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REPORT ON COMBINED HELICOPTER-BORNE

MAGNETIC, GRADIOMETER AND VLF-EM SURVEY

ATIKOKAN AREA NORTHWESTERN ONTARIO

for ATIKO GOLD MINES CORPORATION

by AERODAT LIMITED

November 17, 1988

8868 Kevin Killin Geophysicist

BaBHNweeea 2.12179 RAMSAY wright 0 1 0 C

TABLE OF CONTENTS

Page No. 1. INTRODUCTION 1-1

2. SURVEY AREA LOCATION 2-1 3. AIRCRAFT AND EQUIPMENT

3.1 Aircraft 3-1

3.2 Equipment 3-1 3.2.1 VLF-EM System 3-1

3.2.2 Magnetometer 3-2 3.2.3 Magnetic Base Station 3-2

3.2.4 Radar Altimeter 3-3

3.2.5 Barometric Altimeter 3-3

3.2.6 Tracking Camera 3-3 3.2.7 Analog Recorder 3-3 3.2.8 Digital Recorder 3-4

3.2.9 Radar Positioning System 3-5 4. DATA PRESENTATION

4.1 Base Map 4-1

4.2 Flight Path Map 4-1

4.3 Total Field Magnetic Contours 4-1

4.4 Vertical Magnetic Gradient Contours 4-2

4.5 VLF-EM Total Field Contours 4-3

5. GENERAL INTERPRETIVE CONSIDERATIONS 5-1

APPENDIX I - STATEMENT OF QUALIFICATIONS

APPENDIX II - PERSONNEL

LIST OF MAPS

(Scale: 1:10,000)

Maps

1. Photomosaic Base Map

2. Flight Lines Map

3. Total Field Magnetic Contours

4. Vertical Magnetic Gradient Contours

5. VLF-EM Total Field Contours

1 - 1

1. INTRODUCTION

This report describes an airborne geophysical survey carried out on

behalf of Atiko Gold Mines Corporation by Aerodat Limited.

Equipment operated included a vert ical magnetic gradiometer system

employing twin Cesium magnetometers, a VLF-EM system, a

tracking camera, a barometric al t imeter , a radar al t imeter and a

radar navigation system. Magnetic, altimeter and VLF-EM were

recorded both in d ig i t a l and analog form. Positioning data were

stored in d ig i t a l form and on VHS casse t te as well as being

recorded manually by the operator in f l i g h t .

The survey area was located in Hutchison, Ramsay, McCaul Town-

ships Northwestern Ontario. The survey was flown during the period

October 1 to October 7, 1988 a t a nominal l ine spacing of 100 metres,

and a t an azimuth of 0, 180 degrees. Coverage and data qual i ty were

considered to be well within the specifications described in the

contract.

The purpose of the survey was to record airborne geophysical data

over and around ground tha t is of in te res t to Atiko Gold Mines

Corporation.

1 - 2

A t o t a l of 72 0 kilometres of the recorded data were compiled in

map form and are presented as part of th i s report according to

specif icat ions outlined by Atiko Gold Mines Corporation.

2 - 2

2. SURVEY AREA LOCATION

The survey area is depicted on the index map shown below. The area

is 20 km east of Atikokan Ontario, in Hutchison, Ramsey and Mc-

Caul Tips. The area is accessible via a combination of road and

boat, or via f l oa t plane to a variety of lakes in the area.

3 - 2

3. AIRCRAFT AND EQUIPMENT

3.1 Aircraft

An Aerospatiale A-STAR 350D helicopter C-FEEN, owned and

operated by Canadian Helicopters was used for the survey.

Ins ta l l a t ion of the geophysical and ancil lary equipment was

carried out by Aerodat. The survey a i rc ra f t was flown a t a

mean terrain clearance of 60 metres.

3.2 Equipment

3.2.1 VLF-EM System

The VLF-EM system was a Herz Totem 2A. This ins t ru-

ment measured the t o t a l f i e ld and quadrature compo-

nent from two transmit t ing s ta t ions , providing two

channels of both l ine and ortho information.

The sensor was towed in a bird 12 metres below the

helicopter, 50 metres above the ter ra in . The t ran-

smitting s ta t ions used primarily were NSS (Annapolis,

Maryland, 21.4 kHz) for the l ine channels and NAA

(Cutler, Maine, 24.0 kHz) for the ortho channels.

3 - 2

3.2.2 Magnetometer

The Aerodat vert ical gradiometer system consists of

twin Cesium magnetometer sensors manufactured by

Scintrex, r igidly mounted on a towed bird system.

The ident ica l magnetometers are separated by a ver-

t i ca l distance of three metres. The sens i t i v i ty of

the magnetometer sensors is 0.01 gammas and the

vert ical gradient of the t o t a l magnetic f i e l d i s

measured to a sens i t iv i ty of 0.005 gammas/metre, or

be t te r , in f l i g h t a t a sampling ra te of 10 times per

second. The sensors were towed in a bird 30 metres

below the helicopter, 30 metres above the te r ra in .

3.2.3 Magnetic Base Station

A Geometries 803 proton precession magnetometer

was operated at the base of operations to record

diurnal variations of the earth 's magnetic f i e l d .

The clock of the base s ta t ion was synchronized with

tha t of the airborne system to f a c i l i t a t e l a t e r

correlation.

3 - 2

3.2.4 Radar Altimeter

A King KRA-10 radar altimeter was used to record

terrain clearance. The output from the instrument was

a l inear function of a l t i tude for maximum accuracy.

