0 0 CD--, I
100 125 150 175 200 225 250 275 I I I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 Z Component
Crone Geophysics & Exploration Ltd.
i
125 150 175 200 225 250 275 i i i
i Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 X Component
Crone Geophysics & Exploration Ltd.
125 150 175 200 225 250 275 i i i
i Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 Y Component
Crone Geophysics & Exploration Ltd.
125 150 i
175 200 i
250 275 i
100 225
i Balmoral Resources Grasset Project Loop 1,Hole GR-14-20 (Fluxgate) Z Component
Crone Geophysics & Exploration Ltd.
100 125 150 175 200 225 250 275 I I I
i Balmoral Resources Grasset Project Loop 1,Hole GR-14-20 (Fluxgate) X Component
Crone Geophysics & Exploration Ltd.
0 0 o 0 ,-1
o 0 .,-1
„----,, ,22
C \ 2 b 0 d
,-1 I
0 0 .,-1
o 0 0 ,-1
I
100 125 150 175 200 225 250 275 i i i
I
Balmoral Resources Grasset Project Loop 1,Hole GR-14-20 (Fluxgate) Y Component
Crone Geophysics & Exploration Ltd.
150 175 200 225 250 275 300 325 i i i i
Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 Z Component
Crone Geophysics & Exploration Ltd.
i
150 175 200 225 250 275 300 I I I I I
i Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 X Component
Crone Geophysics & Exploration Ltd.
I
0 a) ,-1 C/2
0 0 o— 0 ,-1
o 0 ~
0 0 ~
I _--
PP
150 175 200 225 250 275 300 I I I I I
I
Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 Y Component
Crone Geophysics & Exploration Ltd.
180 200 220 240 260 280 300 320 I I I
i Balmoral Resources Grasset Project Loop 5, Hole GR-14-23 Z Component
Crone Geophysics & Exploration Ltd.
180 200 220 240 260 280 300 320 I I I I I
0 o 0-,-1 ______---1-0
---------
o 0- ,-1
0 0 0-0 ,-1
1 0 ,-1- i
1
o 0 0-,-1 I
PP
Balmoral Resources Grasset Project Loop 5, Hole GR-14-23 X Component
Crone Geophysics & Exploration Ltd.
O O O Q ,-a I
180 200 220 240 260 280 300 320 I I I I I
i Balmoral Resources Grasset Project Loop 5, Hole GR-14-23 Y Component
Crone Geophysics & Exploration Ltd.
150 100 250 200 300 i
Balmoral Resources Grasset Project
Loop 5, Hole GR-14-24 Z Component
Crone Geophysics & Exploration Ltd.
i
150 100 i
250 300 i
200 i
Balmoral Resources Grasset Project Loop 5, Hole GR-14-24 X Component
Crone Geophysics & Exploration Ltd.
i
150 1 00 i
250 300 i
200 i
0 0 o-
0 0 0-,-1
o 0- ,-1
01 0
o 0 0-,-1 I
Balmoral Resources Grasset Project
Loop 5, Hole GR-14-24 Y Component
Crone Geophysics & Exploration Ltd.
0 0 0 0-,-1 I
100 i
200 400 300 i
500 i
Balmoral Resources Grasset Project Loop 5, Hole GR-14-25 Z Component
Crone Geophysics & Exploration Ltd.
i
100 400 200 300 500 i
Balmoral Resources Grasset Project Loop 5, Hole GR-14-25 X Component
Crone Geophysics & Exploration Ltd.
i
100 200 300 400 500 i
I
Balmoral Resources Grasset Project Loop 5, Hole GR-14-25 Y Component
Crone Geophysics & Exploration Ltd.
Crone Geophysics & Exploration Ltd.
APPENDIX IV
STEP RESPONSE DATA PROFILES
Geophysical Survey Report
lB
0 .
150 200 250 .
I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I
Dev
iati
on
( % Total Theore
tica
l)
4.-
3.-
2.-
1.-
~
~~
0. ~1 1 I32 1 5C3 4 I~ 1 1 1 1 ~ 1 S: 1 ,[3 I ~I' 1" 1 1 1 1 S2 1 SP I 1 1 1 1 1 I SI2 1 S-13-1
5.-
0.
19
Pu
lse
EM
Off
—ti
me
Channe
ls 1
7-2
2
-5. -
-20. -
Balmoral Resources Grasset Project
Loop 1, Hole GR-14-16 Z Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
&- _ O ,-,
100 150 200 250 ~ m ~ 2000. co u
czça o
0.
