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1.
32Ei3Nweees 2.12745 HOPPER LAKE 010
, 127 45
Westmin Resources Limited
Electromagnetic and Magnetic Surveys
South Detour Lake Claims
Hopper Lake Area G-1636
N.T.S.
Latitude
32 E/13
49 58'N
Longitude 79 47'30"W
September, 1989 'Mr R. Drury
R. H. McMillan1939
) SLC1 ION
1111111111111111111
2. IIIIIIIIIIIIIHIIIIIIIIIIIIIII!^^ aaEisNweees 2.12745 HOPPER
Table of Contents
List of Maps
Introduction
Property, Location and Access
Location Map
Table 1 - Property Status
Claim Map '
Grid Details, Instrument and Survey Specifications
Results and Interpretation
Conclusion
Appendix 1 - Comments on the MaxMin Results on theAdded Claims of the South Detour Property - J. Betz
Appendix 2 - List of Personnel
Certification - R. Drury
Certification - R. H. McMillan
Geophysical Instruments Specifications
illiniumLAKE 010C
Page
3
4
4
5
6
7 l
8
9
9
10
11
12
13
14
List of Maps
Map l Max-Min II Survey - f222 Hz 1:2,000 (in pocket)
Map 2 Max-Min II Survey - f3555 Hz 1:2,000 "
Map 3 Magnetometer Survey Permits 3:2,000 "
Map A Magnetometer Survey contoured 1:2,000 "
Map 5 VLF-EM Profiles 1:2,000 "
Map 6 Fraser Filtered VLF-EM 1:2,000 "
SUNDAY LAUE
Matagfami
o N T A-R i o X l 'NASH CREEK (Ont.)SOUTH DEYQUP/X 1\
i i
Tiiiiniiris
QUEBEC
Sault Ste. Marie
Sudbury
North Bay
Wcstmin Resources LimitedtASURN CANADA
LOCATION MAPDETOUR PROJECT
.. __j Sc*je l; S.OOO.OOO
J^IS^ _[Kit
Introduction:
The following report pertains to ground magnetic, VLF-EM, and Max-Min II data collected by Westmin Resources Limited on nine claims of the South Detour Project in the Lower Detour Lake Area (Map Sheet M2603) in the Porcupine Mining District. In September of 1988, nine claims were staked to tie onto one of Westrnin's existing claim blocks. A picket line, grid was cut on the property in January-February, 1989. Electromagnetic and magnetometer surveys were carried out within three weeks of the completion of the cut grid.
Property, Location and Access; (Figures l and 2, Table 1)
The South Detour Lake property of Westmin Resources is located 130km NNE of Cochrane, Ontario and 5km south of the Detour Lake Gold Mine. Access is available all year by fixed wing aircraft, and during the winter, by vehicle along the winter road. The Detour Lake Mine is accessible by an all-weather road from Cochrane, Ontario.
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Table l
Property Status;
Claims Assessment Apply to Each Claim 'Work Due Linecutting Mag VLF Max-Min
II
P.1087168 14 Sept. 1989 20 20 20 20P.1087169 " 20 20 20 20P.1087170 " 20 20 20 20P.1087171 " ' 20 20 20 20P.1087172 " 20 20 20 20P.1087173 " 20 20 20 20P.1087174 " 20 20 20 20P.1087175 " 20 20 20 20P.1087176 " 20 20 20 20
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Grid Details, Instrument and Survey Specifications;
A cut line grid was established with lines spaced every 100m along an east-west baseline and pickets every 25m along the north-south cross lines. A otal of 15.5 kilometres was cut.
The electromagnetic survey used a horizontal loop instrument, manufactured by Apex Parametrics (Max-Min II). The coil separation was 150m with readings taken, every 25m using frequencies 222Hz and 3555 Hz. A Geonics EM-16 VLF utilizing the Seattle, Washington transmitting station was used in the VLF survey. An EDA OMNI IV total field/base magnetometer unit was operated to collect the field data and another EDA OMNI IV total field/base magnetometer unit was used to correct the field data in accordance with the daily diurnal variation. Accuracy of this magnetics survey is ± 5nt. As well, a total field value was determined through tie-in readings at locations previously surveyed. The resulting difference was integrated into the field corrections. The magnetometer and electro-magnetic surveys covered approximately 13.8 kilometres.