3.2.5 Barometric Altimeter

A Wrights Instrument 16007-212 barometric al t imeter

was used to record terrain clearance. The output

from the instrument was a linear function of a l t i -

tude for maximum accuracy.

3.2.6 Tracking Camera

A Panasonic VHS video camera was used to record f l i g h t

path on VHS casse t t es . The camera was operated in

continuous mode and the f iducia l numbers and time marks

for cross-reference to the analog and d ig i t a l data were

encoded on the video tape.

3.2.7 Analog Recorder

An RMS dot-matrix recorder was used to display the

data during the survey. In addition to manual and

time f iduc ia l s , the following data were recorded:

3 - 4

Channel Input Scale

VLT VLF-EM Total Field - Line 2.5%/mm

VLQ VLF-EM Quadrature - Line 2.5%/mm

VOT VLF-EM Total Field - Ortho 2.5%/mm

VOQ VLF-EM Quadrature - Ortho 2.5%/mm

RALT Radar Altimeter 10 f t ./mm

LC Lower Magnetometer Sensor-Coarse 25 nT/mm

LF Lower Magnetometer Sensor-Fine 2.5 nT/mm

UC Upper Magnetometer Sensor-Coarse 25 nT/mm

UP Upper Magnetometer Sensor-Fine 2.5 nT/mm

BALT Barometric Altimeter 5 ft./mm

LN Lower Magnetometer Sensor Noise .0125 nT/mm

UN Upper Magnetometer Sensor Noise .0125 nT/mm

GN Gradient Noise .05 nT/m/mm

3.2.8 Digital Recorder

A DGR-33 data system recorded the survey on magnetic

tape. Information recorded was as follows:

Equipment

VLF-EM

Magnetometer

Altimeter

Mini-Ranger

Interval

0.5 seconds

0.2 seconds

0.5 seconds

0.2 seconds

3 - 2

3.2.9 Radar Positioning System

A Motorola Mini-Ranger Radar navigation system was

u t i l ized for both navigation and track recovery. Tran-

sponders located a t fixed locations were interrogated

several times per second and the ranges from these

points to the helicopter were measured to an accuracy

of about 5 metres. A navigational computer

t r iangulated the position of the helicopter and

provided the pi lot with navigational information. The

positional data were recorded on magnetic tape for

subsequent f l i g h t path generation.

4 - 2

4. DATA PRESENTATION

4.1 Base Map

A photomosaic base a t a scale of 1:10,000 was prepared from

enlargements of aerial photographs of the survey area.

4.2 Flight Path

The f l i g h t path was derived from the Mini-Ranger posit ioning

system. The distance from the helicopter to two establ ished

reference locations was measured several times per second, and

the position of the helicopter calculated by t r iangula t ion . I t

i s estimated tha t the f l i g h t path is generally accurate to

about 5 metres with respect to the topographic d e t a i l of the

base map. The f l i g h t path is presented with f iduc ia l s for

cross-reference to both the analog and d ig i t a l data.

4.3 Total Field Magnetic Contours

The aeromagnetic data were corrected for diurnal variations by

subtraction of the d ig i t a l ly recorded base s ta t ion magnetic

prof i le . No correction for regional variation was applied.

The corrected profi le data were interpolated onto a regular

grid at a 25 m true scale interval using an akima spl ine

4 - 2

technique. The grid provided the basis for threading the

presented contours a t a 2 gamma interval .

The aeromagnetic data have been presented with f l i g h t path and

photomosaic base map.

4.4 Vertical Magnetic Gradient Contours

The vert ical gradient was computed by subtraction of the upper

sensor t o t a l f i e l d value from the lower sensor t o t a l f i e l d

value and dividing by the sensor separation of 3 metres to

obtain the value in nanoTeslas/metre.

The measured gradient prof i le data derived from the two high

sens i t iv i ty magnetometers were interpolated onto a regular

grid a t a 25 m true scale interval again using an Akima spline

technique. The gridded data were, in turn, contoured in .025

nanoTeslas per metre in tervals .

The aeromagnetic data have been presented with f l i g h t path,

and photomosaic base map.

4.5 VLF-EM Contours

The VLF-EM Total Field data measured from 2 s ta t ions were

interpolated onto a regular grid at a 25 m true scale interval

using an Akima spline technique. The grid provided the basis

for threading the presented contours a t a 1% contour in terval .

The electromagnetic data have been presented along with the

f l i g h t path and photomosaic base map.

1 - 2

5. GENERAL INTERPRETIVE CONSIDERATIONS

Total Field Magnetics

The t o t a l f i e ld magnetic maps show contours of the t o t a l f i e l d

using a high sens i t iv i ty magnetometer. Furthermore, a f ine

contour interval of 2 nanoTeslas was used.

The magnetic map is characterized by numerous magnetic fea tures

and should be careful ly correlated with exist ing geologic maps

of the area. Such correlations should prove extremely use fu l

for updating the known geology of the area.

Measured Vertical Gradient

The vert ical gradient map has the inherent advantage of def ining

contacts between d i f f e r en t l i thologie uni ts as well as enhancing

shorter spa t ia l wavelength features due to near surface bodies

of f i n i t e dimensions. Hence, the vert ical gradient map is a

use fu l supplement to the t o t a l f i e ld map.

VLF Electromagnetics

The VLF-EM method employs the radiation from powerful mili tary

radio t ransmit ters as the primary s ignals . The magnetic f i e l d

associated with the primary f i e ld is e l l i p t i ca l ly polarized in

the vicini ty of e lect r ical conductors. The Herz Totem uses three

5 - 2

coils in the X, Y, Z configuration to measure the t o t a l f i e l d and

ver t ical quadrature component of the polarization e l l ipse .