_ U U U ô 0:5 (0 a'-2000. —
O p4
U ~
4 • rd (2 ~ a c--) —4000.— II II II
Cn —6000. —
4.-
3.—
I I 1 SI2 I S13 I—~14 1~1 ~1 11 SI2 1 S1 3 I I 1 1 I 1 1 SI2 I SI3 I
20. —
15. —
a) 10. - ~ ~ ~ U I I m 5.
F4 p 0. ~ p
a • ~ —5.—
-t--1--r-
Balmoral Resources Grasset Project Loop 1, Hole GR-14-16 X Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
20. -
15. -
1 00 5000. -
u a ~
0.
150 200 250 .
~ --6-• U
Ed a'-5000. -
711
U E-
o ` 10000.
I I
,-~
u" 15000. -
~
1 0,2
c.F, 0 ô ~ ~ m G w ~ z G ~
o ~ + +
~ O a •- U)
Q
4.-
3.-
2.-
1.
I I~I S~
~12~ I I, 1 1 1 1 1S2 1 0.
—1.-
I I 1 S2 1 ,13 1 1 1 12 I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-16 Y Component
Crone Geophysics & Exploration Ltd.
220
240 100 40000. -
a m
u] 30000. -
c.)
Ed 120000. - ~ \ U (2 ~ —10000. - I I
,-~ 0.
40. -
20. -
120 140 160 180 200 i i i i i
- 20.
- 40.
- 60. -
5.
0.
-10.
- 15.
- 20.
2000. -
1500. -
1000. -
U a) 500. - \
I I I I I I I I I I I
Dev
iati
on fr
om
( % Total Theore
tica
l)
Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 Z Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
i J, 10.—
(07 O D â~ ti m 5. —
G ~ o id
r6 a •~ ~
~ Q ~
0.
—5.
100.
~ —100.
~ ~ U
w ~ 1) —200. O ,-,
~ ~ G
p —300. ~ p
• ,C
a ~ —400.
AA._d.„..,„......,___, G w ~
—
1 • m 15000. — co u .. a
â ~ ~ 10000.
~ ra U ~ U
ô ~ (0 a' 5000. —
o U 4 co (2 � a ~ 0. II II II
cf —5000. —
15. —
10. —
5.-
0.
—5.
—10. —
20. —
15. —
120 140 160 180 200 220 240 i i i i i i i
•
Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 X Component
Crone Geophysics & Exploration Ltd.
10.—
( % Total Theore
tica
l)
—10.
Dev
iati
on fr
om
—20.
—30.
—40. —
—10.
0,2
~ o ~ —15.
G
G w ~
o —(21 —20.
al
—) a) ~ —25.
2000. —
1500. —
~ 1000. - H ~ ~ U
I I m 500. O
N
~ \
~ ~ G W
-C C-.) -500. —
100 120 140 160 180 200 220 240 7-, ~ ~ 15000. I I I I co u
.. co a
â ~ cf.)10000. — As~.
~ 7,i 0-1-c U . 0
N 0:5(0U
~ 5000.—
~ _pco~
U F 4 E—,
1-1 0,_....
0. i i I I I I I I I I I I I I I I I I I I I I I I I
_111111,4111111116,,
II II II p, 12. ~ 121_, cf) -5000. —
Balmoral Resources Grasset Project Loop 1, Hole GR-14-17 Y Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
—5. —
8.—
6.—
50.
~ — 5 0 .
~ ~ U
w ~ ~ -100. O ~ \
~ ~ G
F4 p ̀-150.
~ p
C_) —200.
80 ~ 40000. — ~ a 0 Ei]; 30000. —
� • U Ed 120000. — � \ U 71 ~ ̀1_0000. —
I I
,-~
0.
20. —
100 120 140 160 180 200 i i i i i i
I I I I I I I I I
Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 Z Component
Crone Geophysics & Exploration Ltd.
80
20000.— u a
15000.-
-c ~ U
Ed 1'10000. ~ \ U (2
5000. — I I
,-~
0.
100 120 140 160 180 200 i i i i i i
—50.-
-100. - ~ ~ C„2
I °n' —150.
O ~ \
~ ~ G
F4 p —200. - LI)
-C
~ —250. —
Dev
iati
on fr
om
( % Total Theore
tica
l)
20.
15.
10.
5.
0 .
—5.
0 .
i i i i i i ~~29~
Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 X Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theo
reti
ca
l)
80 20000. —
a ~ Ei]; 15000. —
U U ~ 1'10000. — ~ \ U E-
5000. — I I
,-~
0.
