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GEOPHYSICAL REPORTon an
INDUCED POLARIZATION SURVEYfor
OTIS J. EXPLORATION LIMITEDon the
MAISONVILLE TOWNSHIP PROPERTIES LARDER LAKE MINING DIVISION
682
Submitted by: S. AndersonRayan Exploration Limited
RECEIVED
SEP 26 199B
MINING LANDS BRANC
42A01NE02302.16821 MAISONVILLE 010
TABLE OF CONTENTS
Introduct ion..........................................lLocat ion and Access.................. .................2Personnel......... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Claims........... .....................................3General Geology.......................................4Work Program... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5IP Specifications.....................................5,6Survey Resuits........................................7,8Recommendat ions and Cone lus i ons.......................9,10Certificate...........................................!!
FIGURES
Location Map...................................Figure lRegional Location Map..........................Figure 2Claim Sketch-Golden ChiId......................Figure 3Claim Sketch-Twin Lakes........................Figure 4
MAPS
GOLDEN CHILD PROPERTY
Psuedo-sections l:2500. . . . . . . . . . . . . . . ..........Plate l of l
TWIN LAKES PROPERTY
Psuedo-sections l:2500.........................Plate l of l
APPENDICES
Scintrex IPR-12 Receiver......................Appendix AScintrex IPC-9 Transmitter....................Appendix B
42A01NE02302.16821 MAISONVILLE 010C
INTRODUCTION
Rayan Exploration Limited of Timmins Ontario was hired on a contract basis by otis J. Exploration limited to conduct an Induced Polarization survey on their Maisonville Township Properties. The work was carried out on two separate properties; the Golden Child Prospect and the Twin Lakes Property, both located in Maisonville Township, Larder Lake Mining Division, District of Timiskaming, Ontario.Maisonville Township hosts numerous base metal and gold showing, a number of which are situated within the current project areas. The purpose of this work program was to provide I.P. coverage over the two properties in an attempt locate and trace the extent of a some of these showings, as well as locate any new ones.The IP survey conducted by Rayan Exploration Limited was carried out during the month of June, 1995. This included 5 days on the Golden Child Prospect and 3 days on the Twin Lakes Property.
LOCATION AND ACCESS
Both the Maisonville Township Properties are located in Maisonville Township, Larder Lake Mining Division, District of Timiskaming, Ontario. Maisonville Township is situated roughly 20 km northwest from the town of Kirkland Lake, Ontario.
Golden Chi Id;
The Golden Child Prospect is located in the south central portion of Maisonville Township. The claim group is made up of 4 contiguous unpatented mining claims ( 17 units ) located in parts of Lots 4,5,6 and 7, Con II. The north end of Kapakita Lake is situated within the central portion of the block.
The grid is accessed by going north on HWY li from the town of Kenogami for about 12 km. to the junction of Hwy 570, to Sesikinika.
This Hwy heads east through the village of Sesikinika and ends at Kapakita Creek. From here a network of old bush roads head north and cut through the western part of the claim group.
Twin Lakes:
The Twin Lakes Property is made up of a block of 10 contiguous unpatented mining claims ( 25 units ) located in the north western portion of Maisonville Township. The grid covers most of the Sl/2 of Lots 9 and 10, Con IV. The south end of Lower Twin Lake, as well as a section of the Whiteclay River extend onto the northern portion of the block. The Trans-Canada Pipeline, Hwy 11 and the Ontario Northland Rail Road all run roughly north south through the central part of the claim group, just west of the cut grid.
Access to the work area was gained by going north on Hwy li from the town of Kenogami for about 15 km. to the White Clay River. Just before the White Clay river a gravel road heads east from the Hwy 11 and leads to the Trans-Canada Pipeline. From this point, the grid lies about 300 meters to the east, and was accessed by foot.
•3 •O
S3-
30-
43'43
PROVINCE OF ONTARIO
FIG l
OTIS J. EXPLORATION LIMITEDTWIN LAKE PROPERTY
__________QOLDEN CHILD PROSPECT
LOCATION MAP
no a
J. EXPLORATIONTitl.: REGIONAL LOCATION MAPProperty:
TWIN LAKE PROPERTYt
GOLDEN CHILD PROSPECT
,RAYAN
PERSONNEL
The people directly involved with the IP survey were all employed by Rayan Exploration Limited, and are as follows.
Bryan Belanger..........................-North BayDave MacArthur...........................TimminsAndy Durham..............................TimminsBrad Norman..............................Timmins
All work was supervised by R.J.Meikle.
CLAIMS
The claims which make up the Maisonville Township properties include a variety of single and multi unit unpatented mining claims. All are recorded in Maisonville Township, Larder Lake Mining Division. The following is a list of the claim numbers for the portions of each property covered or partially covered by the the current work program.
Golden Child Prospect
Claim ft # of units
1203505 l1203506 91203507 61203508 l
17 units
Twin Lakes Property
Claim # t of units
1185611 l1181612 l1186821 21186913 3
7 units
1180844:1180669 II8O246
L - - 1203513U80238. (1180239 \ H8O24000 73-4 fr
1203253
— J---)
r O^ L - - l- . -
FIO 2
Clt.nt. ;OTIS J. EXPLORATION LIUITgd
CLAIM SKETCHProperty:
GOLDEN CHILD PROSPECT
RAYANLID
U0765 I|uo744 JB1074I If]
l ffl0743 ! BI0742 j!
0*862 . 705100 i 70GIOO j
~fll67030\ _ u
II379SI 11137999 insoawj OTOOto :
1180248 . 1160370
. - - J -:.^ . 1160244 1180069035"
PIO 2
Cl..nt:OTIS J.-EXPLORATION LIMITEEs CLAIM SKETCH
Propwr-ty:
TWIN LAKE PROERTY
RAYANEXPLORATION LTD
GENERAL GEOLOGY
Golden Child Prospect:
The property is underlain by mafic to intermediate metavolcanic rocks and mafic to ultramafic intrusives with the intrusives predominantly gabbro and diorite forming the majority of the exposed outcrop. All of the above are cut by north south trending Matatchewan diabase dykes.Gold showings are related to pyritic quartz or quartz carbonate veins and shearing that has been identified immediately south and west of the property as well as the northern portion of the property.
Twin Lakes Property:
The Twin Lakes Prospect is underlain by Archean mafic to intermediate metavolcanics, felsic intrusive (granitic) rocks, mafic and ultramafic intrusives. Proterozoic rocks, Cobalt group sediments overly the Archean in the extreme north portion of the property,A number of gold and base metal showings are documented on the property and surrounding claims. The majority of the gold showings are related to narrow quartz veins, carbonate alteration and shear zones.Prospecting, ground magnetic surveys and research by the Twin Lakes Property vendors, indicate a northeast trending fault (DK fault) cutting the property. An auriferous shear zone proximal to this fault has been stripped and sampled.
WORK PROGRAM
The work program conducted on the Maisonville Township properties took the form of an induced polarization survey. The same survey parameters were used for the IP survey on both grids. Between the two properties a total of 8 days were spent surveying. This includes 3 days on the Twin Lakes Property and 5 days on the Golden Child Prospect. It should be noted that cultural noise problems were encountered for 2 of the survey days on the Golden Child Prospect. The reason for this was due to cultural noise interference which was traced to electrical testing being carried out in the area by Trans-Canada Pipelines. This noise made it impossible to obtain quality data, and as a result the survey was shut down until the tests being carried out by Trans-Canada Pipelines were completed and they had moved out of the area.
The following is a brief description of the survey equipment and parameters used to carry out the induced polarization survey.
General IP Theory
The IP method involves applying voltage across two electrodes in a pulsed manner i.e. 2 seconds on, 2 seconds off. A second "dipole" or electrode pair, measures the residual potential or voltage between them after the voltage is shut off or during the 2 second off cycle. The potential is recorded at different times after the shut off. If, for example, there is sulphide mineralization within the measuring dipoles, they will be polarized or charges set up on the sulphide particles. This polarization gives the zone a capacitor effect, thereby blocking the current delay giving a higher chargeability reading.
A typical signature for many gold showings would be a chargeability high, resistivity high and magnetic low. This would be characteristic of a mineralized, highly altered carbonated and/or silicified zone. However, this is by no means the only geological setting for gold, therefore every profile should be looked at individually and correlated with all other geophysical- geological data.
Electrode Array
The electrode array used for the survey was the Dipole- Dipole Array. In this array two current electrodes (CI, C2) and two receiver or potential electrodes are moved down a line in unison. In this case the "a" spacing or distance between each dipole was fixed at 25 meters apart. For an 13=1 reading, the closest Ci and PI were 25 meters apart. The C1-C2 dipole remain in the same place while the potential dipole (P1-P2) moves ahead on "a" spacing and the array is ready for an N^ reading.