The re la t ively high frequency of VLF (15-25) kHz provides high

response factors for bodies of low conductance. Relatively "dis-

connected" sulphide ores have been found to produce measureable

VLF s ignals . For the same reason, poor conductors such as sheared

contacts, breccia zones, narrow f a u l t s , a l tera t ion zones and

porous flow tops normally produce VLF anomalies. The method can

therefore be used e f fec t ive ly for geological mapping. The only

relat ive disadvantage of the method l ies in i t s s ens i t iv i ty to

conductive overburden. In conductive ground the depth of explor-

ation is severely limited.

The e f f e c t of s tr ike direction is important in the sense of the

relat ion of the conductor axis relat ive to the energizing elec-

tromagnetic f i e l d . A conductor aligned along a radius drawn from

a t ransmit t ing s ta t ion will be in a maximum coupled orientat ion

and thereby produce a stronger response than a similar conductor

a t a d i f f e r en t s tr ike angle. Theoretically, i t would be possible

for a conductor, oriented tangent ia l ly to the t ransmit ter to

produce no s ignal . The most obvious e f f e c t of the s t r ike angle

consideration is tha t conductors favourably oriented with respect

to the transmitter location and also near perpendicular to the

5 - 3

f l i g h t direction are most clearly rendered and usual ly dominate

the map presentat ion.

The t o t a l f i e ld response i s an indicator of the existence and

position of a conductivity anomaly. The response wil l be a

maximum over the conductor, without any special f i l t e r i n g , and

strongly favour the upper edge of the conductor even in the case

of a re la t ively shallow dip.

The vert ical quadrature component over s teeply dipping sheet - l ike

conductor will be a cross-over type response with the cross-over

closely associated with the upper edge of the conductor.

The response is a cross-over type due to the f ac t tha t i t i s the

ver t ical rather than t o t a l f i e ld quadrature component tha t i s

measured. The response shape i s due largely to geometrical rather

than conductivity considerations and the distance between the

maximum and minimum on either side of the cross-over is re la ted

to t a rge t depth. For a given ta rge t geometry, the larger th i s

distance the greater the depth.

The amplitude of the quadrature response, as opposed to shape i s

function of ta rge t conductance and depth as well as the conduc

t i v i t y of the overburden and host rock. As the primary f i e l d

t ravels down to the conductor through conductive material i t i s

both a t tenuated and phase sh i f t ed in a negative sense. The secon-

dary f i e l d produced by th is a l tered f i e ld at the ta rge t a lso has

an associated phase s h i f t . This phase s h i f t is positive and is

larger for re la t ive ly poor conductors. This secondary f i e l d i s

a t tenuated and phase sh i f t ed in a negative sense during return

t ravel to the surface. The net e f f e c t of these 3 phase s h i f t s

determine the phase of the secondary f i e ld sensed a t the

receiver.

A re la t ive ly poor conductor in res is t ive ground wil l yield a net

positive phase s h i f t . A re la t ively good conductor in more conduc-

tive ground will yield a net negative phase s h i f t . A combination

is possible whereby the net phase s h i f t is zero and the response

is purely in-phase with no quadrature component.

A net positive phase s h i f t combined with the geometrical cross-

over shape will lead to a positive quadrature response on the

side of approach and a negative on the side of departure. A net

negative phase s h i f t would produce the reverse. A fur ther sign

5 - 5

reversal occurs with a 180 degree change in instrument orien-

ta t ion as occurs on reciprocal l ine headings. During d ig i t a l

processing of the quadrature data for map presentat ion th is i s

corrected for by normalizing the sign to one of the f l i g h t l ine

headings.

Respectful ly submitted, AERODAT LIMITED

November 17, 1988 Kevin Kill in, 8868 Geophysicist

APPENDIX III

CERTIFICATE OF QUALIFICATIONS

I, KEVIN J . KILLIN, cer t i fy that: -

1. I hold a B. Sc. (Hons.) in Geological Geophysics from the University of Western Ontario. I also attended the University of Toronto as a full-time student during which time I obtained credits in geology.

2. I reside at 255 Grey Squirrel Place in the city of Waterloo, Ontario.

3. I have been engaged in a professional role in the oil and minerals industry in Canada for the past two years.

4. I have been a member of the Prospectors & Developers Association since 1984.

5. The accompanying report was prepared from information supplied by Atiko Gold Mines Corporation and from a review of the proprietary airborne geophysical survey flown by Aerodat Limited for Atiko Gold Mines Corporation. I have not personally visited the property.

6. I have no interest , direct or indirect, in the property de-scribed nor do I hold securities in Atiko Gold Mines Corporation.

Signed,

Mississauga, Ontario Kevin J . Killin November, 1988 Geophysicist

FIELD

APPENDIX II

PERSONNEL

Flown - October, 1988

Pilot - Craig Nesbitt

Operator - Jake Langille

OFFICE

Processing - George McDonald, Data Production Manager

Report - Kevin Killin, Geophysicist

V Ontario

Ministry ot Report of Work I'Jonhern Development and Mines (Geophysical, Geological,

ooc

Geochemical and ExpenditJflWT"

Type of Surtfev(t)

52B

2 . 1 2 1 7 9 ^ -

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. ^ a h a i L j L k . i /hiiohi'nsc'^ "iu-. P r o t p B c t ^ i Licence No. ^

£ Addrett

Survey Company y Daté of Survîy (from & to) ~ l T o t a l Miloi of line Cut ^ oi . 09 SS îù on SS Day I Mo. Yr.

Name end Addreit of Author (of Geo-Technical report) Day I Mo. j Yr.