100 120 140 160 180 200 i i i i i i
~
1.-
0.
7
d~ ~
0,2 ~ -
En O ~ G w ~ co 4 o 7d u
r6
~ Q ~
~ H ~ ~
I I
O ~
ci)
F4 p ~ p
0 ~
U m \
`
- 1 . -
—2. —
—3. -
—4.-
200. —
150. —
100. -
50.
0
2
i~~~ 1 1 r 1_7
—50.—
Balmoral Resources Grasset Project Loop 1, Hole GR-14-18 Y Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
80 90 100 110 120 130 1L0 150 i i i i i i i ~ m
,41 50000. —
co u
— • ~ m 40000. — a
0] iIr°°° o • -P
Z:,20000. Z:,20000.. co
— ~ E-11-1 II II II 10000. -
p, Q ~ H R Cf] 0.
T
i
15. —
10. —
5.-
—5. —
—10. —
5. -
4.—
20.
0.
~ —20. ~ ~
~ U I I
i- m —40.
O ~ \
~ ~ G
n~ p —60.
~ —80.
—
-
—
—
—
Balmoral Resources Grasset Project Loop 1, Hole GR-14-19 Z Component
Crone Geophysics & Exploration Ltd.
Pu
lse
EM
Off
—ti
me
Channe
ls 1
7-2
2
-40. -
0. 2
~
80 100 120 1L0 160 m 15000. - ,(0 ~ ~
ra 12-1 10000. - 7d RI .U. ~ ~ rx ~ °~
U 5000. -
U E 1
~ rd -(21 a 0.
II II II
— 5000.-
Dev
iati
on
( % Total Theore
tica
l)
10. -
5. -
0, S1 r
-5. -
-10. -
-15. -
4.—
3.—
2.—
1.—
40. -
20. - 17-
Balmoral Resources Grasset Project
Loop 1, Hole GR-14-19 X Component
Crone Geophysics & Exploration Ltd.
80 100 120 10 160
20000. - ~ _co • u .
a-j a
~ 15000. -
~ P-1.-0
~ 124
• ~ °~10000. T~ ~ PP
O Fi -p U
4 rd (2
E" a ~ 5000. - II II II
Cf- ] 0 , I I
10. -
5. -
( % Total Theore
tica
l)
0 .
-5. -
Dev
iati
on
- 10. -
- 15. -
4. -
3. -
2. -
1. -
60. -
40. -
Pu
lse
EM
Off
—ti
me
Channe
ls 1
7-2
2
20. -
-20. -
Balmoral Resources Grasset Project
Loop 1, Hole GR-14-19 Y Component
Crone Geophysics & Exploration Ltd.
100 40000. —
~ T
a m
30000. -
~ U Ed 120000. - ~ \ U c2 ~ —10000. - I I
,-~ cf)
125 150 175 200 225 250 275
. i .
•
_ ~
P
I I I I I I I I I I I I I I I I I I I I I I I I I I I I 0 .
8.-
6.-
-2. -
200. -
100. -
Dev
iati
on fr
om
( % Total Theore
tica
l)
B almoral Resources Grasset Project Loop 1, Hole GR-14-20 Z Component
Crone Geophysics & Exploration Ltd.
Dev
iati
on fr
om
( % Total Theore
tica
l)
300. -
200. -
f~
125 150 175 200 225 250 275 ~ m ~ 15000. I I I
~ u T~ ~~
a ~ ~i 10000. — .
-Z1 U ~~_ . ~ U
N ▪ Ix (0 ~ 5000. -
� • ~ U F � ~ ~~ � a0 0. i i i I I I I I I .. ~~ II II II p, 12. ~ 121_, cf) -5000. -
Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 X Component
Crone Geophysics & Exploration Ltd.
1 ~
2. -
17111-- 1
4. -
300. -
200. -
Dev
iati
on fr
om
( % Total Theore
tica
l)
4000.
a m
3000. -
o Ed a' 2000. - ~ \ U (2 ~" 1000. - I
,-~ 0. I I I I I I I I I I I
125 150 175 200 225 250 275
Balmoral Resources Grasset Project Loop 1, Hole GR-14-20 Y Component
Crone Geophysics & Exploration Ltd.
0.
U —20. —
`. —40. —
—60. —
0.
40. —
30. —
20. —
10. —
0.
—10. —
8. -
6. -
4.-
2.-
0.