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Results and Interpretation;
The Max-Min II data (Maps l and 2) has been reviewed (Appendix 1) by J. Betz, consulting geophysicist who concluded there are probable to definite bedrock conductors (zones of graphite and/or massive sulphides) which appear to form a tight fold in the northwestern part of the property, as well as a broad conductive area. The broad anomalous zone is due to a combination of thickened overburden and a bedrock unit which 'is less resistive, resulting in greater differential erosion, and consequently, thicker overburden.
The magnetic data is displayed on maps (3 and 4). The contours indicate a weak magnetic anomaly striking northwest-southeast along the southern part of the grid (57600-59200 gammas). The southwest limits of the grid appear to border an area of higher magnetic response not covered by this survey. The background field reading for this area is approximately 57550 gammas.
The VLF profile map (Map 5) suggests there are two weak short strike length conductors trending northwest - southeast on lines 4+OOW to 1+OOW at approximately 26+OON and on lines 700W to 1100W at 2800N. As well as the VLF profile map, a fraser filter contour map (Map 6) accompanies this report.
Conclusion:
The nine claims covered in this report were staked September 14, 1988. During January and February of 1989, a cut grid was established and Mag, VLF and Max-Min Surveys conducted over it.
The surveys have identified geophysical targets that should be tested by diamond drilling in the future.
Respectfully submitted by:
( Drurya
File Name: SD-SEP89
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JO.
Appendix l
Comments on the MaxMin Results on the Added Claims of the South Detour Property__________________
The conductor picture on the property is somewhat complex as can be seen on the attached plan. There are definite and probable bedrock conductors, e.g. zones of graphite and/or massive sulphides which appear to form a tight fold in the northwestern part of the property. There is also a conductive region in the northwestern section, but the data is insufficient to analyse this region fully. It is suspected, however that the - broad anomalous condition is due to a combination of thickened overburden and a bedrock unit which is a little less resistive both electrically and physicochemically than the neighbouring units. The physicochemical weakness in this unit has led to greater differential erosion, which in turn has led to a thicker overburden.
Certainly, the bedrock conductor picture in the northwest part of the property could be cleared up considerably by using a smaller coil separation and by adding additional lines in both the north-south and east-west direction. To achieve this, the property boundary would have to be expanded or at least some of the lines extended past the present boundary. The recommended coverage is shown on the attached plan.
In the absence of further geophysics immediately, a fence of about three holes along line 1100W between 2750N and 3150N would go a long way toward explaining the complex conductor picture in this area.
March 3, 1989. J. E. Betz.
llAppendix 2
List of Personnel
lWylde Exploration Linecutting January 1989
l Amos, Quebec
I R. Drury Magnetometer and February 1989 Toronto, Ontario VLF-EM Survey
- R. H. McMillan,l Report Joint Author
l G. Thibault Exploration Max-Min II February 1989
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Services, Timmins, Ontario
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CERTIFICATION
I, Rosemary D. E. Drury, of 2529 Lakeshore Blvd. West, Etobicoke, Ontario, certify the following:
l 1) I have practiced as a geological technician for nine years in Ontario, Quebec, Manitoba, and
the Northwest Territories.
l 2) I hold a Bachelor of Arts degree obtained from theUniversity of Guelph, Guelph, Ontario, in 1979.
3) I have conducted the VLF-EM and magnetic surveys and reviewed all data present.
4) I have no financial interest in the property l covered by this report.
September, 1989 ,_ - Roserrfiry DruSy
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CERTIFICATION
l, Ronald H. McMillan, of 1723 Hollow Oak Terrace, Mississauga, Ontario, L5J 4N3 , certify the following facts
1) I am a Professional Engineer registered with theAssociation of Professional Engineers of the
' Province of Ontario.