IP Survey Parameters
The IP survey was carried out using the following parameters:
Method: Time DomainElectrode Array: Dipole-Dipole"a" spacing: 25 metersNumber of Dipoles Read: 1-4Pulse Duration: 2 seconds on, 2 seconds offDelay Time: 500 millisecondsIntegration Tine: 420 millisecondsReceiver: Scintrex IPR-12Transmitter: Scintrex IPC-9Data Presentation: Psuedosections
SURVEY RESULTS
The Induced Polarization survey conducted on the Maisonville Township properties outlined a number of areas of interest. These zones along with their chargeable and resistive characteristics will be listed below.
Golden Child Prospect
Location Chargeability
L 0+OOE
3+OON-3+75N 0+50N-1+20N 0+70S-1+50S 2+755-open S
L 2+OOW
N2+50N-3+60N 0+25S-1+25N 1+503-open S
L 4+OOW
5+50N-6+80N 0+50N-1+75N 0+50S-2+75S
L 6+OOW
6+85N-7+50N 3+75N-5+80N 2+25N-2+80N 3+OOS-Open S
very chargeable moderately chargeable moderately chargeable moderately chargeable
weakly chargeable moderately chargeable very chargeable very chargeable
very chargeable weakly chargeable weakly chargeable
weakly chargeable-deep very chargeable weakly chargeable weakly chargeable
Resistivity
very resistive resistive contact very resistive very resistive
resistive contact very resistive very resistive very resistive
resistive contact very resistive very resistive
contactresi st ive resistive resistive very resistive
TWIN LAKES PROPERTY
Locat ion
L 0+OOE
3+OON-open N
L 3+OOE
1+BON-open N
L 6+OOE
3+SON-open N
L 9 + OOE
0+60N-1+20N 1+OOS-O+OON
L 12+OOE
3+OON-6+40N O+GON-open S
L 15+OOE
O+OON-1+OON 0+50S-1+10S 1+50S-2+10S
L 19+OOE
1+OON-2+80N 1+OOS-2+OOS
L 24+OOE
3+00-open N 2+OON-3+OON 0+OON-2+OON 0+OON-1+50S 1+50S-2+50S
L 27+OOE
Chargeability
moderately chargeable
moderately chargeable
moderately chargeable
weakly chargeable weakly chargeable
weakly chargeable moderately chargeable
moderately chargeable moderately chargeable moderately chargeable
moderately chargeable weakly chargeable
weakly chargeable moderately chargeable weakly chargeable moderately chargeable weakly chargeable
Resistivity
conductive contact
resistive contact
resistive contact
resistive contact resistive-shallow
very resistive very resistive
very resistive very resistive very resistive
resistive contact very resistive
resistive contactresistiveresistiveresi st i veresistive
CH40N-open N weakly chargeable resistive
RECOMMENDATIONS AND CONCLUSIONS
Both the properties surveyed showed a number of chargeable anomalies of various strengths and resistive characteristics that should be further tested.
Golden Child Prospect
The majority of the zones outlined within this block show strong responses. Since only every second line was surveyed, resulting in a distance of 200 meters between lines, it is difficult to match some of the zones between lines. This may be due in part to irregular strike directions, or possibly breaks or offset in the strike. Certainly some of the stronger responses would tend to suggest a fairly high sulphides content. If the gold values in this geological setting are related to sulphide content, then these strong responses would be of particular interest and might receive priority.
Although at this time some of the IP zones may appear to be defined well enough to test with diamond drilling, consideration should be given to acquiring additional information for a more complete view. One of the first step in determining possible drill targets or a priority list for the zones discussed, is to compile all the available data on the property. If it has not already been done, a total field magnetometer survey should be carried out over the entire property with a 100 meter line interval. This should help in joining some of the zones from line to line, as only every second line was surveyed with IP, resulting in a 200 meter line spacing. Geological mapping and sampling should also be cared out over any areas of interest with outcrop, especially the I.P. anomalies. This might help determine the relationship between gold vales and sulphide content. Some fill-in lines of IP over any features of interest should also be considered.
If the results warrant it, and it is found that the gold values increase at all with sulphide content, then a number of the stronger IP anomalies should definitely be tested with a diamond drill program.
10 Twin Lakes Property
A number of IP anomalies were also outlined within this block, although they display a much weaker response. This however does not take away from the property, as a weakly chargeable zone situated within a resistive environment are often typical of a weakly mineralized zone of alteration or silicification. For this reason and because of the favourable gold environment within this block, none of the IP anomalies outlined should be dismissed without further testing.
As with the previous property, data compilation should be the first step taken in assessing the anomalies outlined. Again, a magnetometer survey combined with geological mapping and sampling may answer a number of questions, and help establish a priority list for some of the questionable zones.
The magnetometer data might prove helpful in defining the various geological rock units and structures within the block, while geological mapping and sampling might establish what type of relationship the sulphide content has with gold values. If the gold values are not dependent on highs sulphide content, then all of the IP zone, no matter how weak should be looked at.
After this, if the results warrant it, any zone requiring further testing might be tested with a diamond drill program.
11CERTIFICATION
I, Steve Anderson of Timmins, Ontario hereby certify that:
1. I hold a three year Technologist Diploma from Sir Sandford College , Lindsay, Ontario, obtained in May 1981.
2. I have been practising my profession since 1979 in Ontario, Quebec, Nova Scotia, New Brunswick, Newfoundland, NWT, Manitoba, and Saskatchewan.
3. I have been employed directly with Asamera Oil Inc. UrangesselIschaft Canada Ltd.. Nanisivik Mines Ltd., R.S. Middleton Exploration Services Ltd.,and Rayan Exploration Ltd.
4. I have based conclusions and recommendations contained in this report on knowledge of the area, my previous experience and on the results of the field work conducted on the property during 1995
Dated this 15th day of November, 1995 at Timmins, Ontario.
\\
APPENDIX 'A'
SCINTREX IPR-12 - I.P. RECEIVER
l PR-12 Time Domain Induced Polarization/Resistivity Receiver
Brief Description
The IPR-12 Time Domain IP/Resistivity Receiver is principally used in exploration for precious and base metal mineral deposits. In addition, it is used in geoelec- trical surveying for groundwater or geothermal resources, often to great depths. For these latter targets, the induced polarization measurements may be as useful as the high accuracy resistivi ty results since it often happens that geo logical materials have IP contrasts when resistivity differences are absent.
Due to its integrated, lightweight, micropro cessor based design and its large, 16 line display screen, the IPR-12 is a remarkably powerful, yet easy to use instrument. A wide variety of alphanumeric and graphical information can be viewed by the operator during and after the taking of readings. Signals from up to eight potential dipoles can be measured simultaneously and recorded in solid-state memory along with automatically calculated parameters. Later, data can be output to a printer or a PC (direct or via modem) for processing into profiles and maps.
The IPR-12 is compatible with Scintrex IPC and TSQ Transmitters, or others which output square waves with equal on and off periods and polarity changes each half cycle. The IPR-12 measures the pri mary voltage (Vp), self potential (SP) and time domain induced polarization (Mi) characteristics of the received waveform. Resistivity, statistical and Cole-Cole oarameters are calculated and recorded in memory with the measured data and time.
Scintrex has been active in induced polar- zation research, development, manufac- :uring, consulting and surveying for over thirty years. We offer a full range of instru mentation, accessories and training.
The IPR-12 Receiver measures spectral IP signals from eight dipo/es simultaneously then records measured and calculated parameters in memory.
Benefits
Speed Up Surveys
The IPR-12 saves you time and money in carrying out field surveys. Its capacity to measure up to eight dipoles simultaneous ly is far more efficient than older receivers measuring a single dipole. This advantage is particularly valuable in drillhole logging where electrode movement time is mini mal.
The built-in, solid-state memory records all information associated with a reading, dis pensing with the need for any hand written notes. PC compatibility means rapid elec tronic transfer of data from the receiver to a computer for rapid data processing.
Taking a reading is simple and fast. Only a few keystrokes are virtually needed
since the IPR-12 features automatic circuit resistance checks, SP buckout and gain ^ setting.
High Quality Data
One of the most important features of the IPR-12 in permitting high quality data to be acquired, is the large display screen which allows the operator easy real time access to graphic and alphanumeric displays of instrument status and measured data. The IPR-12 ensures that the operator obtains accurate data from field work.
The number and relative widths of the IP decay curve windows have been carefully chosen to yield the transient information required for proper interpretation of spec tral IP data. Timings are selectable to per mit a very wide range of responses to be measured.
Specifications
Inputs1 to 8 dipoles are measured simultaneously.
Input Impedance16 Megohms
SP Bucking±10 volt range. Automatic linear correction operating on a cycle by cycle basis.