—2. —
40. —
20. —
I I I I I I I I I I I
I I I
S4 4
150 175 200 225 250 275 300 325 , m ~ 25000. ----_ I I I I I I co u
— ~ m 20000. — W U U]
o ~ ~ 15000. — ~ ~ ~ °' x ~
ô ~ ô ~10000.—
4 co —(21 F a (.) II II II 5000. —
p, Q ,--1 P-, Cf]
Dev
iati
on fr
om
Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 Z Component
Crone Geophysics & Exploration Ltd.
( % Total Theore
tica
l)
Dev
iati
on fr
om
150 175 200 225 250 275 300
~ ~ 2000. i i i i i
(0 u T ~ ~ _ ~ ~
0.
~ •~
—8000. —
20.—
10. —
0. * i
—10. —
—20. —
—30. —
2.—
0.
i —2. —
0,2
cn O D â~ —4. G w ~
~ G ~ o
u
—6.— co
P. ;
~ Q
—8.—
40.
30.
20.
U a) 10.
Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 X Component
Crone Geophysics & Exploration Ltd.
ra o ~ Li) ~ 2000.
~ ~ ~ a) 4~
6-1Ix
~ ô —
4 Et (2 F a ~
II II II —6000. —
• Q H ~ Cf]
( % Total Theore
tica
l)
Dev
iati
on fr
om
( % Total Theore
tica
l)
10. -
150
75 200 225 250 275 300
15. -
1
Balmoral Resources Grasset Project Loop 5, Hole GR-14-22 Y Component
Crone Geophysics & Exploration Ltd.
Pu
lse
EM
Off
—ti
me
Channe
ls 1
9-2
4
180 200 220 240 260 280 300 320 � ~ 20000. —~~ i i i i
co u .. czç a
â ~ ~ 15000. —
7,i ra ~ U — ~ U • _p ~ 124 (0 1)10000. —
6 _p U E-,
4 rd 02 E" a ~ 5000. — II II II
(1, ü ,-1 E—, R, i/] 0, 1 1 1 1 1 I I I I I I I I I I I I I I I I I I I
5. — 1
10. —
( % Total Theore
tica
l)
5.—
Dev
iati
on
—5. —
—10. —
4.-
3.-
2.-
1.-
0
set
—1. —
Balmoral Resources Grasset Project
Loop 5, Hole GR-14-23 Z Component
Crone Geophysics & Exploration Ltd.
180 200 220 240 260 ~ -C-C) o. I I I I I I I I I i I
~
â (1)-
1000.
-Z1 •---c.3•.U. ~ U
ô~ (0 1)-2000. i—
~ 1D4
~ rd —(21 ~ a c--) —300D.—
II II II
U — 4000. —
15. —
10. —
280 300 320
Dev
iati
on fr
om
( % Total Theore
tica
l)
5.—
—5. —
— 10. —
2. -
1.— S4
iJ ~ i~i3
i i ------T----iI I12
10. —
5. —
~ ~ U
I I m —5 . O ~ \
~ G
p —10.— n) Er:
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Balmoral Resources Grasset Project Loop 5, Hole GR-14-23 X Component
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Crone Geophysics & Exploration Ltd.
APPENDIX V
CRONE INSTRUMENT SPECIFICATIONS
Geophysical Survey Report
C~ a
Crone Pulse EM
System Description
SYSTEM DESCRIPTION
The Crone Pulse EM system is a time domain electromagnetic method (TDEM) that utilizes an alternating pulsed primary current with a controlled shut-off and measures the rate of decay of the induced secondary field across a series of time windows during the off-time. The system uses a transmit loop of any size or shape. A portable power source feeds a transmitter which provides a precise current waveform through the loop. The receiver apparatus is moved along surface lines or down boreholes.
The transmitter cycle consists of slowly increasing the current over a few milliseconds, a constant current, abrupt linear termination of the current, and finally zero current for a selected length of time in milliseconds. The EMF created by the shutting-off of the current induces eddy currents in nearby conductive material thus setting-up a secondary magnetic field. When the primary field is terminated, this magnetic field will decay with time. The amplitude of the secondary field and the decay rate are dependent on the quality and size of the conductor. The receiver, which is synchronized to the off-time of the transmitter, measures this transient magnetic field where it cuts the surface coil or borehole probe. These readings are across fixed time windows or "channels".
SYSTEM TERMINOLOGY
Ramp Time "Ramp time" refers to the controlled shut-off of the transmitter current. Three ramp times
are selectable by the operator; 0.5ms, 1.0ms, and 1.5ms. By controlling the shut-off rather than having it depend on the loop size and current ensures that the same waveform is maintained for different loops so data can be properly compared.