2 ) I ara a Member of the Society of Economic Geologists and the Canadian Institute of Mining and Metallurgy, and a Fellow of the Geological Association of Canada
3) I hold a B.Se. (Hon.Geology) obtained from theUniversity of British Columbia in 1962 and a Ph.D. (Mineral Deposits Geology) obtained from the University of Western Ontario in 1972.
4)1 have practised my profession continuously for the past 27 years in Canada, the United States, Australia and the Philippines.
5) I have supervised the work in the foregoing Report.
6) I have no direct financial interest in this
l
September 1989 fA/3
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nit
Pioneered and patented exclusively by Geonics Limited, the VLF method of electromagnetic surveying has been proven to be a major advance in exploration geophysical instrumentation.
Since the beginning of 1965 a large number of mining companies have found the EM16 system to meet the need for a simple, light and effective exploration tool for mining
' geophysics.
The VLF method uses the military and time standard VLF transmissions as primary field. Only a receiver is then used to measure the secondary fields radiating from the local con ductive targets. This allows a very light, one-man instrument to do the job. Because of the almost uniform primary field, good response from deeper targets is obtained.
The EM16 system provides the in-phase and quadrature components of the secondary field with the polarities indicated.
Interpretation technique has been highly developed particularly to differentiate deeper targets from the many surface indications.
Principle of OperationThe VLF transmitters have vertical antennas. The magnetic signal component is then horizontal and concentric around the transmitter location.
SpecificationsSource of primary field
Transmitting stations used
Operating frequency range
Parameters measured
Reading lime
Method of reading
Scale range
Readability
VLF transmitting stations.
Any desired station frequency can be 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 pt the tilt angle of the polarization ellipsoid).(2) The vertical out-of-phase (quadra ture) component (the short axis of the polarization ellipsoid compared to the long axis).
In-phase from a mechanical inclino meter and quadrature from a calibrated dial. Nulling by audio tone.
In-phase ± 150^; quadrature 40*54. Shipping weight
10-40 seconds depending on signal strength.
Operating temperature range 40 to 50* C.
Operating controls ON-OFF switch, battery testing push button, station selector, switch, volume control, quadrature, dial ± 40"5t, inclinometer dial
Power Supply
Dimensions
Weight
Instrument supplied with
6 size AA (penlight) alkaline cells. Life about 200 hours.
42 x 14 x 9 cm (16 x 5.5 x 3.5 in.)
1.6 kg {3.5 IDS.)
Monotonlc speaker, carrying casa, manual of operation, 3 station selector plug-in tuning units (additional fre quencies are optional), set of batlerle
4.5 kg (10 IDS!)
CEONICS LIMITED Designers f manufacturers of geophysical instruments
2ThomcliHe Park DriveToronto/Ontario/CanadaM4H1H2Tel: (416) 425-1821Cables: Gc-onic's
EViAXBVBIB\S ODPORTABLE EM
D Five frequencies: S22, 444, BBS, 1777 and 3555 Hz.
D Maximum coupled C horizontal-loop ) operation with reference cable.
C Minimum coupled operation with reference cable.
C Vertical-loop operation without reference cable.
C Coil separations: B5, 50,100,150, SOD and BSD m C with cable! or 100,200,300,000, BOO and BOD ft.
C Reliable data from depths of up to IBOm C BOO ft}.
D Built-in voice communication circuitry with cable.
D Tilt meters to control coll orientation.
i v'^-'V^i^^^S-,.,vu .^^r v^P^^^^^'V --- ^ --v- -- i .! - -* , ^ ••'. l i- ' r ' '' \ ^T^'', 1^: ;- - - v "' -^ "i V^'^'c'1 V - V
1 . — j - U- t . ~- . .' i ' ; it i .j -
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." ' f ^
SPECIFICATIONS
Frequencies: BBS, 444, BSa, 1777 end 355SHz. RepBBtability :
Modes of Operation: MAX: Transmitter cxail plane end re ceiver coil plane horizontal C Ma x-coupled; Horizontal-loop mode). Used with refer.cable.