Special Provisions

For first survey;

Enter 4 0 days. (This includes line cutting)

For each additional survey: using the same grid:

Enter 20 days (for each)

Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Days per Claim

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey;




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Man Days

Complete reverse side and enter totalis) here

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^ ^ . ^ d i o m e t r i c

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2̂ 'SBCTIO!] Geochemical

Days per Claim

Man Days


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Airborne Credits " 2 CO CO

Note; Special provisions •• credits do not apply to Airborne Surveys.

Electromagnetic

Magnetometer

Radiometric

Days per Claim



Electromagnetic

Magnetometer

Radiometric

40



Electromagnetic

Magnetometer

Radiometric

4Ù



Electromagnetic

Magnetometer

Radiometric

Mining Claims Traversed (List in numerical sequence)

Expenditures (excludes powerjuipplnf l l Type of Work Performed

Performed on Clalm(() Aobu

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Celculation of Expenditure Day» Credits _ 3 R F c. f- ! V t ^ ' o D

Total Expenditure»

$ + 15 8 Initructionj

Total Dayi Credltt may be apportioned at the claim holder's choice. Enter number of dayi credltt per claim «elected In column! et right.

Date .

/ » r ' ( ? m Rec gentîgnature)

Certification Verifying Repo^

) u . n > / t l

feîtx? t 1 — X — 1 — t - f ^ f ;

I hereby certify that I have a pertonaTand intinfwte knowledge of the facts seMorih in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true.

Nam* end Postal Address of Parson Certifying

X CtcxrK.^ O s f a l b a ^ iCa \ S^ry/\ces aNio Date Certified

fMSt^lS}

Ministry o( • Northern Development and Mines

Ontario

Report of Work (Geophysical, Geological, Geochemlcal and Expenditur

OOOUMp(T««0. . J

TVP« of Surv«v(»l

W$804-HiUlO. — VJl

lntt|uctions: - Please type or print. - (f number of rr^tning cinims traversed

exceeds $pace on ttiis lorm, attach a list. Note: — Only days credits calculated in the

Expenditures" section may be entered the "Expend. Days Cr." columns.

Do not use shaded areas below.

Claim Holdert i f

^njhip or Ares

^oba L u Proipector'j Licenc« No. •—"it'% Licenc« N O .

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Survay Company /ac^ UÔ.HùlO Rà.^ J i s k c k a r . ^ ô t / ÇQ J j C o

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Namt and Addratt of Author (of Qeo-Tachnlcal report)

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Ministry ot fjorthern Development and Mines

Ontario

Report of Work (Geophysics

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(Geophysical, Geol^cal, e r r ^ a l fSf*^ B $ » n d i t u r e s )

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Claim Holder(iî

ructioni: - Please type or print. / — 1( number of mining claims traversed

exceeds space on this form, attach a list. " Only days-credits calculated In the

• Expenditures" section may be entered in (he "Expend. Days Cr." columns.

- Do not use shaded areas below.

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Nam* and Addrats of Author (of G«o-T«chnlcal report)

Oste of Survey (f tpm t i to) 0 / 0 9 . Day Mo. | Yr.

516 09 S>8 Pay I Mo. I Yr.

Total Miles of line Cut

ôublcis Pi-\cUr , KTashugi^r., m.'ssi'^^.s^ccbp.jOfsf MV^ \R3 Credits Requested per Each Claitn in Columns at right Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Days per Claim

Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Speclcl Provisions

For first survey:




L O CvJ

Geophysical

- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Speclcl Provisions

For first survey:




L O CvJ

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- Electronugnetic

• Magnetometer

• Radiometric

• Other

Geological

Geochemlcal

Man Days > - ,-0 " •

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h^ u.i ; Q C D Cv;

R E C

Geophysical

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• Radiometric

• Other

Geological

Days per Claim

Man Days > - ,-0 " •


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h^ u.i ; Q C D Cv;

R E C

Geophysical

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Man Days > - ,-0 " •


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Geological

Man Days > - ,-0 " •


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• Electromagnetic

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Geological

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h^ u.i ; Q C D Cv;

R E C

Geophysical

• Electromagnetic

• Magnetometer

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Geological

Airborne Credits

Note: Special provisiois'î H credits do not apply

Magnetometer

iNDS SECTION Radiometric

Days per Claim

Airborne Credits


Magnetometer


f 0

Airborne Credits


Magnetometer


Airborne Credits


Magnetometer


Mining Claims Traversed (List in numerical sequence)

Expenditures (excludes power stripping) Type of Work Performed

Performed on Claim(i)

Calculation of Expenditure Oayi Credits

Total Expenditures Total

Days Credits

$ + 15 c Instructions

Total Day» Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected In columns at right.

Date r Â o K t (Signature)

Mining Claim Prefix Number

mm

m

!'. '--hi'-'

Expend, Days Cr,

Total number of mining claims covered by this report of work.

1 hereby certify that 1 have a p e r s q ^ e n d intimate knowledge of the facts s e t ^ r t h in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true.

Nam* and Postal Address of P*r>On Certifying

"S. t i cx r r s C l a r k , OsfaW^fX^j ( - ^ ^ n l ^ ^ / r a 1-Se

TKvjLfNA^r S 'Ê Date Certified /

Û J ^ ^ / é / â S

C e r t l f i e d ^ ^ S l g t W ^ ^

Ministry ot Northern Development and Mines

Ontario

Report of Work (Geophysical, Geological, Geochemical and

W8804- ^ î d

Type of Survev(i)

Geochemical and Expenditures)' y ^ I " ! * '

2 . 1

tructions; - Please type or print. — )f number of mining claims traversed

exceeds space on this f o r m , a t t a c h e list, nly days - credits calculated in the Expenditures" section may be entered

the "Expend. Days Cr," columns. Do not use shaded areas below.