Input Voltage (Vp) Range50'uvoltto 14 volt
Chargeability (M) RangeO to SOOmillivolt
Tau Range1 millisecond to 1000 seconds
Reading Resolution of Vp, SP and MVp, 10 microvolt; SP, 1 millivolt; M, 0.01 millivolt/volt
Absolute Accuracy of Vp, SP and MBetter than 1 070
Common Mode RejectionAt input more than 10Odb
Vp Integration Time1007o to 8QVo of the current on time.
.P Transient ProgramTotal measuring time keyboard selectable at 1, 2, 4, 8, 16 or 32 seconds. Normally 14 windows except that the first four are not measured on the 1 second timing, the first three are not measured on the 2 sec- and timing and the first is not measured on he 4 second timing. (See diagram on
page 2.) An additional transient slice of minimum 10 ms width, and 10ms steps, vith delay of at least 40 ms is keyboard jelectable.
Transmitter TimingEqual on and off times with polarity change
each half cycle. On/off times of 1,2, 4, 8, 16 or 32 seconds. Timing accuracy of
: 100 ppm or better is required.
external Circuit TestAll dipoles are measured individually in equence, using a 10 Hz square wave, he range is O to 2 Mohm with O.lkohm
resolution. Circuit resistances are dis-nJayed and recorded.
SynchronizationSelf synchronization on the signal received at a keyboard selectable dipole. Limited to avoid mistriggering.
FilteringRF filter, 10 Hz 6 pole low pass filter, sta tistical noise spike removal.
Internal Test Generator1200 mV of SP; 807 mV of Vp and 30.28 mV/V of M.
Analog MeterFor monitoring input signals; switchable to any dipole via keyboard.
Keyboard1 7 key keypad with direct one key access to the most frequently used functions.
Display16 lines by 42 characters, 128 x 256 dots, Backlit Liquid Crystal Display. Displays instrument status and data during and after reading. Alphanumeric and graphic dis plays.
Display HeaterAvailable for below -15'C operation.
Memory CapacityStores approximately 400 dipoles of infor mation when 8 dipoles are measured simultaneously.
Real Time ClockData is recorded with year, month, day, hour, minute and second.
Digital Data OutputFormatted serial data output for printer and PC etc. Data output in 7 or 8 bit ASCII, one start, one stop bit, no parity format. Baud rate is keyboard selectable for stan dard rates between 300 baud and 51.6 kBaud. Selectable carriage return delay to accommodate slow peripherals. Hand shaking is done by X-on/X-off.
Standard Rechargeable BatteriesEight rechargeable Ni-Cad D cells. Supplied with a charger, suitable for 110/230V, 50 to 60 Hz, 10W. More than 20 hours service at -i-25'C, more than 8 hours at -30'C.
Ancillary Rechargeable BatteriesAn additional eight rechargeable Ni-Cad D cells may be installed in the console along with the Standard Rechargeable Batteries. Used to power the Display Heater or as back up power. Supplied with a second charger. More than 6 hours service at-30"C.
Use of Non-Rechargeable BatteriesCan be powered by D size Alkaline batter ies, but rechargeable batteries are recom mended for longer life and lower cost over time.
Operating Temperature Range-30'C to *50"C
Storage Temperature Range-30'C to +50-C
DimensionsConsole: 355 x 270 x 165 mm Charger: 1 20 x 95 x 55mm
WeightsConsole: 5 .8 kgStandard or Ancillary RechargeableBatteries: 1 .3 kgCharger: 1 .1 kg
Transmitters availableIPC-9 200 W TSQ-2E 750 W TSQ-3 3 kW TSQ-4 10kW
In Canada
222 Snidercroft Rd. Concord, Ontario Canada, L4K1B5
In the U.S.A.
85 River Rock Drive Unit #202 Buffalo, N.Y. U.S.A. 14207
IPR-12/94
Tel.: (905)669-2280 Fax: (905) 669-6403 Telex: (905) 06-964570
Tel.: (716)298-1219 Fax: (716)298-1317
APPENDIX 'B'
SCINTREX IPC-9 - I.P. TRANSMITTER
IPC-9/200W
INDUCED POLARIZATION AND O.C. RESISTIVITY TRANSMITTER
2.0 SPECIFICATIONS
Maximum Output Power
Output Voltage
Output Current
Meter Ranges
Automatic Cycle Timing
Automatic Polarity Change
Pulse Durations
Period Time Stability and Accuracy
Open Loop Protection
Synchronization Output
Internal Power Sources
20OW defined as when current is on and into a resistive load*
Switch selectable at nominal settings of 15, 150, 210, 300, 425, 600 or 850 V.
1.5 A maximum.
Switch selectable at 50 mA, 150 mA, 500 mA, 1500 mA full scale with accuracy of ±32 of full scale.
T:T:T:T; onroff:on:off.
Each 2T.
T is switch selectable at l, 2, 4, 8, 16 or 32 seconds.
Crystal controlled to better than 0.002 percent of the selected pulse duration.
High voltage is automatically turned off if the output power is less than 2 W. This'can be overridden manually for testing purposes. This protection Is not effective at the 15 V output.
, ~, - j *" "* > "- - ~ *
Optically isolated, suitable for external synchronization of the IPR-11 multichannel IP Receiver*
Two battery packs 'are standard, each containing 4 GC 660-1 l ead-a'cld "gel- typebatteries' giving 24 V at 12~ ' '
External Power Sources
One Penlite battery, Eyeready E91 or equivalent* :
24 V DC supply at maximum 10A.
2 -
Power for Battery Charger
Dimensions and Weights
Operating Temperature Range
Standard Equipment
Optional Equipment
Shipping Weight
115 or 230 VAC, 50 to 400 Hz, 100 W.
Transmitters with two batterypacks:140 x 300 x 460 nun; 16.0 kg
Single battery pack: -140 x 300 x 150 mm; 6.2 kg
Charger:140 x 300 x 150 mm; 5.5 kg
-30"C to *55'C.
Console, 2 battery packs, battery charger, carrying harness. Two giant banana plugs, minor spare parts kit.
Reels, wire, porous pots, electrodes, major spare parts kit, radio transceivers, back pack.
46 kg includes reusable wooden shipping case.
2-2
.nis'ry ofNorthern Development and Mines
Report of Work Conducted After Recording Claim
Mining Act
NO.
9680*00^^0
/naJ Information collected on this form Is obtained under the authority of the Mining Act. This Information win be used for correspondence. Questions about collection should be directed to the Provincial Manager, Mining Lands. Ministry of Northern Development and Mines, Fourth Ftoor, 159 Cedar Street, xlbury. Ontario, P3E 6A5, telephone (705) 670-7264. f\ t /* f^ f\ 12* l 682 lInstructions: - Please type or print and submit in duplicate.- Refer to the Mining Act and Regulations
Recorder.- A separate copy of this form must be cc- Technical reports and maps must accon- A sketch, showing the claims the work i: 42A01NE02302.16821 MAISONVILLE
ing
900
Recorded Holders) Client No.—f XM \ ' V 1 1 1 Z d 7^ \OTT\ L^ortxAoUVrV- N l l l 9 T) ^Address Telephone No.r. O. (Oov, 11*40) \^if?XLAMO u^K*. . Owrario r 2^1 3^ -f 3p5)5O-4^^-^Mining Division Township/Area M or G"Ptan No.
Dates . i Work From: 7 , O ^ To: A o ^ e •r-' Performed \JUS1 * /Z- -/S VYy/7 r0 2^0'7.^Vork Performed (Check One Work Group Only)
Work Group
Geotechnical Survey
Physical Work, Including Drilling
Rehabilitation
Other Authorized Work
Assays
Assignment from Reserve
otal Assessment Worklote: The Minister mf
holder cannot v
Type
U^taJl oWv^Avov-^^ J
niaimftH on the Attached Statement of Costs .f S^iTf-iy reject for assessment work credit all or part of the assessment work submitted if the recorded erify expenditures claimed in the statement of costs within 30 days of a request for verification.
'ersons and Survey Company Who Performed the Work (Give Name and Address of Author of Report)Name
g r— \ i ' i i \ fayfM^ T~VC3\f7rx^A ieH~\-S* i — ''Ci
-- Address." ' f\ ' ^-^.
ittach a schedule If necessary)
\ 1
RECEIVED
SEP 26 1996
MINING LANDS BRANCH
t
ertlflcatlon of Beneficial Interest * See Note No. 1 on reverse sideRecorded Holder or Agent (Signature)l certify that at the time the work was performed, the claims covered In this work report were recorded In the current holder's name or held under a beneficial Interest by (he current recorded holder.
