I I I I I I I I I I I I I I I I I I

52F83NETO27 2.7286 NAPANEE LAKE 010

TECK EXPLORATIONS LIMITED

NORTH BAY, ONTARIO

ASSESSMENT REPORT

ON

YOUNGMAN OIL & GAS LTD. PROPERTY

LOWER MANITOU LAKE AREA

RECEIVED

MINING LANDS SECTION

by

T.N.J. Hughes

REPORT NO 937NB N.T.S. 52 F/3

1984-08-28

II ~ INTRODUCTION

The Youngman Oil and Gas Limited property is located in

I the Manitou Stretch area, approximately 44 miles south of

the town of Dryden. The property consists of 42 contiguous

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claims (Fig.2) recorded from September 9 to September

1983.

From January to March, 1984, a program of linecutting

and VLF-EM and magnetometer surveys was conducted.

The results of the geophysical surveys are discussed

and recommendations for further work are made in this

report.

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IThe southeast corner of the property is located

| approximately 1/2 mile from the Manitou Stretch on Lower

_ Manitou Lake. Access to Lower Manitou Lake is possible

along bush roads branching off Highway 812, which parallels

I the lake system approximately 10 miles to the east. Direct

access to the centre of the property is by float plane to

LOCATION AND ACCESS

Flossie Lake. Fixed wing aircraft are available in both

Dryden and Fort Frances.

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LOCATION MAP

SCALE = I 1,600,000

20 0 20 40

V_ INTERNATIONAL FALLS

Figure 1

NAPANEE LAKE AREA M-2469

9603 |729802 729801 1729600• I— •4k~-"J{Z_r~nj

|729807 '729808

—V L - -K \ IK

I Flostit1 i

r i i729828 '729629 (729650 1729631 |

' _ _ - I- - - -1- — — i..

TECK EXPLORATIONS LIMITED

CLAIM LOCATIONYOUNGMAN OIL ft GAS LTD.

Figure 2

I• PREVIOUS WORK

IThere is no rocord of previous work on the Youngman

property in Government reports or assessment files. Within

one and one-half miles southeast of the property, three gold

showings occur. These (Gold Standard North and South and

the Sairy Gamp) and other prospects in the area are

described in a report previously submitted to Youngman Oil

and Gas Limited (Burton and Hodge, 1983).

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TOPOGRAPHY AND VEGETATION

I Approximately one-fifth of the claim block is underlain

by Flossie Lake. The remainder is covered by a series of

sharp ridges and thin swamp-filled valleys with a maximum

relief of approximately 100 feet. Major vegetation consists

of spruce, balsam, cedar, poplar and birch trees with alders

I present as undergrowth. v

I 1984 EXPLORATION PROGRAM

Work Performed

ILinecutting

A grid consisting of 2.50 miles of baseline and 36.5

miles of cross lines and tie lines was established. Cross

I lines were spaced at 400 foot intervals and were picketed at

I 100 foot intervals.

| Geophysics

VLF-EM and magnetometer surveys were completed on all

" cross lines at 50 foot intervals. VLF-EM readings were

taken with a Geonics EM-16 using the Cutler, Maine

transmitter station. The results were Eraser filtered and

I plotted as raw data profiles and contoured filtered data.

' Magnetic readings were taken with a Uniroag II and were

corrected for diurnal change using a base station located at

Flossie Lake.

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Results

I Geophysics X

_ A total of 71 VLF-EM conductors were located. Eight of

these are possible bedrock conductors (N-03, 05, 17, 21, 29

and S-52, 58, 71) and the remaining 63 are caused by

surficial or weak ionic conductivity.

I_ One of the possible bedrock conductors (S-58) and 21 of

the surficial conductors are located in lakes and the

remainder are on land.

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The magnetic data was contoured to aid in interpreta-

tion of the geological trends. Localized highs in the

northwestern part of the property indicate a strike

I direction of N40 e E. With the exception of these localized

highs the magnetic pattern is flat indicating very little

I geological change across the property.