Claim HoldertsP

Address P l û r ç . • /3f^A/a t c

Township or Area / o A J a J S ^ ^ T l c v a C O

f^^i t j ( Proipoctor'» L icenceNo,

Survey Company A

dai L i é

Date o fSurvey ' ï f fôm & to) a ,09 J y i . . Day j Mo. I Yf. I Pay | Mo. | Vr.


N j m e end AddreM of Author (of Geo-Technical report)

^cabks Piich^r, Mashucc m/ss'ssouof^. . Credits Requested per Each Claim in Columns at right Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Days per Claim

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Special Proviiloni

For first survey:




Geophysical

• Electromagnetic

• Magnetometer

• Radiometric

- Other

Geological

Geochemical

Man Days

Complete reverse side and enter totaKs) here

L O CvJ

Miniswy ot Northern Development and Mines

Ontario

Report of Work {Geophysical, Geological, Geochemical and Expenditi

Typt of Survey!»

Claim Ho ldê f î iP

2.. 1217

DOCUMENT No./. . . ' " f p ' ' " ' -" number of mining claims traversed exceeds space on this form, attach a list.

Note: - Only days- credits calculated in the l^|,;^»

_ MinisUy 0l ' Nprthern Development and Mines

Onlario

Type o( Survev(i)

Report of Work (Geophysical, Geological, Geochemical and Expendi

lAAXiMfcNT NO. W8804- ^^^

Claim Holderti)"

2 . 1 2 1 ^ l R b r ) ^ . l ^ c ^

t l i lructlon$: — Please type or print. I - If number of mining clnims traversed I exceeds space on this form, attach a list.

Note: - Oply days credits calculated in the xpenditures" section may be entered the "Expend. Days Cr," columns, not use shaded areas below.

11 Note: - OpI

- Do I

i Llcenc« ô.

Addrai i

Survey Company P O k j n j b

Date of Survty (from & to) 0! , , # c56 ya ^^ Day j Mo. I Vf. 0»y | Mo. I Yr.


Mama and Addraii of Author (of Gao-Technical raport)

Credits Requested per Each Claim in Columns at right

Expenditures (excludes power stripping)

Special Provisions

For first survey:


For each additional survey: using the same grid;


Geophysical

• Electromaflnetic

• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Days per Claim

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Special Provisions

For first survey:




Geophysical


• Magnetometer

- Radiometric

- Other

Geological

Geochemical

Man Days

Complete reverse side and enter totaKsl herû

S^jcéïî ci-^ i£: : • -

I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Days per Claim

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Man Days



I'TuiTfiiP ^'Mf

Geophysical

• Electromagnetic

• Magnetometer

^ Ôometric

Geological

Airborne C r ^ A W ^ CO CXJ

Note: Special provisions credits do not apply to Airborne Surveys.

Electronnagnatic

Magnetometer

Radiometric

Days per Claim



Electronnagnatic

Magnetometer

Radiometric

40



Electronnagnatic

Magnetometer

Radiometric

40



Electronnagnatic

Magnetometer

Radiometric

Mining Claims Traversed (List in numerical sequence) Mininfl Claim Expand.

Days Cr

p i liil i i p f t ; 9S9.

I M S J I L

Typaof Work Performed

Parformad on Clalm(i)

Calculation of Expenditure Oayt Credits

Total Expanditurai Total

Days Credits

$ 15 e Instructions

Total Days Credits may be apportioned at the claim holder't choice. Enter number of days craditi per claim lelactad In columns at right.

É m

Pi ••hKri-h'i

/Q'^Sl^S

i M s m

I M S m

â Ê .

Mininfl Claim Prefix Number

I D S â l S k

\/OS4 2(0^1

{/OS^S'^ù

/ù54 I

m ^ i m

\ios4 m

Expend. Days Cr.

V

Total number of mining claims covered by this

.report of work.

Data R a c o r ^ d HolcMr O f A ^ n t Signature)

I b û ^ ÔS Certification Verifying R e p ^ o ^ o >

For Office Use Only ( . Total Days Cr. Recorded

I S 2 0

Date Recorded , Mining R e c o ^ r \ / Total Days Cr. Recorded

I S 2 0 O t a A p p r o ^ as Recydad B r a n c j ^ b l r e c ^ ^ ^ /

I hereby certify that I have a persoii^ end Intinwte knowledge ol the facts s,^forth in the Report of Work annexed hereto, having performed the work or witnessed samw during endMr after its completion and the annexed report is true.

Name and Postal Address of Person Cartlfyins

tiarrs C.lark, D v a l b a v j (nec lbc^ .c^d Omc.. f))IOH hc-Date Certified ' | Certified by ^ V^-r^/^ I

rwcas'tei

, Ministry ol f Northern Development

and Mines Ofi iar ioj

Report of Work (Geophysical, Geological,

DUUOMtNi MU. f W8904-

Geochemica) and Expenditures)

Tvp« Of Survey(«) ^ ^ ^

In tructions: - Please type or print. - If number oU mining claims traversed

exceeds space on this form, attach a list. Note: — Only days credits calculated in t h e

be entered ' columns.

Do not use shaded areas below.

Claim HoldortfF

Addratt

js) / , Note: — Only days credits calculai — . J / i i â ^ J l ^ É . ^ * "Expenditurcs" section may

in the "Expend. Days Cr.' M i n i n g A c t £ - Do not use shaded areas heloi,

ITownship or ^roa , - y j J

[Date of Survey (from & to) ~ iTo

/•}tjichmsotJ fioP fjSnbnLU, / J . •Prospector « LIcencoTJo.