The 1.5ms ramp is the normally used setting for good conductors. It keeps the early channel responses on scale and decreases the chance of overload. The faster ramp times of 1.0ms and 0.5ms will enhance the early time responses. This can be useful for weak conductors when data from the higher end of the frequency spectrum is desired.
Time Base Time base is the length of time the transmitter current is off (it includes the ramp time). This
also equals the on time of the current. Time bases are available for both 60Hz and 50Hz noise rejection respectively:
• 8.33ms (30Hz), 16.66ms (15Hz), 50ms (5Hz), 100ms (2.5Hz), 150ms (1.67Hz), 300ms (0.833Hz), 500ms (0.5Hz), 750ms (0.33Hz), 1000ms (0.25Hz)
• 10ms (25Hz), 20ms (12.5Hz), 50ms (5Hz), 100ms (2.5Hz), 150ms (1.67Hz), 300ms (0.833Hz), 500ms (0.5Hz), 750ms (0.33Hz), 1000ms (0.25Hz)
Since readings are taken during the off cycles, the time base will have an effect on the receiver channels. Normally, a standard time base is selected for the type of system and survey being used, but this can be changed to suit a particular situation. A longer time base is preferred for conductors of greater time constants, and in surveys such as resistive soundings where more channels are desired.
Zero Time Set The term "zero time set" or "ZTS" refers to the starting point for the receiver channel
measurements. It is manually set on the receiver by the operator thus allowing adjustments for the ramp times and fine tuning for any fluctuations in the transmitter signal.
Receiver Channels The rate of decay of the secondary field is measured across fixed time windows which
occupy most of the off-time of the transmitter. These time windows are referred to as "channels". These channels are numbered in sequence with "1" being the earliest. The analog and datalogger receivers measured eight fixed channels. The digital receiver, being under software control, offers more flexibility in the channel positioning, channel width, and number of channels.
PP Channel The PEM system monitors the primary field by taking a measurement during the current
ramp and storing this information in a "PP channel". This means that data can be presented in either normalized or normalized formats, and additional information is available during interpretation. The PP channel data can provide useful diagnostic information and helps avoid critical errors in field polarity.
Synchronization Since the PEM system measures the secondary field in the absence of the primary field, the
receiver must be in "sync" with the transmitter to read during the off-time. There are three synchronization methods available: cable connection, radio telemetry, and crystal clock. This flexibility enhances the operational capabilities of the system.
SURVEY METHODS
The wide frequency spectrum of data produced by a Pulse EM survey can be used to provide structural geological information as well as the direct detection of conductive or conductive associated ore deposits. The various types of survey methods, from surface and borehole, have greatly improved the chances of success in deep exploration programs. There are eight basic profiling methods as well as a resistivity sounding mode.
Moving Coil A small, multi-turn transmitter loop (13.7m diameter) is moved for each reading while the
receiver remains a fixed distance away. This method is ideal for quick reconnaissance in areas of high background conductivity.
Moving Loop Same as Moving Coil method, but with a larger rectangular transmit loop (100 to 300
meters). This method provides deeper penetration in areas of high background conductivity, and works best for near-vertical conductors. This method can be used in conjunction with the Moving In-loop survey for increased sensitivity to horizontal conductors.
Moving In-Loop A rectangular transmit loop of size 100 to 300 meters is moved for each reading while the
receiver remains at the center of the loop. This method provides deep penetration in areas of very high background conductivity, and works best for near-horizontal conductors. It can be used in conjunction with the Moving Loop survey.
Large In-Loop A very large, stationary transmit loop (800m square or more) is used, and survey lines are
run inside the loop. This mode provides very deep penetration (700m or more) and couples best with shallow dip conductors (<45 deg.) under the loop.
Deep EM A large, stationary transmit loop is used, and survey lines are run outside the loop. This mode
provides very deep penetration, and couples best with steeply dipping conductors (>45 deg.) outside the loop.
Borehole (Z Component only) Isolated Borehole: A drill hole is surveyed by lowering a probe down a hole and surveying it
with a number of transmit loops laid out on surface. The data from multiple loops gives directional information on the conductors.
Multiple Boreholes: One large transmit loop is used to survey a number of closely spaced holes. The change in anomaly from hole to hole provides directional information. These methods have detected conductors to depths of 2500m from surface and up to 200m from the hole.