M IN: Transmitter coil plane horizon tal and receiver coil plane ver tical CMin-coupled mode). Used with reference cable.
V.L. : Transmitter coil plane verti cal and receiver coil plans hori zontal (Vertical-loop mode). Used without reference
f~ cable , in parallel lines.
S5,5O,1CXD.15O,SCXD SSSOm IMM1D or 1OO. BC3O. 3CXD. 4OO.BOO and BOD ft. CN/JM1IR. Coil Beperetions in V.L.mode not re- Btricted to fixed values.
D.S5*Atot1M normally, depending on conditions, frequehcies end coil separation used .
TrensmitterOutput:- SS2Hz :2eOAtme- *a44Hz :2OOAtme- BSBHz : ISOAtm2- 1777 Hz : BOAt^r^- 3555HZ : SOAtm8
Receiver Batteries: BV trans, radio type batteries (4). Life: approx. 35hre. continuous du ty (alkaline. O.5 Ah), less in cold weather.
Coll Separation*:
Parameters Read: -
Readouts:
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l Readability:
In-Phase end Quadrature compo nents of the secondary field i n MAX and M IN modes.
Tilt-angle of the total field in V.L. mode .
Automatic, direct -readout on 9Omm (3.5") edgewise meters in MAX end MIN modes. No null ing or compensation necesssry.
Tilt angle end null in BDmm edge wise meters in V.L.mode .
Transmitter Batta pie B t
Reference Cable i
Voice Link:
Scale Ranges: irvPhese: JtEOJi.ilOp* by push button switch .
GJuadrature:*eO*,t1DOX by push button switch.
Tilt: 175-Si slope .NullCVU: Sensitivity adjustable
by separation switch.
In-Phase end Quadrature : CXP5 V. to D.5V. ; Tilt: 1*A .
12V B Ah Gel-type rechargeable battery- f Charger supplied).
Light weight S-conductor teflon cable for minimum friction. Unshield ed. All reference espies optional st extrs cost. Plesse specify.
Built-in intercom system for voice communication between re ceiver end transmitter operators in MAX and MIN modes, via re ference csble .
Indicator Lights: Built-in signal and reference warn ing lights to indicate erroneous readings .
Temperature Flange: -OD'C to+BD'C (-ACrFto+VOCTF).
Receiver Weight: 6kg (13 Ibe.)
Transmitter Weight! 13kg CS9lbs.)
Shipping Weight: Typically BO kg 1135 Ibe.). depend ing on Quantities of reference cable end batteries included. Shipped in two feld/shipping cases.
Specifications subject to cnmngm without notification.
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APEX PARAMETERS LIMITED P.O. Box 818. Uxbridge Ontario. Canada LOG 1KO
Telephones: 416-64D-6102 41B-B52-5B75 Cables: APEXPARA TORONTO Telex: 06-966625 APEXPARA UXB
r f C' r
1 ; : j^B^V JMK^ JgflKC^ li 1""^ p rf.'BJ pSKT?1
H| *^T-*L ' * f l [i *"V u U L^y ^' t rmm j k
222 'Snioercroh Road ; jlelephone: (4 '9Concord Ontario Canaii
1 L4K 'IBS
1 i ' !B l |i To: Wes
s
; t m i '
M j ;: Attn; Rose
lelex: 06 96157 Fax: (416) 669-
i Resour
nary Drc.
You r Telefax 4? : ( 4 i
1 .^-..-..
1 1 1
) 6G9-226C'C' 132
TELEFAX MESSAGE
^ i? ^ces Fax Reference 4-: : f X - O i ^ ^' "
rv ' P.O., 'l Of 0-
6)36^-^1920 DaterBept. 5/89
I am pleased to f(ax you the critical information from t^c- r. f..oc.sheet of t
1 - requir4 foie Gmr, i IV . 3 trust that this i nf orrr,o t ion is. i-n^t you'.you report. If you have any futher inquiries about
" j this or any other instruments manufactured by Scintrex/EDA pleasej do not hes. :iate to contact me.