Date
ertlflcatlon of Work Reportl certify that l have a personal knowledge of the facts set forth in this Work report, having performed the work or witnessed same during and/or after Its completion and annexed report is true, ame and Address of Person Certifying
Date Notice ^A^rnendments
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Credits you are claiming in this report may be cut back. In order to minimize the adverse effects of such deletions, please indicate from which claims you wish to priorize the deletion of credits. Please mark (^) one of the following:1. O Credits are to be cut back starting with the claim listed last, working backwards.2. D Credits are to be cut back equally over all claims contained in this report of work.3. D Credits are to be cut back as priorized on the attached appendix.H. S4tij4t^-s lAj'vVV-^ r*V.*-t*C- O-vx^ovjk.v-A'S .In the event that ygu have not specified your choice of priority, option one will be implemented.
Note 1: Examples of beneficial Interest are unrecorded transfers, option agreements, memorandum of agreements, etc., with respect to the mining claims.
\te 2: If work has been performed on patented or leased land, please complete the following:
[tify that the recorded holder had a beneficial interest In the patented ised land at the time the work was performed.
Signature Date
.try of.them Development
./id Mines
Ministere du Developpement du Nord et des mines
Statement of Costs for Assessment Credit
(ztat des couts aux fins du credit devaluation
Mining Act/Loi sur les mines
Transaction No./N" de transaction
Personal information collected on this form is obtained under the authority of the Mining Act. This information will be used to maintain a record and ongoing status of the mining claim(s). Questions about this collection should be directed to the Provincial Manager, Minings Lands, Ministry of Northern Development and Mines, 4th Floor, 159 Cedar Street, Sudbury, Ontario P3E 6A5, telephone (705) 670-7264.
2. 1 682 lLes renseignements personnels contenus dans la presente formule sont recueillis en vertu de la Lol sur les mines et serviront i tenir 4 Jour un registre des concessions minieres. Adresser toute quesiton sur la collece de ces renseignements au chef provincial des terrains miniers, ministere du DeVeloppement du Nord et des Mines, 159, rue Cedar, 4e etage, Sudbury (Ontario) P3E 6A5, telephone (705) 670-7264.
1. Direct Costs/Couts directs
Type
Wages Salalres
Contractor's and Consultant's Fees Drafts de ('entrepreneur et de I'expert- consell
Supplies Used Fournltures utlllsees
Equipment Rental Location de materiel
Description
Labour(Ui** cjutti^y) Main-d'oeuvre
Field Supervision Supervision sur le terrain
Type
I.r. tonrrat^Or
Type
Type
Amount Montant
24 R
{.SLtO
Total Direct Costs Total des coQts directs
Totals Total global
cW?
Uto
i:vW
S^T?-
2. Indirect Costs/Couts indirects* * Note: When claiming Rehabilitation work Indirect costs are not
allowable as assessment work.Pour le remboursement des travaux de rehabilitation, les couts indirects ne sont pas admissibles en (ant que travaux devaluation.
Type
Transportation Transport
Food and Lodging Nourrlture et hebergementMobilization and Demobilization Mobilisation et demobilisation
Description
Type
Amount Montant
Sub Total of Indirect Costs Total partial des couts indirects
Amount Allowable (not greater than 20H of Direct Costs) Montant admissible (n'excedant pas 20 W des couts directs)
Total Value of Assessment Credit Valour totale du credit Total of Direct and Allowable devaluation Indirect costml (Total de* couti direct!
Totals Total global
t Indirect* admissible!
Note: The recorded holder will be required to verify expenditures claimed in this statement of costs within 30 days of a request for verification^ verification is not made, the Minister may all or part of the assessment work submi
Note : Le titulaire enregistre sera tenu de verifier les depenses demandees dans le present etat des couts dans les 30 jours suivant une demande ^ cet effet. Si la verification n'est pas effectuee, le ministre peut rejeter tout ou une partie des travaux d'evaluation presented.
J")
Filing Discounts
1. Work filed within two years of completio the above Total Value of Assessment
2 6 1996 Re nlses pour depot
is claJruad. aj^ffiffiigfjjANCHJ BS travaux deposes dans les deux ans suivant leur achievement sont -™ -——— rembourses a 100 % de la valeur totale susmentionnee du credit d'evaluation.
2. Work filed three, four or five years after completion is claimed at SOW of the above Total Value of Assessment Credit. See calculations below:
Total Value of Assessment Credit Total Assessment Claimed
x 0.50
2. Les travaux deposes trois, quatre ou cinq ans apres leur achievement sont rembourses a 50 'Mi de la valeur totale du credit d'evaluation susmentionne. Voir les calculs ci-dessous.
Valeur totale du credit devaluation
x 0.50
Evaluation totale demandee
Certification Verifying Statement of Costs Attestation de l'etat des couts
l hereby certify:that the amounts shown are as accurate as possible and these costs were incurred while conducting assessment work on the lands shown on the accompanying Report of Work form.
that as ____^(RecorcfqJ Holder, Agent, Position in Company)
to make this certification
J'atteste par la presente :que les montants indiques sont le plus exact possible et que ces defenses ont etd engagers pour effectuer les travaux d'evaluation sur les terrains indiqu6s dans la formule de rapport de travail ci-joint.
am authorized Et qu'a titre de. je suis autorise(titulaire enregistre, representant, poste occupd dans la compagnie)
a faire cette attestation.
Nota : Dans cette formule, lorsqu'il ie des personnes, le masculin est0212 (04/91) ilis6 au sens neutre.
Ministry ofNorthern Developmentand Mines
January 21, 1997
Roy SpoonerMining Recorder4 Government Road EastKirkland Lake, ONP2N 1A2
Ministere du Developpement du Nord et des Mines Ontario
Geoscience Assessment Office 933 Ramsey Lake Road 6th Floor Sudbury, Ontario P3E 6B5
Telephone: Fax:
(705) (705)
670-5853 670-5863
Dear Sir or Madam:
Subject: Transaction Number(s): W9680.00460
Submission Number: 2.16821
StatusApproval After Notice
We have reviewed your Assessment Work submission with the above noted Transaction Number(s).
The attached summary page(s) indicate the results of the review. WE RECOMMEND YOU READ THIS
SUMMARY FOR THE DETAILS PERTAINING TO YOUR ASSESSMENT WORK.
If the status for a transaction is a 45 Day Notice, the summary will outline the reasons for the
notice, and any steps you can take to remedy deficiencies. The 90-day deemed approval provision,
subsection 6(7) of the Assessment Work Regulation, will no longer be in effect for assessment work
which has received a 45 Day Notice.
Please note any revisions must be submitted in DUPLICATE to the Geoscience Assessment Office, by
the response date on the summary.
NOTE: This correspondence may affect the status of your mining lands. Please contact the Mining
Recorder to determine the available options and the status of your claims.
If you have any questions regarding this correspondence, please contact Bruce Gates by e-mail at
[email protected] or by telephone at (705) 670-5856.
Yours sincerely,
ORIGINAL SIGNED BYRon C. GashinskiSenior Manager, Mining Lands SectionMines and Minerals Division
Correspondence ID: 10501
Copy for: Assessment Library
Work Report Assessment Results
Submission Number: 2 .16821
Date Correspondence Sent: J anuary 21, 1997 Assessor: Bruce Gates
Transaction First ClaimNumber Number Township(s) l A rea(s) Status Approval Date
W9680.00460 1203505 MAISONVILLE Approval After Notice January 18, 1997
Section:
14 Geophysical IP
The 45 days outlined in the Notice dated December 4, 1996 have passed.
Assessment work credit has been approved as outlined on the attached Distribution of Assessment Work Credit sheet.
Correspondence to: Recorded Holder(s) and/or Agent(s):
Mining Recorder THOMAS JOHN ELI OBRADOVICH Kirkland Lake, ON KIRKLAND LAKE, Ontario
Resident Geologist Kirkland Lake, ON
Assessment Files Library Sudbury, ON
Page: l
Correspondence ID: 10501
Distribution of Assessment Work Credit
The following credit distribution reflects the value of assessment work performed on the mining land(s). Please contact the Mining Recorder to determine if this affects the status of your claims.
Date: J anuary 21, 1997
Submission Number: 2 .16821
Transaction Number: W 9680.00460
Claim Number Value Of Work Performed
1203505 5,500.001203506 1,000.001203507 366.001203508 0.00
Total: S 6 ,866.00
Page: l
Correspondence ID: 10501
PATENTED LANUCROWN LAND SAIFLEASESLOCATED LANDLICENSE OF OCCUPATIONMINING RIGHTS ONLYSURFACE RIGHTS ONLYROADSIMPROVED ROADS tKING'S HIGHWAYSRAILWAYSPOWER LINESMARSH OK WMJ''K( 'MINES
CANCFLLECPATENTED SRO
..J —— - -L J.*
.-. (
1219354
1(107-4 jil074l j 1110787-di .'C)! ^ ^ l v_'
~ * l urn** l 111074/7 L
.-'l' rtr
ie^-ij'22. — — — ., _jsoflO MCMft* IBAMM* I
.. - . -.i_L l M*MM
1160670! H*OM7 1 213932
120351^ ...J... - ' ^.