3-D Borehole Drill holes are surveyed with both the Z and the XY borehole probes. The X and Y
components provide accurate direction information using just one transmit loop. Since the probe rotates as it moves down the hole a correction is required for the X-Y data. This is accomplished in one of two ways. The measurement of the primary field from the "PP" channel can be used to apply a "cleaning" algorithm to remove most of the secondary field contamination, and compare this to theoretical values. The amount of probe rotation is then calculated, and the correction can be made. The second method involves the use of an optional orientation tool for the X-Y probe. This attachment uses dip meters to calculate the probe rotation. A third method uses another rotation tool with integrated 3-axis accelerometers and 3-axis magnetometers which can be used to correct rotation on steeply dipping holes including vertical.
Underground Borehole Underground drill holes can be surveyed in any of the above mentioned borehole methods
with one or more transmit loops on the surface. Near-horizontal holes can be surveyed using a push-rod system.
Resistivity Soundings By reading a large number of channels in the centre of a transmit loop it is possible to
perform a decay curve analysis giving a best-fit layer earth model using programs such as ARRTI or TEMIX.
EQUIPMENT
Transmit Loops The PEM system can operate with practically any size of transmit loop, from a multi-turn
circular loop 13.7m in diameter, to a 1 or 2 turn loop of any shape up to 1 or 2 kilometers square using standard insulated copper wire of 10 or 12 gauge. The multi-turn loop is made in two sections with screw connectors. The 10 or 12 gauge loop wire comes on spools in either 300m or 400m lengths. The spools can be mounted on pack frame wire winders for laying out or retrieving.
Power Supply The PEM system has been produced in 2 varieties: high power (4.8 KW), and low power (2.4
KW). The low power PEM system normally operates with an input voltage from 24V to 240V with a maximum output current of 20 amps. For very low power surveys a 20amp/hr 24V battery can be used. The high power system operates on a continuously variable voltage input up to 240V with a maximum output current of 30 amps. The power supply requires a motor generator and a voltage regulator to control and filter the input voltage to the transmitter.
Specifications: PEM Motor Generator • (2.4 KW) 4.5 hp Robin EH34 engine, 120V 3-phase alternator • (4.8 KW) 11 hp Robin RGV6100 240V/120V generator (1-phase) • cable output to regulator • fuse type overload protection • steel frame • external gas tank
• optional packframe for low-power generator • wooden shipping box • unit weight: 33kg (2.4 KW); 81kg (4.8 KW) • shipping weight: 47kg (2.4 KW); 100kg (4.8 KW)
Specifications: PEM Variable Voltage Regulator • High Power
■ Continuously variable voltage output up to 240V ■ 30 amp maximum current ■ Integrated sealed aluminum case ruggedized for shipping ■ Shipping weight 18kg
• Low Power ■ selectable voltage between 24v and 120v ■ 20amp maximum current ■ anodize d aluminum case ■ padded wooden shipping box ■ unit weight 10kg; shipping weight 18kg
• fuse and internal circuit breaker protection • cable connections to motor generator and transmitter
Specifications: PEM Transmitter • High Power
■ Timebases • 8.33ms (30Hz), 10ms (25Hz), 16.66ms (15Hz), 20ms, (12.5Hz), 50ms (5Hz), 100ms
(2.5Hz), 150ms (1.67Hz), 300ms (0.833Hz), 500ms (0.5Hz), 750ms (0.33Hz), 1000ms (0.25Hz)
■ ramp times: 0.5ms, 1.0ms, 1.5ms ■ operating voltage: continuously variable input up to 240V ■ output current up to 30amp maximum ■ optional current control feedback system features constant current output with ±0.1 amp
precision ■ integrated sealed aluminum case ruggedized for shipping with shock protection
• Low Power ■ Timebases
• 8.33ms (30Hz), 10ms (25Hz), 16.66ms (15Hz), 20ms, (12.5Hz), 50ms (5Hz), 100ms (2.5Hz), 150ms (1.67Hz), 300ms (0.833Hz)
■ operating voltage: 24v to 120v ■ output current: 5amp to 20amp ■ anodized aluminum case ■ optional pack frame ■ unit weight 12.5kg; shipping weight 22kg ■ padded wooden shipping box
• monitors for input voltage, output current, shut-off ramp, tx loop continuity, instrument temperature, and overload output current
• automatic shut-off for open loop, high instrument temperature, and overload • fuse and circuit breaker overload protection • three sync modes:
■ built-in radio and antenna ■ cable sync output for direct wire link to receiver or remote radio ■ crystal clock connection with built-in optical isolation
Receiver The receiver measures the rate of decay of the secondary field across several time channels.