II CONCLUSIONS

VLF-EM and magnetic surveys revealed eight possible

bedrock conductors and a few magnetically high lenses. The

VLF-EM conductors may represent weak sulphide bodies or

I ionic conductors such as wet shear zones. Gold deposits in

the area are associated with both of these.

The magnetically high lenses may represent magnetite or

pyrrhotite-rich zones in the volcanics. As the Gaffney

I deposit is associated with a magnetite-rich zone, these

lenses may be important.

RECOMMENDATIONSI I

As a first step in the 1984 field program it is

recommended that the property be geologically mapped. In

conjunction with this, the VLF-EM conductors and high

I

magnetic pods on land should be prospected and sampled if

explained in bedrock.

REFERENCES

I Burton, G.B. and Hodge, H.J., 1983, Report on Manitou

Straits Property, Manitou Lakes Area, District of Kenora,

Ontario for Youngman Oil and Gas Limited.

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F TH-69

I I I I I I I I II I I I I I I I I I

GEOPHYSICS LEGEND

MAGNETOrV ETER SURVEY ( MAG.) SELF-POTENTIAL SURVEY (S.P.)_AM •dMiiiaA *M

foilllvi AitomotgrIMO •*«

M«O *8i|Ji**** IS*° *'•"'«'» 8aMin* IK*

Ntgttlv* An«mgl>M* »*«

INSTRUMENT i INSTRUMENT <Optnltr i ° OH'*'*' '

to* T •

NORTH ft EAST TILTS ' ,o>

°" "te" ——

SOUTH ft ••" V<WEST TILTS

INSTRUMENTOptr*tor *

ELECTROMAGNETIC SURVEY

.BROADSIDE ftE.M^•tOUitltn-

r tOlO Hi. •

\ \"rl»OHl. \ ft-'+i Trcmmimf feiHItti \ /I-i-'^J"*. trc«fii*i Irertrtt}.^ •'^.'^.^riJdlSSZ o

^s/-- e,,,*,i., „«<!,

<p«»t 1 t Clttunil /

* tMgiin / 1 \

/ ̂ '-. \ «««/ S

*X7 ' V VV.' | \S

\—————————— liQOW -tOUnlH i INSTRUMENT i

OflrotOf i• C*ll >•>. >

J^LXED TRANSMITTER SHOOTBACK (Horizontal a Co-Axial)tO*y .

NORTH 6 EAST TILTS ' ,„.

0. 8^ ......

SOUTH ft l o* **••WEST TILTS

to*. ————

INSTRUMENTDfXtctor i

VERY LOW

NORTH ft - . wEAST TILTS ' ,,i \ 7

/TT-*. 1 1 MnTSOUTH ft ••* ' '

WEST TILTS

40* •

INSTRUMENTOpifolor iTi.- SUtlOfl I

* - METRIC

, SOIOHt. «***•Tit JO Hi.

•-..^r SSOHl.

\& ' **x«l£!i;i TmualMir rotttlen'f .. '^—* lilail trmmnm Q

•^•/ — -— fitilvtr frefilH,"* \ titcll Irertrlt

r SOIOHt.

l'/*\— Oif Angli frelilt

'•z$Z~-$ 1 ^!C""/i"*** 'NT'v* J "^C 1^/

• 1LV*BHM! C*|| |||,

————— t ———— — «tO*'

fcJT/i"" ""*' INSTRUMENT ,

1 Coll lt» i•

FREQUENCY (V.L.F.) MoxMin (H.E.M ).*»•

\ i \ y / 'irk^ ts |o it/ t I 4 ' »\\1-A.7 \ .^-"'»f\\\\ T-r

v- ft//»^ />«/»

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'P. 1 -x«t"«^S I Xtt--*^

\ | ^ OutefptiQit

T /\}^S 'V**'*

INSTRUMENT i0»ir*l»r * .

i C*ll Sip. i

1

VLF Electromagnetic Unit

rroineered and patented exclusively by Geonics Limited, the VLF method of elc:tromagnetic surveying has been proven to be a

tjor advance in exploration geophysical instrumentation,

ce the bejihning of 1965 a large number of mining companies have found th<j EM 16 system to meet the need for a simple, light Id effective exploration tool for mining geophysics.