1 j Best -re
i h^gan
/'Js. !
' ! f
J^-^f^/ri 1K' ! - 14 "" :; ';j .John Buckl^, B . Se .
j National Se
1 i,
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1 ' :i . i
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1 es Man,
1)
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YiQBT
Specificationsi
jynamic Range
Method j.........
l Automatic Fine Tuning ...l - ' isplay Resolution.......fTC'Cessing Sensitivity ....
l iVEtistica! Error Resolution j absolute Accuracy
r.'.r-norv Capacity ;
I T ota! Field or Gradient. :, Tie-Line Points :.......'. Base Station . 4 ......;
^ispiay .....;'.;;...... l
. 18,000 ,to 110,000 gammas. Rollover display feature suppresses first significant digit upon exceeding 100,000 gammas.
.Tuning value is calculated accurately utilizing a specially developed tuning aigorltnrr
. i 15^0 relative to amDient field strength of last stored value
.0.1 gamma
. i 0.02
l
Bra
ECca
252 serial 1/6 interface l
dient Tolerance tMbde ......t.
nsor
dient Sensors
Sensor Cable .!. ;.............M ' :!( :ling Time (Base Station Mode)B i 1 i Operating Environmental Range .
wer Supply ... j.............l"
Battery cartridge/Belt Life.
M\Teights and Dimensions i
(itrument Console ..... .j... alms Battery Belt.....'... ad-Acid Battery Cartridge .
Lead-Arid Battery Belt. .j...
E nsor .....:.'\......:... adlent Sensor .
\0.5 m separation-standard) Gradient Sensor'j
d.O m separation-optional).sMidard System Complement^ "ii
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.0.01 gamma. 1 garjnma at 50,000 gammas at 23"Ci 2 garnma over total temperature range
.1,500 data blacks (48k) or 6,500 data blocks (I28to
.1 00 datii blocks
.4,000 data blocks (48k) or 20,000 data blocks (128k)
.Custorrfdesigned, ruggedized liauid crystal display with an operating temperature range from -40'C to i 55"C. Tne display contains six numeric digits, decimal point, battery status nponitor, signal decay rate and signal amplitude monitor and function descriptors.
. variable baud rate from 500 to 9,600 baud, B data bits, 2 stop bits, noWity
.6,000 gammas per meter (field proven)
.A. Diagnostic testing (data and programmable memory)B. Self Test (hardware)
.Optimized miniature design. Magnetic cleanliness isconsistent with the specified absolute accuracy.
.0.5 meter sensor separation (standard), normalized togammas/ meter, optional 1.0 meter sensor separationavallabl^. Horizontal sensors optional.
. Remains flexible In temperature range specified, Includesstrain-rejief connector
. Programmable from 5 seconds up to 60 minutes In 1 second increments
. -4p0 C to 4 55'C; D-100% relative humidity; weatherproof
.Non-magnetic rechargeable sealed lead-acid battery cartridge or belt; disposable alkaline battery belt; or 12V DC power source option for base station operation.
. 2,000 to k,000 readings, for sealed lead acid power supply. dependips upon ambient temperature and rate of readings
, 24.5.8 kg, 246 x 122 x 210mm .1.2 kg, 5/jo x 100 x 40mm .1.8 kg, 158 x 95 x 75mm .1.8kg, 5^0 x 100 x 40mm . 1 .2 kg, 56mm diameter x 200mm
. 2.1, kg, 56mm diameter x 790mm
.2.2 kg, 56mm diameter x 1300mm
.instrument console; sensor; 3-meter cable, aluminum sectional sensor staff, power supply, harness assembly, operations manual.
Scintrex/EDA
222 Snidercrofi Road Concord.Ontario.Car.ada L4K IBS
Telephone: (416) 6G9-228C Telox: 06-964570 Telefax: (416) 669-5132
In USA:Suile 370.9200 East Mineral Avervt,Englewood, Colorado -tDH?