Survey Company

J ^ n o M Uc^. Name and Addrei i of Author (of Oeo-Technlcal report)

'i)ou(i . hlaShac^m. , /lliSS'SSaULif)^ ÛK^ ^ JL^V / / ^ eri i t t Reniie«tprl npr F a r h H l a i m in f î n l i i m n î at r ioht M in inn f ! l a imt TrauorcoH fl !e« ir> mimorii^ol

Oi Pay I Mo. I Day I Mo. j Yr.


Credits Requested per Each Claim in Columns at right Special Provisions

For first survey:

Enter 40 days. (This includes tine cuttins)

For each additional survey: using the tanne srid:

Enter 2 0 days (for each)

Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Days per Claim

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Special Provisions

For first survey:




Ln

Geophysical

- Electromagnetic

• K^gnetometer

• Radiometric

• Other

Geological

Geochemlcal

Man Days .. ' •

Cor^etereverse skje-Bnd-çDttMotaKs) hâri

H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Days per Claim

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Man Days .. ' •


H - : i-Jî J

. 3 a n 1

MiNiNa I ^̂

Geophysical

• Electromagnetic

• Magnetometer

1 Vl£loDtrlc

2 i ® Geological

Airborne Credits

Note: Special provisions credits do not epply to Airborne Surveys.

Electromagnetic

Magnetometer

Radiometric

Days per Claim

Airborne Credits


Electromagnetic

Magnetometer

Radiometric

40

Airborne Credits


Electromagnetic

Magnetometer

Radiometric

4 0

Airborne Credits


Electromagnetic

Magnetometer

Radiometric

Expenditures (excludes power stripping)

Mining Claims Traversed (List in numerical sequence) Minlna Claim

Prefix

f ê

Number

iJllùLKÊ-

\iùioiiK

TB

1010698 1010699 1010700 1010701 1010702 1010703 1010704 1010705 1010706 1010707 1010708 1010709 1010710 1010711 1010712 1010713 1010714 1010715 1010716 1010717 1010718

1011361 1011362 1011363 1011364 1011365 1011366 1011367 1011368 1011369 1011370 1011371 1011372 1011373 1011374 1011375 1011376 1011377 1011378 1011379 1011380 1011381

1011382 1011383 1011384 1011385 1011386 1011387 1011388 1011389 1011390 1011391 1011392 1011393 1011394 1011395 1011396 1011397 1011398 1011399 1011400 1011401 1011402

1011403 1011404 1011405

1011408 1011409 1011410 1011411 1011412 1011413 1011414 1011415 1011416 1011417 1011418 1011419 1011420 1011421 1011422 1011423 1011424

Ministry of Northern Development and Mines

Ontar io

Geophysical-Geological-Qeochemical Technical Data Statement

Fi le_

i i s fa o

TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORT FACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT

TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.

Type of Survey(s) A i r b o r n e G e o p h y s i c s

Township or Area A t i k o k a n A r e a

Claim Ho lder (s ) R-A. Bernatcliez (K18156) , M.A. Bernatchez (K21528), G. Bernatchez (E31404) Survey Company Aerodat Limited Author of Report __Kevin K i l l i n Address of Author 3883 Nashua D r . . Miss i s sauga . ON Covering Dates of Snrvry October 1 - 7 . 1988

(linecutting to office)

Total Miles of Line Cut

SPECIAL PROVISIONS DAYS CREDITS REQUESTED Geophysical

-Electromagnetic ENTER 40 days (includes

-Electromagnetic

line cutting) for first —Magnptnmptpr

survey. —Radiometric

ENTER 20 days for each -Othe r additional survey using Geological same grid.

npnrhrmiral

AIRBORNE CREDITS (Special provision credits do t\ot apply to airborne lurveyi)

Magnetometer. -Electromagnetic. . Radiometric (enter days per claim)

DATE:. SIGNATURE:. Author of Report or Agent

Res. Geol.. .Qualifications.

Previous Surveys File No. Type Date Claim Holder

MINING CLAIMS TRAVERSED List numerically

(prefix) (number)

M

I

TOTAL CLAIMS-

B37 (85/12)

GEOPHYSICAL TECHNICAL DATA

GROUND SURVEYS - If more than one survey, spccify data for each type of survey

Number of Stations Number of Readings _

Station interval Line spacing

Profile scale

Contour interval.

>

O

fr<

M

Of ^

Instrument.

Accuracy — Scale constant.

Diurnal correction method.

Base Station check-in interval (hours).

Base Station location and value

Instrument

Coil configuration

Coil separation —

Accuracy

Method: • Fixed transmitter • Shoot back • In line • Parallel line

Frequency (specify V.L.F. station)

Parameters measured.

Instrument

Scale constant.

Corrections made.

Base station value and location

Elevation accuracy.

Instrument

^ Method • Time Domain D Frequency Domain O P Parameters - On time Frequency

N H - Off time Range. S H — Delay time.

Integration time.

Power. S O Electrode array.

Electrode spacing.

Type of electrode

SELF POTEN'i lAL

Instrument, Range.

Survey Method

Corrections made.

RADIOMETRIC

Instrument

Values measured.

Energy windows (levels)

Height of instrument Background Count.

Size of detector

Overburden (type, depth - include outcrop map)

OTHERS (SEISMIC, DRILL WELL LOGGING ETC.)

Type of survey

Instrument

Accuracy.


Additional information (for understanding results).