12176^7-
1^13955^IcTl 1263506.
00
GREMFELL TWP -* M.35INOTICE OF FORESTRY ACTiViTY
lil 'li,^ Lin i ,n n ..1,1)11i' 1 *'. t i,'*;',,, Vn v ^^ 'H
AND MAV BE SUBJECT OF FORESTRY OPERATONS,THE MNR UNTT FORESTER FOR THIS AREACONTACTED AT: P.O. BOX (29
SWASTIKA, ONT. POK ITO 705-642-3222
MAISONVILLEDISTRICT OF
TIMISKAMING
LARDER LAKEMINING DIVISION
)
SCALE: 1-INCH 40 CHAINS
LEGEND
or (g) C.S
LOC
L,O
WRO.S.R.O.
NOTES
400 surface rights reservation along the shores of all lakes ana overs
Areas withdrawn f rom s takinq
WITHDRAWN KKOM STAKING. SECTION 71-C PENDING APPLICATION UNDER PUBLIC LANDS ACT
j —r i ^^ t _ , m^^j -f_ _I _ ^ _ _,. ,^— IM^ -|^ | j^ . — — ,. , 1^- . ^ ^- ,J ^^^ ^^ L ^ , _m__
ALL ISLANDS IN SESEKINIKA .AKC ARE WITHDRAWN FROM STAKING BY ORDEft-IN- COUNCIL DATED DEC. 7 . 1 921
© SURFACE RIGHTS WITHDRAWN FROM STAKING. SEC/43JTO , NOV. 8. I97O. FILE 2Z032
© SURFACE RIGHTS WITDRAWN FROM STAKING. SEC 43/7O- - NJ*,W. 5/81 JAN. Z3J90i,, F IL^ 22p32 . , | tW."***^,,,,,
TJHE INFORMATION THAT APPEARS ON THIS MAP HAS BEEN COMPILED FROM "ARIOUS SOURCES, AND ACCURACY IS NOT GUARANTEED. THOSE WISHING TO STAKE MIN ING CLAIMS SHOULD CON SULT WITH THE MINING RECORDER, MINISTRY OF NORTHERN DEVELOP MENT AND MINES, FOR AD DITIONAL INFORMATION ON THE STATUS OF THE LANDS SHOWN HEREON.
Pip— M4Q.25 ft. on
DATE RECEIVED JAM 2O1B9
42A01NE02302 16821 MAISONVILLE 200
COPY OF TM8 MYLAR COPY OF THI3 MYLAR ARCHIVED JUNF l, 199? ' AACHVRP WEC OC/WARCHIVED JONE 28, 1994 ARCHIVED MAY 22/96
. l 682 l
rig CHG.
M9 RES 8 i 40000 i
RES nai 40000
20000
l— 8
Nil
Ni2
Nt3
Nt4
RESISTIVITYNil
Ni2
Ni3
Ni4
400S 3508 3008 2508 200S 150N 200N 250N 300NL— 4
4.6 4 .Q 4.0 4 .8 t.O 10.3 ,6.7
6.0 sV /9.8
3.6 /.4 4.6
4.3 4.7 f 7 .9 6.6
M9 CHG. Nil
40p8 . 35pS , 30p8
l . 5.8 , 9.9 9.3. . 3.7 5.8 4.4 S.S
20p8 IQpN , ISpN , 20pN , 25pN | 30pN
32. OK 23.9K 14.9K JB.JK 14.2K 14.9K 24.4K 14.9K 24.BK 13.6K 12.3
23.BK 19.9K 20 .8K ̂ 8^.91^12 .IK 26.2K 27.9K 21.7K 23.7K 31 .6K
26.SK 22.SK 20.6K \4^8n 21-3K 29.BK 32.2K 20.6K 48.9K J
26.BK 23.OK 20.OK 17.2K 24.OK 32.IK 30.SK 40.7K 13,7K 25.IK
4.8KRESISTIVITY
NU
Ni2
Ni3
7.6K 6.0IK 7.4K Ni4
INDUCED POLRRIZRTION SURVEY
IPOLE-DIPOLE RRRRY
OTIS
INE : 1500 E
OCPTHOINTN r 1. 2. 3. 4. ...
•fl" SPflCINO r 50.0 FEET
R CEIVER: SCINTREX IPR-12 TIME DOMAIN
[-TX TIMING: 2Mo ON 2Me OFF
l .OTTED MINDON SLICE: *9
TtANSMITTER: SCINTREX IPC-9 200 HATT
. EXPLORATIONS CORP
IN LAKES GRID MRISONVILLE TWP
DflTE : JUNE 1995 REF : R269B
SCRLE r l : 1200
RRYRN EXPLORRTION LTD
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID
MAISONVILLE TOWNSHIP
PSUEDOSECTIONS
PLATE 1-1
SCALE l:1200
M9 CHG.
na RES8 —i 2000 —i
4-4
o —'
1000 —
RES Mg 2000 ""~ 8
— 1000
300S 250S 200S 100S 508 ON SON 100N ISDN 200N 250N SOON
— 4
i— O
30pS t 25pS , 20pS , 15BS , IQpS N , ISpN | 20pN , 25pN . 300N
Nil
Ni2
Ni3
Ni4
2.0 1.0 . 2 .4
3.9
RESISTIVITYNil
Ni2
Ni3
Ni4
1.5 2.4 2.2 2.2 . 1. .7 3.0. 7.1 Nil
3 2.7 1.5 -S l^
-7 .3 1.1 1.6 /3.0 l1.7 -3-^13.7 2.8 2
CONDUCTIVE
N , 20pN 25pN | 30pN30pS , 25pS
* . t
lK\8reX) 7 /l .SK/ 3. IK ll.
RESISTIVITYi.O J358.Q. 1.3K 851^5, 1.3K 528.0 764.0 322.0 Nil
20^ /T3*\ 925V O \fi30.0 726.0 Ni2
f.9)1- 8MK l 1.2X^*2. OK t-4K 1.4KN?29\0 Ni3
1.7K 712 1.6K 1.9K \ 1.3K Ni4
VjO^^- J^ \\
LINE O N
INDUCED POLflRIZflTION SURVEY
DIPOLE-DIPOLE RRRRY
16821 .fl.
KfTH ra i NTN - 1 . 2. 3. 4. .-.
•fi" SPflCINO s 50.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOHA IN
RX-TX TIMING: 2me ON 2mmc OFF
PLOTTED HINDQH SLICE: *9
TRANSMITTER: SCINTREX I PC-9 200 MATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID MRISONVILLE TNP
DRTE : JUNE 1995 REF : R269B
SCflLE r l : 1200
RflYflN EXPLORRTION LTD
M9 CHG.
MS 6 i
4 —
2 —J
RES RES M9 40000 r— 20000 l— 4
3008 250S 2008 1SOS 100S SOS SON 100N ISDN 200N 2SON 300N 350N 400NO i—
RESISTIVITY
N t 35pN t 40pN
NU
Ni2
Ni3
Ni4 3.9 "4.9 4.8 4 M 3.1 3.2
MOD. RESISTIVE fi RESISTIVE
30pS | 25pS | 20pS
Nil 18.6K 12.9K 29.2K 32.9K 25.4K 23.7K 37.2K 15.9K 20.7K 10.3K , 9.3K , 6.BK, 3-4.K
Ni2 e.lK^ll.lK r*^K 22llK 2 6 ' 6K 2 S ' 9K 2 4.1K 1 6.7K 14.IK 15.2K ^^
Ni3 6.8K 19.SK 14.5K^-tfl.3K 19.9K 36. IK 33.BK 16.BK 20.8K 13.2K 16.SK n.BX /.3K 3.SK 5.6KL t y ^^Ni4 7.SK 24.4K 24.SK 19.4K 10.SK 24.9K 47.9K 24.3K 22.3K 20.BK 15.3K U.IK/ 7.9K 4.BIT 7.SK
50,8 , ON , S^N . l OpN
2.9 5.0 5.4 8^6 8.9 8.5 6-9 . 5.4 6.05.9 5.1 ^.3
3.3 . 4.3 *-J- a B 2.5 47.2 4.7 4.1 7.0 7.2 7.5
2.7 5.4 4.6\ 3.2 2.8
n.a
RESISTIVE t MOD. RESISTIVE
ON t SON IQpN f I SpN l 2 0pN , 25pN | 30pN , 35pN , 40pN
5.5 4.5 5.4 4.