Ministryof Liral Durces
Ontario^
Report of Work(Geophysical, Geological, */ f j ' VJji Geochemical and Expenditures) L-J^.--^^^^-^^.!
32Ei3Nweees 2.12745 HOPPER LAKE 900
Mining Act
"Expenditures" section may be entered in the "Expend. Days Cr." columns. Do not use shaded areas below.
1 ype of Survey ts)
Claim Holder(s)
Geophysical 2
Westmin Mines Limited
[ l o^vnship or Area
Lake Area (G-1636)Prospector's Licence No.
T-4638Address 25^AdeTaide"StVEast7 Suite "1400, Toronto, Ontario M5C 1Y2Survey Company
G.Thibault Exploration ServicesDate of Survey (from ft tol
19 01 89 23 02 89Total Miles of line Cut
15.5 kmDay J Mo. J Yr. Day j Mb. | Yr."
Name and Address of Author (of Gco-Tcchnical report)
R.H.McMillan, 25 Adelaide St.E., Suite 1400, Toronto, Ontario M5C 1Y2Credits Requested per Each Claim in Columns at rightSpecial Provisions
For first survey:
Enter 40 days. (This includes line cutting)
For eoch adciition.il survey: using the same grid:
Enter 20 days (for each)
Days per Claim
Geophysical
Electromagnetic * A r\
20MagnciomctCf
fv'an Days
Complete reverse side
and enter total(s) here
Geological
Geochemical
Geophysical
- Electromagnetic ;
- Magnetometer j
- Radiometric i l
- Other !ir
Geological lt-
Gcochcmical j
Days pet Claim
Airhoiiii' CiiMns j
Mote: Special provisions j Electromagnetic credits do not apply to An borne Surveys. Magnetometer
Radiomeiric
i O.iys in l Claim
Mining Claims Traversed (List in numerical sequence)
Expenditures (excludes power stripping)"I ype of Work Performed
Performed on C'aim(s)
Calculation of Expenditure Days Credits
Total f- xpenuituresTotal
Days C-e~ 's
-5- 15
Total Dnys Credits may ho apportioned .nt the ci.iim hottie*p 'schoice. Enioi nuMibor of ei.ivs credits por clflirr* SOlPCtPc!
in coUi mn* a i ncjhi.
Mining Claim
Prefix i Number
P 1087168
1.1087169......
.10.8717.0. ..
..1.0..8.71.71...
|l0.8 7.17.2 —
..10J8.7.17J .
! 10.8.7.17.4....
llOJB.7.175. ..
i 10.8. 7.1 7.6
i
i , - . -,- ^ .-. ...
V*",' ; , ; ^f 1\\*- i"'--'V; -J
: v/ f-'l';. -vi.f"^ . . ^U''- -- - --- -SEP-*
i-ij;'^pfx--
L.....-.V.. 19^
E xpend. Days C'.
---
- -- - - - - - - -
W|1809
rNT
ft
1 ^
1
/L
Mining Claim
Prefix Number
-- ----
^nto ot^tooiCAt SURVEY ASSESSMENT FILES
CiFFICF.
OCT131989
RECEIVED
i , - . . . . . - . . . - -
- REG D R;. ! iJ ....... ...
Q f: p - H ': U L 1 "-'
i ' - - - . .
J
E xpend. Dny. Cr.
-
) i:. r ;
(""inyd9
l ol.il rniinlioi df mimny ri INI*', rovorotl by this i.'|!O' t oi work.