The Crone Digital Receiver, in use since 1987 uses software control, offering a variety of programmable channel configurations.
Specifications: Digital PEM Receiver • 26 bit (156dB) dynamic range • operating temperature -40°C to 50°C • built-in non-volatile memory • optional pack frame • unit weight 15kg; shipping weight 25.5kg • padded wooden shipping box • Menu driven operating software system offering the following functions:
• controls channel positions, channel widths, and number of channels ■ Timebases: 8.33ms (30Hz), 10ms (25Hz), 16.66ms (15Hz), 20ms, (12.5Hz), SOms (5Hz),
100ms (2.5Hz), 150ms (1.67Hz), 300ms (0.833Hz), 500ms (0.5Hz), 750ms (0.33Hz), 1000ms (0.25Hz)
■ ramp time selectable ■ sample stacking from 1 to 65536 ■ automatic gain and spike rejection ■ scrolling routines for viewing data ■ graphic display of decay curve and profile with various plotting options ■ routines for memory management • control of data transmission ■ provides information on instrument and operating status
Sync Equipment There are three modes of synchronization available; radio, cable, and crystal clock. The radio
sync signal can be transmitted through a booster antenna from either the PEM Transmitter internal radio or through a Remote Radio.
Specifications: Sync Cable • 2 conductor, 24awg, Teflon coated • approx. 900m per aluminum spool with connectors
Specifications: Remote Radio • operating frequency 27.12mhz • 12V rechargeable gel cell battery supply • fuse protection • sync wire link to transmitter • coaxial link to booster antenna • anodized aluminum case • unit weight 2.7kg
Specifications: Booster Antenna • 8m, 4 section aluminum mast • guide rope support • 1/4 wave CB fiberglass antenna • range up to 2km • coaxial connection to transmitter or remote radio
Specification: Crystal Clocks • heat stabilized crystals • 24V rechargeable gel cell battery supply
• anodized aluminum case • rx unit can be separate or housed in the receiver • outlet for external supplementary battery supply
Surface PEM Receive Coil The Surface PEM Receive Coil picks up the EM field to be measured by the receiver. The coil
is mounted on a tripod that can be positioned to take readings of any component of the field.
Specifications: Surface PEM Receive Coil • ferrite core antenna • VLF filter • 10khz bandwidth • two 9v transistor battery supply • tripod adjustable to all planes • unit weight 4.5kg; shipping weight 13.5kg • padded wooden shipping box
Surface SQUID sensor CSIRO 1-, 2- or 3- axis high-sensitivity superconducting sensor measures magnetic field in the sub-pT
range.
Specifications: Surface SQUID sensor • liquid nitrogen cooled, 12 hour operation between reservoir refills • low-noise floor —350fT/ ✓Hz • man-portable sensor and control system • moving loop, or large loop survey configuration • solid teflon non-magnetic housing • operational temperature range: -40°C to 40°C • total system packaged shipping weight (without liquid nitrogen): 62kg
Borehole PEM Z Component Probe The Z component probe measures the axial component of the EM field. The Z component
data is not affected by probe rotation so no correction is required.
Specifications: Borehole PEM Z Component Probe • ferrite core • dimensions: length - 1.6m; dia - 3.02cm (3.15cm for high pressure tested probes) • internal rechargeable NiCd battery supply • replaceable heat shrink tubing for abrasion protection • pressure tested for depths 1300m, 2000m, and 2800m • packaged in padded cover and aluminum tube • shipped in padded wooden box; total weight 17kg
Borehole PEM XY Component Probe The XY probe measures two orthogonal components of the EM field perpendicular to the
axis of the hole. Correction for probe rotation can be achieved by mathematical theoretical primary field reduction or more commonly with an attached orientation tool sensor.