RESISTIVITY 1.5K Nil
.6K Nt2
Ni3
Ni4
LINE : 1900 E
INDUCED POLRRIZRTION SURVEY
i
DIPOLE-DIPOLE RRRRY
N r 1. 2. 3. 4. B" SPflCINO r 50.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2me ON Zmme OFF
PLOTTED HINDON SLICE: *9
TRANSMITTER: SCINTREX IPC-9 2M WATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID MRISONVILLE TWP
DflTE i JUNE 1995 REF : R269B
SCRLE - l : 1200
RRYflN EXPLORRTION LTD
M9 CHG.
M9 RES 8 —i 10000 h
A — —
o —'
5000
RES na r 10000 r
r 5000
OOS 300S 2SOS 2008 150S 100S SOS ON SON 100N 1SON 200N
20pS , 15p8 , IQpS , SljS , ON
M9 CHG. Nil
35pS , 30pS ,
Nil 1.2 -1.1 .1.0 .4 1.1 .7 1.6 1.0 1-6 1.3 1.9 .2.2 . .7.9
•S .6 .7 1.5 .7 1.2 1.4 1.7 1.8
.1 1.5 .7
-.5\ '.5 1.1 2.0
.7 1.1 2.0 1.7
1.0 1.4 /2.7 3.4
40pS | 35p8 , 30pS | 2Sp8 , 20pS
CONDUCTIVE 5 RESISTIVE
ON , S^N , IQpN , ISpN , 20pN
RESISTIVITYNil 232.0 238.0 202.0 306.0 ^60.0 230.031.0
Ni2
Ni3
Ni4
306.0 ^60.0 230S ^******s,.
.O 414.0 30B JB0
0^****^
368.0 460.0 394.0 391.0
437.0 505.0 364.0
RESISTIVITY Nil
OT—
C\J
LINE : 300 E
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
DtTTN*rOIMT
N s 1. 2. 3. 4. ... fl' SPflCINO s 50.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2*.e ON 2mme OFF
PLOTTED MINDOM SLICE: *9
TRANSMITTER: SCINTREX IPC-9 200 HATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID MRISONVILLE TNP
DflTE : JUNE 1995 REF ; R269B
SCRLE r l: 1200
RRYRN EXPLORRTION LTD
fi9 CHG.
US RES 6 i 30000 i
RES
4 — 20000
2 ~i 1 000Q ——i————i————i——
M9 30000 r— 6
u- 20000
RESISTIVITYNil
Ni2
Ni3
Ni4
4008 3508 3008 2508 2008 1508 1008 508 ON SON 100M l SON 200N 250N 300N10000 "—
40p8 30p8 , 25p8 , 20p8 15p3 , 10p8 5(jN , IQpN , ISpN , 20pN ( 25pN , 30pN
Nil 4.6 5.4 . 6.5 . 5-4 5.9 5.5. 8.0 .5.6 4.7 4.4 4.1 4.9 5.6. 8.3 6.5
4.B (6.9/4.8 5.1
3.9 " 8-0-' 5.0 V 2.9 J 5.7 5-3 4.8
3.*N 5.5 4.5~4.5 5.4 6.0
5.3 5.7 5.3 5.0
5.6 4.4 4.2 4.5 4.3 5.2 5.2 Ni4
40p8 ^ 3 Spj L , 30p3 , 25p8 , 20p8 , 15pS . t ...10DJ , ON QpN , ISpN ( 20pN ( 25pN , 30pN
9.SK 15.SK 11.2K 14.3K 16.4K 18.2K 29.3K 17.2K 12.2K 10.7K 19.OK 15.6K 28.7K 29.7K 22.OK
9.6K 21.6K 15.IK 14.3K 19.SK 23- 9K 17.4K 19.9K 11. Off ^K 16.BK 11.4K 18- 7K 18.3K 10.SK Ni2
13. OK 25.4K 14.3K 17.IK 23.4K 20.IK 19.6K IB.SK XjlfJjX.BK 17.3K 11.SK 14.7K 12.6K 9.4K Ni3
14.6K 22.IK 17.6K 19.7K 19.BK 25.7K 17.OK 16. BK 16.3K 12.OK 18.4K 11.OK 10.OK 12.2K 9.8K Ni4
RESISTIVITY Nil
LINE : 2100 E
INDUCED POLRRIZflTION SURVEY
DIPOLE-DIPOLE RRRRY
N r 1. 2. 3. 4. ... B" SPflCINO = 50.0 FEET
RECEIVER: SCINTREX IPR-12 TINE DOMAIN
RX-TX TIMING: ZHB ON 2ne OFF
PLOTTED HINDOM SLICE: *9
TRANSMITTER: SCINTREX IPC-9 200 HATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID
MfllSONVILLE TWPDflTE i JUNE 1995 REF : R269B
SCflLE - l : 1200
RflYflN EXPLORflTION LTD
M9 CHG.
H9
4 —
O —l
RES40000
20000
RES H9
FILT
r- 40000
- 20000
3008 2508 2008 1508 1008 508 ON SON 100N 150N 200N 250N SOON 350N 400N
30p8 , 2Sp8 ISpS , IQpS , 51)8 , ON
1.7 1.6 2.0 .--4 . .6 1.2 1.5 .-.6. 1-8 1.0 . 3.2 2.8
•9 1-4 1.5 .1
Ni4 1.2 .1 .5 1.3 ^ S - 1.4 -1.2 \ 1 .0
M9 CHG. 7.4 Nil
Ni2
Ni3
Ni4
30pS , 250^8 , 20p8 , 15p3 ( IQpS | 5(]SCONDUCTIVE 51}N t IQpN
MOO. RESISTIVE g RESISTIVE N | 20pN | 25pN t 30pN , 35pN | 40pN
RESISTIVITYNU
Ni2
Ni3
1.5K 39.7K
377.0 309.0 47.0 225.0 38.0. 219.0 345.0 390.0 J93-
4.OK 5.IK 3.4K 3.
RESISTIVITY .7K 7,5K 24.3K 26.IK Nil
375.0
360.0 464.X 717.0 5877
Ni4 380.0 396.0 458^0 830*70 B75ON 563.
Ni2
N:3
Ni4
LINE : 600 E
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
N z 1. 2. 3. 4. ... "B' SPflCINO = 50.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2wc ON 2*u OFF
PLOTTED MlrOM SLICE: *9
TRAN6MITTER: SCINTREX IPC-9 200 MATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID MRISONVILLE TWP
DflTE : JUNE 1995 REF : R269B
SCflLE ^ l : 1200
RRYflN EXPLORflTION LTD
M9 CHG.
M9 RES 12 i 30000 i
8 —
A _ -
20000 —
10000
RESISTIVITYNU
Ni2
Nt3
Ni4
RES nar- 30000 i 12
20000
3008 250S 2008 l SOS lOOS 503 SON 100N ISDN 200N 2SON 300N 350N 400N10000 L— 4
30pS f 2 5DS 20pS ; 1508^1008^508^^ ON SON tODN ISDN 35JN 4DDN
9.9.4 .8.4 .11.6 .16.0.. 9,6 7.9 7.9 7.6 6
ft.9 V7.4 7.6
.7 9 .5 \7.4 7.
Ni4 4.5 5.2 9.4 9.7 8.7
M9 CHG. 9.9 8.5 Nil
Ni2
Nt3
N:4
30pS , 25pS | 20pS ON IQpN t I SpN , 20pN | 25pN , 30pN [ 35pN , 40pN
RESISTIVITY10. 6K 16. 4K 26. 9K 8-9K 20. 8K 14. IK 26. OK 16. 7K 26. IK 14. 6K 16. 9K 17. OK 50. 4K 12.5K 16-8K Nil6.
9.8K
15. IK \ 7 .3K
12- 9K l
16- SK 20. OK 14. BK 16. 4K 14. 2K 14. 4K 24.
26. IK 14. 6K 16. BK
\13.1K 23-BK 13. 8K 94K
20. 3K 10. 6K 13. OK 20. 4K 19. 9K
17. IK lf.2K 15. 4K 11. SK 16. 3K 12-BK 9. SK
13. 4K 15. 6K 15. BK 14. BK 12. 8K /6-6K
Ni2
Nt3
Ni4
LINE : 2400 E
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
DEPTH MINT
N r 1. 2. 3. 4. ... •fl- SPBCINO z 5 0.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2..c ON 2..c OFF
PLOTTED MINDON SLICE: *9
TRANSMITTER: SCINTREX IPC-9 201 WATT
OTIS J. EXPLORATIONS CORP
TWIN LAKES GRID MRISONVILLE TWP
DflTE : JUNE 1995 REF : R269B
SCRLE - l : 1200
RRYRN EXPLORRTION LTD
M9 CHG.