%e VLF method uses the military and time standard VLF trans-

(' isions as primary field. Only a receiver is then used to measure secondary fields radiating from the local conductive targets, sallows a very light, one-man instrument to do the job. Because

of the almost uniform primary field, good response from deeper

tiets is obtained. The EM16 system provides the in-phaseand drature components of the.secondary field with the polarities

indicated. Interpretation technique has been highly developed

fticularly to differentiate deeper targets from the wealth of face indications.

IINCIPLE OF OPERATION

le VLF transmitters have vertical antennas. The magnetic signal component is then horizontal and concentric around the transmitter Bation.

1c !'^

rce of primary field: , VLF transmitting stations.fTransmitting stations used:

Iderating frequency range:

Parameters measured:

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IMe

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thod of reading:

range:

Any desired station frequency supplied with the instrument in the form of plug-in tuning units. Two tuning units can be plugged in at one time. A switch selects either station.

* • ,

About 15-25 kHz. •

(1) The vertical in-phase component (tangent of the tilt angle of the polarization ellipsoid).(2) The vertical out-of-phase (quadrature) component (the short axis of the polarization ellipsoid compared to the long axis).

In-phase from a mechanical inclino meter; out-of-phase from a calibrated dial. Nulling by audio tone.

Readability:

Reading time: 10 — 40 seconds depending on signalstrength.

Operating temperature range: - 40 to 50° C . .

Operating controls:

Power Supply:

Dimensions:

Weight:

Instrument supplied with:

In-phase + 150%; Out-of-phase + 40%. Shipping weight:

ON-OFF switch, battery testing push button and meter, station selector switch, volume control, quadrature dial + 40%, inclinometer dial + 150%.

6 size AA (pentight) alkaline cells. Life about 200 hours.

16 x 5.5 x 3.5 in (42 x 14 x 9 cm).

2.5!bs(1.1kg).

Monotonic speaker, carrying case, manual of operation, 3 station (elector plug-in tuning units (additional frequencies are optional), set of batteries.

10 Ibs (4.5 kg).

i -• i,.< i,.-.. /. /•/, '.•o.^f.'jjf •• '.•:/.;. •-v-rf^^'T^^"-.-.™. • •'•v'i;a^-,j./;7'™vl / '*>••..*. «*'Jr^«••'•<•• .•.*>?f?&rJVHj[,s?^. ^^'y^i^ff^'f•'!•"'•• ~'v MfPi*T^'»<~ .'

'^^'^&^fr&i^i^^Ji^1***^^

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cjko Metrics$1500 - complete system ready for field operation

• UniMag™ PROTON MAGNETOMETER• MODEL G-836

I I

Data Sheet March 1975

* Totally self-contained including sensor and batteries — no staff — no cables — no connectors — nothing else to carry.

* 10 gamma resolution and repeatability ~ High tolerance to local gradients.

* Push-button operation —visual numeric readout of earth's total field directly in gammas.

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5 I

* Extremely small size and light weight: less than 5

Ibs. (2.3 kg) rugged unitized construction.

Over 5,000 readings from inter nal rechargeable batteries —

separate plug-in AC battery charger included.

Absolute measurements of total magnetic field intensity independent ol orientation — no leveling — no

calibration — world-wide operation.

UniMag™ is a completely self-contained proton magnetometer for field survey applications. Its

innovative design incorporates a new high-gain sensor, rechargeable batteries and the latest-state-

of-the-art circuitry within a compact, hand-held, uni tized package. There are no staffs or external cables

required, yet UniMag provides ten gamma resolu tion and repeatability, simple push-button operation,

field reliability and world-wide accuracy at an attrac tively low price.

The unique portability and advanced technology of UniMag greatly enhances the overall capabilities of the field geo

logist, geophysicist, civil engineer, researcher and student. UniMag is well suited for mineral exploration, determination

of geologic structure, educational and research projects, ground follow-up of aerpmagnetic reconnaissance surveys

and many other applications where an uncomplicated, yet accurate magnetic measurement is required.

For othor ground and recording bnso station magnetometers, consider GooMotrlcs Models G-816 and G-826A.