Pot Office LKe OnlyiMiMim, Hroorocr . - .t;i ' ' ' r- '
) .Dale A/ir/tvcd os Ri'tou'cd .H
l J u? i t'bv co 11 ify Ih.i; i fi.ue n personal nnd i r it i mn t o k r. o . . tot! :e o ; * "^ Met*, sol forth in t h p Report of Wo r k o mn* ve;! hi'M'lu, ii.ivnu) ixnf ornv'd i h -' we.i k j
Ontario
Ministry of Natural Resources
GEOPHYSICAL - GEOLOGICAL - GEOCHEMICAL TECHNICAL DATA STATEMENT
Fi -|'-JL
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORT l FACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT (TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.tuuutRn A* inn Minimi n n. M iBiiii.iiin in iiiiiiiiiiiii.i.iiiiim mi •iiiiiiiiiiiiiuiiiiiiiiii i 1 iiiinm u n*iniiii'iii.iii..iaiiino jiiniiiii mn iiiiiiiiinnn^iMaa^^i^a^i^.ia^i^ai^Mi^imaiaiMMBi ^^•^^^^^^iii^a^^M^**l^l^^^^*^^M^iaa^^a^
Type of Survey(s) —..-——GeophysicalTownship or Area_____Hopper Lake Area (G-1636) Claim Holder(s)______Westmin Mines Limited
Survey Company ^—^..
Author of Report _...
Address of Author —-.
G.Thibault Expl. Services
R.H.McMillan25 Adelaide St.E.,Toronto, On
Covering Dates of Survey 19 January -23 February 1989(linecutting to office)
Total Miles of Line Cut. 15.5 km___________________
SPECIAL PROVISIONS CREDITS REQUESTED
ENTER 40 days (includes line cutting) for first survey.
ENTER 20 days for each additional survey using same grid.
Geophysical—Electromagnetic.—Magnetometer—
—Radiometric——
DAYS per claim.
4020
20
Geological.Geochemical.
AIRBORNE CREDITS (Special provision credits do not apply to airborne surveys)
Magnetometer. .Electromagnetic. . Radiometric(enter days per claim)
DATE: 7 Sept. 3 989 SIGNATURE:.Auth6r of Report or Agent
Res. Geol.. Qualification.! i
Previous Surveys File No. Type Date Claim Holder
MINING CLAIMS TRAVERSED List numerically
(prefix)
P(number)
1087168
,.?..
P
1087169
..10.8717.0.,
1087171
P 1087173.••••••••••••••••••••t* t T* ft tft /t *T* **fi*•••••••••i*
P 1087174
1087175
1087176
TOTAL CLAIMS.
837 (5/79)
GEOPHYSICAL TECHNICAL DATA
GROJJN l jS D RV E Y S - If more than one survey, specify data for each type of survey
VLF Max-Min Mag
INDUCED POLARIZATION
RECTSTTvrry GRAVITY ELECTROMAGNETIC MAGNETIC
Number of Stations. 563o - - . 25 mStation interval
Profile scale 1 cm ^ 51~ . . t , 57,500 T - 59, Contour interval ... ..
M L t n J- J-,J.^O— J-,3/^— JD^Niimher of Readings '
Line spacinp
ooo y uoojT)
. 4 EDA OMNI IV MagnetometerInstrument
Accuracy — Scale constant - 5nt~. , t . ., j Base magnetometer Diurnal correction method ^
12 Base Station check-in interval (hours) sec
Rasf Station location and value Camp. Lower Detour Lake Area. Claim P. 553472100 m west of Lower Detour Lake,Value 59,OOOY~Instrument AP 6X MaX-Min II
Coil configuration horizontal
Coil separation . 150 m- 1^ Accuracy
Method: CH Fixed transmitter Frequency 222 H ^ 3555 Hz
Parameters measured In Pnase,
InstrumentScale constantCorrections made .
Base station value and location .
Elevation accuracy.
Instrument . . ........ ..-.
Method PI Time DomainParameters - On time .
Dff time
— Delay time
- Integration time.Power - . - - . _ — - —Electrode array - ——— — —
Electrode spacing .
TVDC of electrode .
Lat. 49057'05"N Loner. 79O 39'W
Geonics EM-16N/AN/A± U
D Shoot back O In line [3 Parallel line Seattle, Washington
(specify V.L.F. station)quadrature
fi Frequency Domain Frequency,1 f
Range
SKLFPO1KNTIA1,
Instrument________________________________________ Range.Survey Method —-----——--—————^-^--——--—-——^-—^—-—--—.^^^^^———-—-——^
Corrections made.