M9B *^^
RES20000
10000 —
O —'
RES M9 l 20000 r— 10000
4008 350S 300S 2508 200S 150S 100S SOS ON SON 100N 150N 200N 250N 300NO L-
40pS , 3508 , 30pS , 25pS , 20pS , ISpS t lOpS SOS .ON , SON 10PN^ >/y/// 20N 25N 30N
M9 CHO. NilNil 2.3 2.2 2.6 2.7 3.3 1.5. 3-8 6^4, 4.4. 3
1.5 l 2.3 3.0
CONDUCTIVE
40pS ( 35pS 20pS 50,8 t ON 300N
RESISTIVITYNil 252.0 270.O 556.0 834.0
968*. O 1.4K N:4
RESISTIVITY Nil
LINE : 900 E
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
N r l . 2. 3. 4. ... "fl" SPflCINO = 50.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2nc ON 2..e OFF
PLOTTED WINDOW SLICE: *9
TRANSMITTER: SCINTREX IPC-9 200 WATT
OTIS J. EXPLORATIONS CORPTWIN LAKES GRID
MRISONVILLE TWPDflTE : JUNE 1995 REF : R269B
SCRLE r l: 1200
RRYRN EXPLORRTION LTD
M9 CHG.
M9 6 —l
RES 20000 —i
4 —j 10000
O tL^-.
Nil
N:2
N:3
N:4
RESISTIVITY
Ni2
Ni3
N:4
400S 350S 300S 250S 200S 150S 1005 SOS ON 100N 1SON 200N 250N 300N
40DS 35DS 30DS 25DS 2005 15DS 10DS SOS, ON SQN IQpN . ISpN . gppN 2SDN 300N' ' ' ' ' ' ' \ S S S S 7 S V S S /S S S S S S S 7 S S"~7~\ 7
8.4 4.9 5.0 3.0 2.6 3.0 1.9 3-3 ,1.
4.4 5.3 4.4 /^7N2.4 2.1 3.3 2.6
4.9 4 .9 j 2 .B\. .7 y-5 3-B 3.1 2-5
3^?——4. D 3.9 \ .91
M9 CHO. Nil
RESISTIVE
40pS | 35pS t 30pS t 25pS ISpS t I
3.9 . 12.6 N 6-1 4.3 6-3 /l.7 3.8 2.5 N:4
12.SK .S.8K 4..2K . 1..8K 2-OK.77 2.3.K V H-SK 14.4K 26.OK 26.4K 17.BK 22.3K
20.SK 15.IK 27.5K 19.3K 16.IK 10.3K N:2
15.SK 20.7K 17.OK 9.8K 13.OK N:3
JK 12.4K 18.SK 9.7K 11.7K 6.6K N:4
RESISTIVITY Nil
LINE : 2700 E
INDUCED POLRRIZflTION SURVEY
DIPOLE-DIPOLE flRRRY
N - l . 2. 3. 4. •fi" SPflCINO - 5 0.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2..c ON 2..c OFF PLOTTED WlhOOW SLICE: *9
TRANSMITTER: SCINfTREX IPC-9 200 WATT
OTH. J. EXPLORATIONS CORP
TWIN LAKES GRID MfllSONVILLE TNP
DflTE : 1UNE 1995 REF : R269B
:flLE - 1200RP v:-N EXPLORflTION LTD .
H9 RES 8 —i 40000
A - -i
o —*
"1
20000
RES M9i— 40000 i— 8
— 20000
250S 200S 150S 100S SOS ON SON 10QN 150N 200N I.'SON 300N 35DN 400N 45DN SOON 550N
ON lOpN | ISpN^jOpN 4 .' SpN | 30QN 45
GOON 650N
6SON1 ^
700N
N
— 4
"— O
M9 CHG.N: l
Ni2
Nl3
Nt4
4.8 6-4 , 5.6 6.5 9.1 5.9
5.5 4.2 ^6.7 \5.p /9.3 /.S 5
1.9 ^ 4 .8 &A 6 .6 7 .^—^7.2 7 . l
.9 4.6 *j.8 6.1 /^To^ 5.8 7.1 6
RESISTIVE
S . 'j S . O 5.0 4.7
o .9 l 3 .sC __ ̂ 3. E'. ^-H 2\ 0^-^.4 \ 2 .8 \4.5 5-6 4.7" ",.8 2.4 3-1 'i . l 'x
M9 CHG. 3.5 N:l
u c30pS—(^-2J-pS ( 20DS ^ 15DS ^ l OQS^ ^JQS ^__ON SO^N t l O^N t ,1 SgN ^ ...20D,N ^ ^S^N ^ J ?P.N ' 4. 3 b^N ^ 4 C^N ^ 4^N ^ bO|)N ^ 5t;pN
lON b L.ON SOON
RESIST I VIN: l
N-.2
Ni3
11. 2K 14- 4K 29- IK 16. ZK 23. 4K 24. 6K 32. SK 19.2K 3.SK l J K 343. C 995vVQ. . .8. OK 11. SM 18. IK 45. 9K 1I.6K 25-9K 30. 4K ,J! l ^~ ——— —— ̂ ^C^.1 ^ \ N .\ vV\. \ l j* l J
4,1^ ^-SK 24.2K 25.5K 21.IK 30.BK 32.9K 36.4K
2.2K x^XVlB-lK 21-SK 30.SK 24.2K 37.OK 29.6K
l .8K "'-"l,.9K\ i .SsJ^^ 14.3K 27.7K 33.2K 2,1. 9 *. 29. 9K 7 .
\47.1h /T5^K 43.3K 26.9K 20.6 K if;J-'
8 .6 rt M :"
X/ , M .BK 20.8K 36.8rt 32. '.K J'/BK- -fl.SK
. .--" -Tv-bK L': ;..:ir /l'-.^ V.'/'l , 'l b . H *-
LINE : 1200 E
INDUCED POLRRIZflTION SURVEY t*
DIPOLE-DIPOLE RRRRY
N - 1. 2 . 3 . 4 . . . .•fl" SPPriNC - 20.0 FEET
RECEIVER: SCINTREX IPR-12 TIME DQHA1N
RX-TX TIMING: 2..c ON 2 mmc OFFPLOTTED WlftXlW SLICE: *9
TRANSMITTER: SUNTKEX IPC-9 2BB WATT
L..'\ K. i: i i:; '..six i .
MR L 53^7 I L. ji .., . jJ:.'NF :99:i i
......™....J
R P ' fiJ
OTIS J. EXPLORATIONS COR
GOLDEN CHILD PROSPECT
MAISONVI_E TOWNSHIP
P
PSUEDOSECTIONS
PLATE 1-1
M9 20 —i lOOOdO
10l
: RESISTIVITY M9 CHO.RES
150000 —l
RES M9 j—100000 r
50000
20
10
300S 275S 2SOS 225S 2008 175S 150S 125S 1008 75S 100N 125N 150N 175N 225N 250N 27SN SOON 325N 3SON 375N 400N 425N
Lo L
2^N
M9 CHG.
, 175N t 2 0pN , 225N , 25pN , 275N
5..4 4.7 ^6.3 .8.7
3.6
M9 CHO. N:lN:2
N:3
N:4
CONDUCTIVE ZONE RESISTIVE ZONE
, 30pS ,275s t 225S 175s .ISpS ,125s .IQpS , 75,5 , 50,5 , 25,5 , ON , 25,N
RESISTIVITY
Ni2
N:3
N:4
38,-SK 40-7K 19.2K 10.7K 22.OK 27.9K 44.9K 72.4K133.6K 96.6K 37.3K 15.OK 25.SK 23.9K 7.JK 22.3K
52.6K 23. OK 19 .7K 23 . IK 42 -6K 49 .6K 82. OK 97. SK 82 . 4K 85 .8K 28 .7K 16 . IK 28-9K 11 .9K 20 .6K 15 .9
26.6K 20.8K 33.0K 45.6K 52.0K 68.0K 98.4K 54.4K 49-5K 49.9K 26.3K 18.4K 11 .2K 20.9K 10.
28. SK 38.7K 67. SK 57.8K80.6K 99.6K 64 .6K 55 .7K 50 .8K 58 .2K 38 .3K 11 .6K 19 . IK 17 .3K 16/7
pN , 125N , ISpN [ 175N , 20pN | 225N , 25pN , 27SN | 30pN , 325N t 35pN t 3 75N | 40pN | 425 N
LINE : O E
INDUCED POLflRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
fl.