Specifications: Borehole PEM XY Component Probe • ferrite core • dimensions: length - 2.01m; dia - 3.02cm • internal rechargeable ni-cad battery supply
• selection of X or Y coils by means of a switch box on surface or automatic switching with Digital receiver
• replaceable heat shrink tubing for abrasion protection • pressure tested for depths to 2800m • packaged in padded cover and aluminum tube • shipped in padded wooden box; total shipping weight 20kg
Specifications: Orientation Tool • 2 axis tilt sensors • accuracy ± 0.1 deg. • operating range -88 to -10 deg. • dimensions: length - 0.94m; dia - 28.5mm • packaged in padded cover and aluminum tube • shipped in padded wooden box; total shipping weight 14kg
Specifications: Rotation Angle Direction (RAD) Tool • integrated 3-axis accelerometers and 3-axis magnetometers • dip and roll accuracy: ±0.5°, azimuth accuracy: ±1.0° • operating range: all • simultaneous 3D magnetometer borehole survey by station • optional continuous logging mode • dual 3-axis sensors provide an alternative complete borehole Dip-Azimuth measurement • dimensions: length - 0.75m; dia - 31.8mm • packaged in padded cover and aluminum tube • shipped in padded wooden box; total shipping weight 14kg • NiCd battery provides all-day operation
• Length - 0.93m; dia - 28.6mm • Packaged in padded cover and aluminum tube • Shipped in padded wooden box; total shipping weight 14kg
Borehole Equipment To lower the probe down a drill hole requires a cable and spool, winch assembly frame and
cable counter. Borehole surveys also require equipment to "dummy probe" the hole before doing the survey.
Specifications: Borehole Cable • two conductor shielded cable • kevlar strengthened • lengths are available up to 2600m on three sizes of spools • shipped in wooden box
Specifications: Slip Ring • attaches to side of borehole cable spool providing a connection to the receiver while allowing the
spool to turn. • VLF filter • pure silver contacts
Specifications: Borehole Winch Frame • welded aluminum frame • removable axle • chain driven, 3 speed gear box • hand or optional power winding • hand brake and lock
• optional chain-gear safety cover • two sizes: standard for up to 1300m cable; large for longer cables • shipped in wooden box
Specifications: Borehole Counter • attaches to the drill hole casing • calibrated in meters • shipped in wooden box; total weight 13kg
Specifications: Dummy Probe and Cable • solid steel or steel pipe • same dimensions as borehole probe • shear pin connection to dummy cable • steel dummy cable on aluminum spool • cable mounts on borehole frame
• various lengths to 2600m on 3 spool sizes.
Crone Geophysics & Exploration Ltd.
APPENDIX VI STATEMENT OF QUALIFICATIONS
Geophysical Survey Report
Statement of Qualifications
I, Kevin Ralph, P.Geo do hereby certify that;
1. I am a permanent employee of Crone Geophysics &Exploration Ltd through their office at 2135 Meadow pine Blvd. Mississauga, Ont.
2. I am a graduate of Memorial University of. Newfoundland with a B.Sc. in Geology/ Geophysics in 1992.
3. I am registered as a Professional Geoscientist in the Province of Ontario
4. I have practiced my profession continuously since graduation. My relevant experience for the purpose of the report is:
• Chief Geophysicist, Crone Geophysics, Mississauga, ON: 2008-present
• Senior Project Geophysicist, Crone Geophysics, Mississauga, ON: 2002-2008
• ,Project Geophysicist, Crone Geophysics, Mississauga, ON 1995-2002
• Contract Geophysicist — Kevin Ralph, Flatrock, Nfld. 1992 to 1995
5. This report by A.M. Khan was prepared under my direct supervision, and all statements made in this report represent the best opinion and judgment of the author based on the information available at the time of writing of this report.
Kevin Ralph, B.Sc., P.Geo Geophysicist June, 2014
% . ~
7 : KEVIN RALPH 4 b PRACTISING MEMBER
0839 \o
A, Tr~ROQ • „.,
REÇU AU MRNF
I05 MAI 203
f.. ~ -Cil Y1 /4! DES TITRES MINIERS
1(19g/S0
Darin Wagner
CERTIFICATE OF QUALIFICATION Darin Wagner
Maple Ridge, BC, Canada
I, Darin Wagner, of Maple Ridge, B.C. do hereby certify that:
• I am a Geologist, and the President and CEO of Balmoral Resources Ltd. I have held this position since April 2010
• I am a professional geoscientist in good,standing in the Provinces of Ontario and Quebec
• I have obtained a B.Sc. in Earth Sciences from the University of Waterloo (1989) and an M.Sc. in Earth Sciences from Carleton University in Ottawa, Ontario (1993)
• I have been\a racticing geoscientist for 23 years
• t' have been involved with the planning and execution of the program described herein
• I have reviewed âÎl of the information from the work program carried out by Crone Geôphysics and Exploration Ltd. described herein and represent that the information contained herein is accurate to the best of my knowledge
Signed in V-ncouver > Ath, 2015,
REÇU AU MRNF
2 7 MAI 2015
•..I?ECTION DES TITRES MINIERS
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