InstrumentValues 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).
NESUKVEYS
Type of survcy(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 - PROCEDURE RECORD
Numbers of claims from which samples taken.
Total Number of Samples- Type of Sample.
(Nature of Material)
Average Sample Weight——————— Method of Collection———————-
Soil Horizon Sampled— Horizon Development- Sample Depth .————Terrain ———^————
Drainage Development—————^————— Estimated Range of Overburden Thickness.
(Includes drying, screening, crushing, ashing)
Mesh size of fraction used for analysis,———.
ANA.LYTICAL METHODSValues expressed in: per cent
p.p. m. p.p. b.
CD Da
Cu, Pb, , Zn, . Ni, Co, Ag, Mo, As,-{circle)
Others.________________________————Field Analysis
Extraction Method. Analytical Method- Reagents Used__
Field Laboratory AnalysisNo. —————.————Extraction Method. Analytical Method - Reagents Used ——.
Commercial Laboratory Name of Laboratory Extraction Method Analytical Method Reagents Used -——
.tests)
-tests)
-tests)
General. General.
^2 ' ' ••""•^H'/'•^•V"?rj v . Kj.rY,- ...4 '.y.,.,,.,
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REFERENCES
AREAS WITHDRAWN FROM
M.R.O. - MINING RIGHTS ONLY
S.R.O. - SURFACE RIGHTS ONLY
M.+ S. - MINING AND SURFACE RIGHTS
Description Order No. Dal* Disposition File
:B85ll
RE-OPDCD BY NRO 27/65 22/07/85 SAO.
SAND AND GRAVEL
(S,) DUAHRr PERMIT
It,LEGEND
HIGHWAY AND ROUTE No
OTHER ROADS
TRAILS
SURVEYED LINESTOWNSHIPS. BASE LINES. ETCLOTS. MINING CLAIMS, PARCELS. ETC
UNSURVEYED LINES:LOT LINESPARCEL BOUNDARYMINING CLAIMS Elf.
RAILWAY AND RIGHT (jr WAY
UTILITY LINES
NON PERENNIAL STREAM
FLOODING OR FLOODING RIGHTS
SUBDIVISION OR COMPOSITE PLAN
RESERVATIONS
ORIGINAL SHORELINE
MARSH OR MUSKEG
MINES
TRAVERSE MONUMENT
L .11. P._____ __DISPOSITION OF CROWN LANDS
TYPE OF DOCUMENT SYMBOLT"'
PATENT, SURFACES. MINING RIGHTS.. _ .
.SURFACE RIGHTS ONLY ____ .... __ ... -—... O
, MINING RIGHTS ONLY ^ __ ™.... ......,™. O
LEASE, SURFACE 8. MINING RIGHTS.. .......... ... —. B
" , SURFACE RIGHTS ONLY. _ ............. w....... . H
" .MINING RIGHTS ONLY. .^.......^.....,.......... B
LICENCE OF OCCUPATION ....^.. _ . _ ...^........^. T
ORDER IN COUNCIL ..... .. _ ....^...^^. .. .. _ . OC
RESERVATION __ —....^.-.^................. ,,.,—. 0
CANCELLED . __ .................... .,................ ®
SAND A GRAVEL . _ ..,.. __ ...^..... __ ™........... ©
NOTE: MINING RIGHTS IN PARCELS PATENTED PRIOR TO MAY 6. 1913, VESTED (M ORIGINAL PATENTEE BY THE PUBLIC LANDS ACT. RSO 197O. CHAP MO. SEC 63. SUBSEC'l
SCALE: l INCH ^ 40 CHAINS
o 1000 ?ooo 4OOO 6OOO 8OOO
O 700 METRES
20OO (2 KM)
M.N.R ADMINISTRATIVE DISTRICT
COCHRANEMINING DIVISION
PORCUPINE
LAND TITLES/ REGISTRY DIVISION
COCHRANE
Ministryof LandNatural Management
Resources BranchOntario
DECEMBER 1982
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