AIRBORNE SURVEYS

Type of survey(s) SEE REPQRT

Instrument(s)

Accuracy (specify for each type of survey)

(specify for each type of survey)

Aircraft used.

Sensor altitude-

Navigation and flight path recovery method.

Aircraft altitude Line Spacing.

Miles flown over total area Over claims only.

GEOCHEMICAL SURVEY - PROCEDURE RECORD

Numbers of claims from which samples taken.

Total Number of Samples.

Type of Sample. (Nature of Vlaterial)

Average Sample Weight

Method of Collection

Soil Horizon Sampled.

Horizon Development.

Sample Depth

Terrain

Drainage Development.

Estimated Range of Overburden Thickness.

ANALYTICAL METHODS Values expressed in: per cent

p. p . m . p. p . b .

a • •

Cu, Pb,

Others

Zn, Ni, Co, Ag, Mo, As,-(circle)

Field Analysis {.

Extraction Method.

Analytical Method-

Reagents Used

Field Laboratory Analysis

No. (

SAMPLE PREPARATION (Includes drying, screening, crushing, ashing)

Mesh size of fraction used for analysis

Extraction Method.

Analytical Method.

Reagents Used

Commercial Laboratory {_

Name of Laboratory

Extraction Method

Analytical Method

Reagents Used

.tests)

-tests)

-tests)

GeneraL General.

Marc A. Bernatchez

(74 Cl aims)

975487 975488 975489 975490 975491 975492 975493 975494 975495 975496 975497 975498

1045166 1045167 1045168 1045169 1045170 1045171 10451 72 1045173

975499 975500 975501 975502 975503 975504 975505 975506 975527 975528 975529 975530

1045174 1045175 1045176 1045177 1045178 1045179 1045180 1045181

975531 975532 977533 975534 975535 975536 975537 97753B 975539 975540

1045182 1045183 1045184 1045185 1045186 1045187 1045188 1045189

1054839 1054840 1054841 1054842 1054843 1054844

1054845 1054846 1054847 1054848 1054849 1054850

1054851 1054852 1054853 1054854

Gerald H. Bernâtchez (E31404)

(44 t i a i w s )

982262 9B2263 982264 982269 982270 982271 982272 982273 982274 982275 982276 982277

104bl 90 1045191

1045192 1045193 1045194 1045195 1045196 1045197 1045198 1045199 1045200

1054856 1054857 1054858 1054859 1054860

1054861 1054862 1054863 1054864 1054865 1054866 1054867 1054868 1054869 1054870 1054871 1054872 1054873 1054874 1054875 1054B76

Raymond A. Bernatchez (K18156)

(5 Cl aims)

975388 975390 975417

989817 989819

s § a B

i (K o


Ontario

Geophysical-Geological-Geochemical Technical Data Statement

F i le_



Type of Survey{s) Airborne Geophysics Township or Area S a b a w i L a k e A r e a

Claim Hnlrier(s) Raymond A. Bernatchez (K18156)

Survey Company Aerodat Limited Author of Report K e v i n K i l l i n

Address of A u t h o r 3883 Nashua Dr . , Miss i s sauga , ON Covering Dates of Survey^

Total Miles of Line Cut

October 1 - 7 , 1988 (linecutting to office)

SPECIAL PROVISIONS DAYS CREDITS RF.QUESTED Geophysical

-Electromagnetic. — ENTER 40 days (includes

-Electromagnetic. —

line cutting) for first — M a g n p t n t n p f p r

survey. —Radiometric

ENTER 20 days for each -Other additional survey using G p o l o g i r a l same grid.

O p n r h p m i r a l

AIRBORNE CREDITS (Special provision credits do not apply to airborne lurvey»)

Magnetometer. -Electromagnetic. . Radiometric

DATE:.

(enter d a y j per claim)

SIGNATURE:. Author of Report or Agent

Res. GeoL. .Qualifications.



. . T B . . . , (prefix)

975381 9 7 5 3 8 ^ " ' " '

975383

975384

975385

975386

975387

989816

989818

989820

989821

989822

989823

989824

989825

TOTAL CLAIMS.

B37 (85/12)


GROUND SURVEYS If more than one survey, specify data for each type of survey

Number of Stations Number of Readings __

Station interval Line spacing

Profile scale

Contour interval.

(J

S Z

S s §

>

O

Instrument.

Accuracy - Scale constant.




Instrument

Coil configuration

Coil separation

Accuracy

Method: • Fixed transmitter • Shoot back • In line • Parallel line

Frequency— — (specify V.L.F. station)


Instrument.

Scale constant

Corrections made.


Elevation accuracy.

Instrument

2; Method • Time Domain • Frequency Domain O P Parameters - On time Frequency

2 fc! ^ >

a « g ^

— Off time Range.

— Delay time

— Integration time

Power.

Electrode array —

Electrode spacing.

Type of electrode

% SELF POi KN'i lAl.

Instrument. Range.

Survey Method

Corrections made.

RADIOMETRIC

Instrument

Values measured

Energy windows (levels)

Height of instrument Background Count.

Size of detector

Overburden (type, depth - include outcrop map)

OTHERS (SEISMIC, DRILL WELL LOGGING ETC.)

Type of survey

Instrument

Accuracy.


Additional information (for understanding results).

AIRBORNE SURVEYS

Type of survey(s)

Instrument(s)

Accuracy

SEE REPORT

(specify for each type of survey)

{specify for each type of survey)

Aircraft used.

Sensor altitude-

Navigation and flight path recovery method.

Aircraft altitude Line Spacing.

Miles flown over total area Over claims only.



Total Number of Samples. Type of Sample.