I

selecting a suitable transmitter station as a source, the EM 16 r can survey with the most suitable primary field a/invjlh.

The EM16 has two receiving coils, one for the pick-up of the nor-

Eital (prin^M field and the other for detecting any anomalous lical seconSry field. The coils are thus orthogonal, and are unted inside the instrument "handle".

t; actual measurement is done by first tilting the coil assembly to >imi*e the signal in the vertical (signal) coil and then fi rther rpening the null by using the reference signal to buck out the lining signal. This is done by a calibrated "quadrature" dial.

,i • f i -r*VJ*J. .1

I IATION SELECTOR

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'r selection of 2 VLF stations insertion of proper plug-in

its, knob rotation allows switching.

RECEIVING COILS

vertical receiving coil circuit in in strument picks up any vertical signal present. Horiiontal receiving coil circuit, after automatic 9O" signal phase shift, feeds signal into out-of- phase dial in series with the receiv ing coil.

The tangent of the tilt-angle is the measure of the'vertical in-phase component and the quadrature reading is the signal at right angles to the total field. All readings are obtained in percentages and do not depend on the absolute amplitude of the primary signals present.

The "null" condition of the measurement is detected by the drop,t»-» the audio signal emitted from the patented resonance loudspeakei A jack is provided for those preferring the use of an earphone instead.

The power for the instrument is from 6 penlight cells. A meter is provided for testing the battery condition.

T T™!'10 - 0 + 10

IN-PHASE DIAL

shows the tilt-angle of the instru ment for minimum signal. This angle is the measure of the vertical in- phase signal expressed in percentage when compared to the horizontal Held.

OUT-OF-PHASE DIAL

is calibrated In percentage markings and nulls the vertical quadrature signal in the vertical coil circuit.

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EM 16 PROFILJg

over Lockport Mine property, Newfoundland

Additional case histories on request. MO'

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AREAS OF VLF SIGNALSCoverage shown only for well-known stations. Other reliable,

fully operational tt.itions exist. For full information regardingVLF signals in your area consult Gunnies Limitud. Extensive field

experience has proved that the circles of coverage shown arevery conservative and era actually much larger in extent.

SINGLE HANDEDPUSH-BUTTON

OPERATION

UniMag'" is the smallest, complete proton magnetometer ever developed; the only one that is entirely self-contained and features one handed operation. The operator simply holds

•UniMag in a comfortable survey position (no leveling is re-•quired) and pushes a button—a total field measurement is

digitally displayed that is always accurate to ten gammas, re gardless of operator experience. When not in use, UniMag

rn be carried from an adjustable shoulder strap, or stored the padded attache case.

Based upon the principle of nuclear precession, UniMag provides absolute drift-free measurements of the total field

•directly in gammas (the proton precession method is the of-•ficially recognized standard for measurement of the earth's

magnetic field). Operation is worldwide with the same resolu tion maintained throughout the operating range. There is no !3mperature drift, no set-up or leveling required, and no

djustment for orientation, field polarity or arbitrary reference .3vels. Only the proton magnetometer offers such reliability of measurement — only UniMag offers such field convenience,

packaging, small size, light weight and low price.I

COMPLETE FIELD MAGNETOMETER SYSTEM

I UniMag comes complete, ready for portable field survey oper- |ialion, and consists of:

1. Self-contained electronics console including sensor and Internal rechargeable battery pack.

2. AC battery charger.3. Adjustable carrying strap. A. Spare rechargeable battery pack. 6. Operator's manual, 64-pago Applications Manual lor

Portable Magnetometers, a nd padded attache case.

jeoMetrlcs 3»5 JAVA oniveSUNNVVAIF. CA 940MUSA(4061 7M-<8I«CAlHf -OrOMETHICS-SUNNYVAUmix no

SPECIFICATIONS

Resolution: 10 gamma throughout tuning range Tuning Range: 20,000 to 100,000 gammas (world-wide)Tuning Recessed multi-position switch with twenty-five Mechanism: overlapping stepsSampling Rate: Manual pushbutton, new reading every 4 secondsOutput: 4 digit, illuminated display, directly in gammas—

clearly visible even in direct sunlightPowerRequirements: 12V DC, 500 ma averagePower Source: Two internally mounted and replaceable 6 volt,

1 amp/fir non-spill gelled electrolyte batteries (Spare batteries included)

Low Voltage Readout display flashes an early warning to indicate Indicator: battery replacement or recharging is necessaryAC Battery Input: 115/220V, 50/60 Hz AC Charger: Output: 14V DC

Total Readings: 5,000 readings between recharging

O

Temperature Range:

Accuracy (Total Field):Sensor: Size:

Component Weights:

Price:Optional Accessories:

-40°to+60'CNOTE: Battery capacity decreases with

low temperature operation

10 gamma through -20" to + 60°C temperature rangeNoise cancelling, high signal

O

(54x6.8x12.7 cm)

UniMag™ Magnetometer • (w/sensor and battery pack)

$1500 Complete (F.O.B. factory)Battery belt for cold weather operation Spare battery packs Battery charger from 12V DC source (Prices available upon request)

IDS, 4.5

kgs, 2.0

GEOMETRICS INTERNATIONAL CORPBO ALFRED ST , WILSON S POINT

SYDNEY NSW ftMl PHONE »M W4J

ExploraniumK»M»W QOOMOUIOO H>MII«kU4llll

*M LIMESTONE CftESCEN DOWNSVIEW (TORONTO). ONTAHlO. CANADA

OrORLD-WIDE iONTS: EUROPE • SCANDINAVIA • AUSTRALIA • UNITED KINGDOM • JAPAN • SO. AFRICA • SO. AMERICA

V'ork

..w<pj0/-/d

ist. ihe ••-d

Type- o1 Survey(s)

Geophysical (EM & MAG)C'.fi'n-.'Ho'IrierUr"" """ "

R.J. Wright

S2F93NEM27 2 .7266 NAPANEE LAKE 900LaKe area - I'l^oiy

Prospector's Licence No.

A38823

P.O. Box 10, 1 First Canadian Place, Toronto, Ontario, M5X 1A2Survey Corr:pany Tbate of Survey (from & to)

I in ,m «_, •°- j•f

Teck Explorations Limited»<-r-,e trid ADC r f:.? c' Autho* io* GeoTf-c'.pIza! r€pori)

K. Thorsen, 2189 Aloonquin Avenue, North Bay, Ontario, P]B 423leriiu Requested per Each Claim in Columns at right J-.'iriing Claims Traversed (List in numerical sequence)

Totei Mile* of line Cut

38 - 9

Specie! Provisions

For first survey:

Enter 40 days. (Thisincludes line cutting)

For each additional survey:using the same grid:

Enter ?0 deys (for each)

Man Days

Complete reverse side end enter total(s) here

Geophysical D£ys per Ci&im

- Flectrornegnetic

- Mspnetorneier

_4Q.._20

- Rediometric

- Other

Geological

Geochemical

Geophyt-ieef

- E iecVome'Cfnetic

j

Airborne Credits

Note: Special provisions

- Rediometric

- Other

__ _ ______

DBVS per

L ._ _ __ __ ___

Geological

Geochemicsl

£ lectromagnetic

to Airborne Surveys. Magneiorrieief

R&diomeiric

Days perClaim

Expenditures (excludes power stripping)Type o< VVorl. PeHo'med

Performed on Claim(s}

Calculation o1 Expenditure Days Credits

Tote! ExpendituresTotal

Days Credits

nstructionsTotal Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected in columns at right.

f.'.ininj C '*\m Prefix 1 Number

K i 729596 .;.._72959_7__.__ ! 729598 •i 729599 •f 729600 -! 729801 *1 729802 -! 729803 '1 729804 *! 729805 ''; 729806_ L I 729807 ,! 729808 •: 729809 •! 729810 • .i 729811 •i 729812 ' •j 729813 •i 729814 •i 729815 •i 729816 .!___729817 •

729818 •

Expend. Days Cr.

——-

——

. —————

... _____

- ———

- —

______

- — —

* A729A/3

_.