(Nature of Material)


Method of Collection.


Horizon Development.

Sample Depth

Terrain

Drainage Development. Estimated Range of Overburden Thickness.

ANALYTICAL METHODS Values expressed in: per cent D

p. p.m. D p.p.b. •

Cu, Pb,

Others


Field Analysis (.

Extraction Method.

Analytical Method-

Reagents Used

Field Laboratory Analysis No. (


Mesh size of fraction used for analysis

Extraction Method.

Analytical Method _

Reagents Used

Commercial Laboratory (_

Name of Laboratory

Extraction Method

Analytical Method

Reagents Used

.tests)

-tests)

-tests)

GeneraL General.


Ontar io

Geophysical-Geological-Geochemical Technical Data Statement

F i l e _



i B §

h tu O

Type of Survey(s) Airborne Geophysics Township or Arra Atikokan Area Claim HnlHerfs) James Martin (E31969), Greg L.

J a s k i (E31393), Costy Bumbu(29002) Survey nnmpany Aerodat Limited Author of Report Kevin K i l l i n Address of Author 3883 Nashua Dr . , Miss i ssauga , ON Covering Dates of Survey.

Total Miles of Line Cut__

October 1 - 7 . 1988 (linecutting to office)

SPECIAL PROVISIONS DAYS CREDITS REQUESTED _ , . , per claim Geophysical

-Electromagnetic ENTER 40 days {includes

-Electromagnetic

line cutting) for first —Magnptnmptpr

survey. -Radiometric.

ENTER 20 days for each -O the r additional survey using f îpnlngir ; i l same grid.

f;pnrKf>miral

AIRBORNE CREDITS (Special provision crédits do not apply to airborne turveyi)

Magnetometer. .Electromagnetic, . Radiometric

DATE:.

(enter days per clain>)

SIGNATURE:. Author of Report or Agent

Res. Geol.. .Qualifications.



(prefix) (number)

«

TOTAL CLAIMS.

837 (85/12)


GROUND SURVEYS - If more than one survey, spccify data for each type of survey

Number of Stations Number of Readings _

Station interval Line spacing.

Profile scale.

Contour interval _

U ^ H U

I S Q

S o

o

- a Pi M

Q| S U Ï

a

oi

Instrument

Accuracy — Scale constant

Diurnal correction method



Instrument

Coil configuration

Coil separation

Accuracy

Method: • Fixed transmitter • Shoot back D In line • Parallel line

Frequency. (specify V.L.F. station)


Instrument.

Scale constant.

Corrections made.

Base station value and location .

Elevation accuracy.

Instrument

Method • Time Domain • Frequency Domain

Parameters - On time Frequency

- O f f time Range

— Delay time

— Integration time.

Power

Electrode array —

Electrode spacing

Type of electrode


GROUND SURVEYS - If more than one survey, specify data for each type of survey

Number of Stations. Number of Readings _

Station interval __Line spacing

Profile scale

Contour interval.

0

1 Q

M J a

o

z

2

05 i l

o

S g «

Instrument

Accuracy — Scale constant,




Instrument _

Coil configuration

Coil separation

Accuracy

Method: D Fixed transmitter Q Shoot back D In line Q Parallel line

Frequency {specify V.L.F. station)


Instrument.

Scale constant.

Corrections made.


Elevation accuracy.

Instrument —

Method • Time Domain • Frequency Domain

Parameters - On time Frequency

— Off time Range

— Delay time

— Integration time

Power — —

p Electrode array.

^ Electrode spacing

Type of electrode



Total Number of Samples.

Type of Sample. (Nature of Material)


Method of Collection


Horizon Development-

Sample Depth

Terrain

Drainage Development

Estimated Range of Overburden Thickness.

Mesh size of fraction used for analysis.

ANALYTICAL METHODS Values expressed in: per cent

p. p .m . p. p . b .

D • D

Cu, Pb,

Others


Field Analysis

Extraction Method.

Analytical Method-

Reagents Used

Field Laboratory Analysis

No. (


Extraction Method.

Analytical Method .

Reagents Used

Commercial Laboratory (_

Name of Laboratory

Extraction Method

Analytical Method

Reagents Used

.tests)

-tests)

-tests)

GeneraL General.

James Martin (E31969)

Costy Bumbu (E29002)

(131 Claims)

1010652 1010653 1010654 1010655 1010656 1010657 101065B 1010659 1010660 1010661 1010662 1010663 1010664 1010665 1010666 1010667 1010668 1010669 1010670 1010671 1010672 1010673 1010674

1010675 1010676 1010677 1010678 1010679 1010680 1010681 1 0 1 0 6 8 2 1010683 1010684 1010685 1010686 1010687 1010688 1010689 1010690 1010691 1010692 1010693 1010694 1010695 1010696 1010697

1010698 1010699 1010700 1010701 1010702 1010703 1010704 1010705 1010706 1010707 1010708 1010709 1010710 1010711 1010712 1010713 1010714 1010715 1010716 1010717 1010718

101.1361 1011362 1011363 1011364 1011365 1011366 1011367 1011368 1011369 1011370 1011371 1011372 1011373 1011374 1011375 1011376 1011377 1011378 1011379 1011380 1011381 1011382

1011383 1011384 1011385 1011386 1011387 1011388 1011389 1011390 1011391 1011392 1011393 1011394 1011395 1011396 1011397 1011398 1011399 1011400 1011401 1011402 1011403 1011404

1011405 1011406 1011407 1011408 1011409 1011410 1011411 1011412 1011413 1011414 1011415 1011416 1011417 1011418 1011419 1011420 1011421 1011422 1011423 1011424

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