4f 'i

AM•"'I- »_-^

M.-iing ClaimPrefix ] Number

K 729819 '

-•

1C E f\MJNl!,

.Jill '

729820 729821

*

729822 '729823 •729824 -729825 *729826 •729827 -729828

._729839_ 7298307298317298_32 _ 729833729834729835

•

•

———

*

729836 •729837 -

"D'R'A ic o;y.

.: , K ff; !> p, ftKl li

Tpti_l number of mining jI

Dfcys Cr.

----- --

.__.-.--.

42 1

Date

July 20, 1984Recorded Holder or /.gent (Signature)

Certification Verifying Report of Workhereby certify that 1 have a personal and intimate knowledge of the facts set forth in the Report of Work Bnnexe

or witnessed same during and/or after its completion and the annexed report is true., having Wrformed the work

Name and Postal Address of Person Certifying

K. Thorsen, 2189 Algonquin Avenue. North Bay. Ontario. P1B 4Z3Date Certified

Julv 20. 1984Certified by '.Signature)

_«&__«___»

Ministry ofNaturalResources

Ontario

Order of the Minister

The Mining Act

Room 6450, Whitney Block Queen't Park Toronto, Ontario M7A1W3 416/965-1380

In the matter of mining claims:

750971 to 89 1ncl 750990 to 751000 incl 759732 to 36 1ncl 729596 to 600 1ncl 729801 to 37 incl 729558 to 95 1ncl 729774 to 77 1ncl 729779 to 800 incl 754501 to 07 1ncl 729744 to 73 1ncl

1n the Areas of Barker Bay, Napanee Lake and Harper Lake.

R.J. WrlghtOn consideration of an application from the recorded holder,__under Section 77 Subsection 22 of The Mining Act, I hereby order that the time for filing reports and plans in support of

Geophysical (Electromagnetic & Magnetometer ) a^^m^^ work recorded on July 25.____ia 84 be extended until and including November 9, 19 84 .

coPie« :

loDate

Teck Explorations Limited 2189 Algonquin Avenue North Bay, Ontario P1B 4Z3

Mining RecorderMinistry of Natural Resources808 Robertson StreetBox 5080Kenora, OntarioP9N 3X9File Nos: 164-84-13, 14.

Signature of Director, Lend Management Branch

1 1 1 1 1 1 1 11 1 11 1 1

11

• \2>Ontario

1443

Type of Survey(s Township or Am Claim Holder(s)

Author of Reporl Address of Authc Covering Dates o

Total Miles of Lir

SPECIAL PROCREDITS REC

f, Ministry of Natural Resources' GEOPHYSICAL - GEOLOGICAL - GEOCHEMICAL

( TECHNICAL DATA STATEMENT

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.

•n-

1 Geophysical EM and Mag, Napanee Lake. Lower Manltou Lake Area

R.J. Wright

Teck Explorations LimitedT.N.J. Hughes

>r 2189 Algonquin Avenue, North Bay, Ont.rsnrvpy January to March, 1984

IP nut 39.0

VISIONS JUESTED

ENTER 40 days (includes line cutting) for first survey.ENTER 20 days for each additional survey using same grid.

(linecutting to office)

DAYS_ i • i per claim Geophysical—Electromagnetic- ... "—Mftfmrlnmeler____±V__ ra

— Radiometric_0tk^r

r,en\r>mra\

Op^rhTnical, ,„„ ,

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

Magnetometer F.Wrromagnetir .RaHinmetrir(enter day* per claim) /)

nATR . Sept. 28/84 MKWW, /Js/Atfa^

Res. Geol.Previous Surveys

A'utHbr of Report or Agent

Qualifications C^~ • ' ' v.-^c*C

File No. Type Date Claim Holder

MINING CLAIMS TRAVERSED List numerically

Kip'refix)

K..............T..........

K................r........K

•*«***if******** • V 1 ••••••••••»K

K................i;...........K,...............*...........K

...........K

• *••••••!••••••• «/ »tt«»«t*«t«

K...............T.......... K—————T""""

.............. T.........

K ..............T..........

———— T"™

K.............................

K

K................R...........K..............T..........K

TOTAL CLAIM

729596(number)

729597

.............?.?»..........,729600 7298P1729802 7298Q3*••••••*•» 1 1 1 1 •¥» Ti n rt «• 1 1 •••••••

729804 7298Q5729806.............7.aaaaz..........729808.............zaaaoa.........729810

729813 """"""72'98T4"""""

............729.81?..........t29818729819 .................?.y.i.?........../tyotU

729823....I...... i..<.7...Y.i.T.... ......729824

729826 .............729J&7...........

729828

729830 729831/OQO QVI CyQjL.729833•••"•"•"T2W3T"""'

72'9836700007

s «

iJ

1SJ

837 (5/79)

GEOPHYSICAL TECHNICAL DATA -

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

Station interval 50 ft t 100 ft___________________Line spacing.Profile *™le 1" = 50°_____________________________

Number of Stations VLF 3299, Maq 1558_________Number of Readings VLF 6598, Mag 3116 •

___________I Ir^nto..rinterval 100 QVtmas ( Mag). 10 Fraser Units (VLF)___________________________

^ Instrument Unlmag.IIP tf

GNETIC

ELE

VIT

G

HH

&o1—4W3 «

Diurnal correction method Base Station

Station check-in interval (hours)—*-4 hrsBase Station location and value Mam'tOU Island

Instrument VLF EM-16

Coil separation

17.8 kHz Cutler, Maine(specify V.L.F. rtation)

InstrumentScale constant.><Corrections made.

Base station value and location

accuracy.

f-i Parameters - On time ___________________________ Frequency<!

Off time __________________________ Range.

— Integration ti

array.Electrode spacing . Type of electrode

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Coil configuration Vertical and horizontal____________________________ |

Accuracy—"*^————————————————————————————————————————————————.—————_ I Method: K3 Fixed transmitter D Shoot back D In line D Parallel line

measured Vertical in-phase, vertical quadrature_________________________

IZ=I I^^^= I===== I

Method D Time Domain D Frequency Domain *

H= II

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I I I I I I I I I I

I I I IMM

I

SELF POTENTIALInstrument——————————————————————————————————————— 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——————————————————————————Parameters measured.

Additional information {for understanding results).

AIRBORNE SURVEYS Type of survey(s)___ Instrument(s) —————

(specify for each type of survey) Accuracy___________________

(specify for each type of survey) Aircraft used _________________________________________

Sensor altitude.Navigation and flight path recovery method.

Aircraft altitude______________________________Line Sparing Miles flown over total area________________________Over claims only.

GEOCHEMICAL SURVEY

Nnmhprs nf rlaims from whirh samples tak^n,..., „.„„„ ... _ .

T"tal ^lim^T «f Sai^plpi:,

Typp nf Samplp(Nature of Material)

Avpragp Samplp Wpight

M^th^d of rollPrfjop

Soil Horit/on SamplpH

Hori7"n Developmfnt. .Sample nppth

Terrain

nrain^P'" npupjnpmpnt

F.stimafH Rangp nf OvprhnrHpn Thirkncss

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

M^sh Wf "f fr^rtinn ^spH for analysis L ,

General..

- PROCEDURE RECORD ^

ANALYTICAL METHOPS

Values expressed in: per cent D p. p. m. D p.p.b. D

Cu, Pb, Zn, Ni, Co, Ag, Mo, As.-(circle)

nthprs

Fielrl Analysis (^ tetfi)

Extrartinn Mpthnrf ..__„..

Analytiral MpfVinH

Rpagpnts IIj?H

Field Laboratory Analysis No. (._., _ _„ _ ,. tests)Extraction Method.,.. ....Analytical Method , .,_....,.. _.,..., . ,.Rpagpnts IIspH.,

rommprrial I.ahnrafny ( fSts)

Name of Laboratory,

Extraction Method .... , ,Analytiral Method «.._„ , ...Rpagpnts IJsprf

General

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Mining Lands Section

Control Sheet

TYPE OF SURVEY

MINING LANDS, COMMENTS:

GEOPHYSICAL

GEOLOGICAL

GEOCHEMICAL

EXPENDITURE

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