N r l . 2. 3. 4. ..."fl" SPflCINO = 2 5.0 METRES
RECEIVER: SCINTREX IPR-12 TIME DOMAIN
RX-TX TIMING: 2ne ON 2Mc OFF
PLOTTED H1NDDM SLICE: *9
TRANSMITTER: SCINTREX IPC-9 2BB HATT
OTIS J. EXPLORATIONS CORP.GOLDEN CHILD PROSPECT
MRISONVILLE TWP.DflTE : JUNE 1995 REF : R269
SCRLE i: l : 2500
RRYRN EXPLORRTION LTD
M9 CHO.
M9 RES 40 —i 100000 —i
i RESISTIVITY H9 CHO.
20 —
O —'
50000 —
RES M9 r—100000 r— 40
l— 50000 — 20
Mtl
Nt2
N:3
N:4
RESISTIVITY
Ni2
N:3
Ni4
200S 175S 150S 1255 1005 7SS SOS 25S ON 25N SON 75N 100N 125N ISDN 175N 200N 225N 2SON 275N 300N 325N 350N 37SN 400N 425N 450N 475N SOON 525N 550N 575N BOON
16.6
N ISDN 175N 20DN 225N 25DN 275N SOON 325N 350N 375N 40DN 425N 450N 475N SOON S25N 55DN 575N 60DN1 v7s S/s/////sA v7//y//y//A 7
RESISTIVE MODERATELY RESISTIVE
t25RESISTIVE
, 25,8 , Op , 25,NCONDUCTIVE ZONE
^N ,10pN , 125N 275N .325N , 3SpN ,37pN [ 40pN t 425N t 4 5pN , 475N ,50pN , 5 25j4 J5JIN , 57SN
42.2K24
39. SK
16. 6K 26. 9K
21.3K22.4K
4K .7K61.6K64.1K67.1W29.0K 46.SK 43.7K 20.SK 48.3K 57. SK 26. IK 31.3K 21. OK 35.4K5l.6K 43 .3K 35 .StCflfi .0
4.2K\WjK 54-9K 70-4K146.6K 55-5K 55-OK 19. IK 41.3K 46 .3K 20. IK 24-6K 30-7K 33.OK 40.BK 57.SK 56.11646^1
46.2K124.BK 61 .BK 42.3K 19.4K 26.SK 37 .4K 16 . 4K 21-OK 32. IK 39.4K 27.7K 24 .7K 64 .BK
.IK 76.4K 61 .BK 21 .OK 36.IK 39.BK 24.6K 21 -4K 37.OK 52.7K 46.OK 36.SK 43.IK 2
RESISTIVITY BK 20.3K 12.9K 5-6K Nil
27.BK 14.9K N:2
.6K20.2K Ni3
17.6K Ni4
LINE : 200 N
INDUCED POLflRIZflTION SURVEY
DIPOLE-DIPOLE RRRRY
* . M .a
N : 1. 2. 3. 4. . . . •fi' SPRCINO z 25.0 METRES
RECEIVER:SCINTREX PR-12 TIME DOMAIN
RX-TX TIMING: 2**e ON 2mmc OFF
PLOTTED WINDOW SLICE: *9
TRANSMITTER: SCINTREX IPC-9 2m MATT
OTIS J. EXPLORATIONS CORP
GOLDEN CHILD PROSPECT
MRISONVILLE TWP.DflTE i JUNE 1995 REF i R269
SCRLE - l : 2500
RRYRN EXPLORRTION LTD
M9 RES 40 —i 80000 —i
20
Q —l
40000 —
t RESISTIVITY M9 CHO.RES (19
l— 80000
— 40000
5253 500S 475S 4508 425S 4008 37SS 3SOS 325S 300S 275S 250S 225S 200S 175S 150S 125S 100S 758 SOS 25S ON 25N SON 75N 100N 125N 1SON 175N 200N 225N 250N 275N SOON 325N 350N 375N 400N 425N 450N 475N SOON 525N 550N S7SN 600N 625N 650N 675N 700N 725N
h- 20
— O
5258 .SOpS .4758 ,45p8 , 4255 . 40p8 ,375s ^SpS ,32SS | 30pS , 2753 2508 225S i 2008 1758 15DS 12551003755 505 t 25,5 | Ojj ^ 2|N 4 SON 75^N l^ODN 125N 15JN 175N 420pN .225N JZSpN ̂ 27J5N (30pN , 325N t35pN 425N . 55DN 575N SOON .625N ,65DN .675N . 700N
M9 CHO.Nil
N:2
N:3
Nt4
.1 1.5 1.2 .3 1.5 1-8 l.O
1.8 l .4
^ -'O-viZ -1.3 -.So .8^
-l .6
2 3-2 3-6 4.7 8,2 LO.3 .8.6 10-0 1-7 7-1, 7.6,12-3 10.
4.\^^.l 4 .V 1048 .tfr^ft'.e"^ 9.4
•7\4.8lx7.V?Q.9\ 12?^ flf.4 B.9
.2 .6 \3.Q /9Ktr^ 7MJ Ml .* 11\.9 \ 9 .0 /fi .4 10.9 9x6/1.1
.5 2.7, 7.1 6.9 7.7 7.0 6.8 3.1 2.6 t .5 .4 S.I 4.3 5.5, 6.3 6.8
.8\7.1 6.3 /\^jT\l, O 1.8^.9 3.4| .2 2(^6 \4.9 4.9 /7.2
4 ^firt^-H-ra' 4.7\ B^tO.^,*-.7J (Cu-^tTg 3.8 li. 6 -. l lX ^*v 2 5."E~~ 4 .2
9.2 TK4\ 3l7\5\ li 0.1 8.9 X7. 1\ \2.8 /fT^A 3 . l \ l .5 \9 \4.9 4.9
l 6.0 5.6 5^7 5.9a-as. 4/678IhiSX 3*^ P-9 6.B/
4.5 5.07.0
CONDUCTIVE RESISTIVE
5255 ^OpS ,475S /SpS ,425s /Ops ,375s ,325s , 3Dp8 ,275S ,25pS ,225S 175S , 15pS t 1 258 t IQpS ON t 2 5,N pN , 125N | ISpN , 17SN , 20pN , 225N ,275N , 30pN | 325N , 35pN ,375N , 45pN /75N
RESISTIVE Z MOD. RESISTIVE
. 55pN ,575N ^OpN ,625N ,
Z CONDUCTIVE
( 67SN ,70pN t 7 25N
RESISTIVITYNil
Ni2
N:3
Ni4
416.0551.690.0
656.0744.05
667.083-2T1XI47.0
4K 22.9K 12.IK 56.3K 28.2K 16.3K 19.8K 8.7K
23.2K 19.2K 27.2K120.5K 29.SK 45.OK 22-9K 12
.7K 12.7K S6.0K 41.1K B0.9K 55.3K 31.7K 22.6K
.SK /C^tt 22.3K 45.9K 24.8K131 .7K 36.3K 29.9K
50.OK • 7K
2K 31 8K
30.6K 44.SK 66.BK 30
4K 37.9K 70.SK 69.
41 .7K 59.3K 64.3K
4K 70.BK 58.9K 10.
OK
li 2K 14.9K
18.IK 15.4K 10.9
17. l K
8.3K 12.5K 12.6K 13.4
26.OK 19.OK 14.6K 3^1t--
23.BK 25.7K 20.8K 10./K
O CM CM
13li
LINE : 400 W
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRflY
a.DEPTH POINT
N: l, 2. 3. 4. ...
•fi' SPflCINO - 2 5.0 METRES
RECEIVER; SCINTREXIPR-12 TIME DOMAIN
RX-TX TIMING: 2..c ON 2..c OFF PLOTTED WINDOW SLICE: *9
TRANSMITTER: SCINTREX IPC-9 2BB HATT
OTIS J. EXPLORATIONS CORPGOLDEN CHILD PROSPECT
MRISONVILLE TWP.DRTE : JUNE 1995 REF : R269
SCRLE ^ l : 2500
RRYRN EXPLORRTION TTD
M9 CHD.
MS RES 80 —i 40000 —i
i RESISTIVITY i H9 CHG.
40 —
O —'
20000 —
RES M9j— 4 0000 r— 8 0
\— 20000
H—.—i—i—i—i—i—i—i—i—i—i—i—i—i—i—^ 350S 3E5S 300S 275S 250S 225S 200S 175S 150S 125S 1005 75S SOS 25S ON 25N SON 75N UON 125N 150N 175N 200N 225N 250N 275N 300N 325N 350N 375N 400N 425N 450N 475N SOON 525N 550N 575N BOON 625N 650N 675N 700N 725N 750N 775N BOON 825N 850N
40
3SOS 32 55 3 00 S ,275S .1753 IQpS 25,5 1 OpN t 12SN [ ISpN ^7^ ( 2 0pN , 22SN 25pN 275N 30pN 375N75N 40p^ N 70DN 725N 750N t 775N
Nil
Ni2
N:3
Ni4
9.9 10-6 5.79.0 12-4 9 - 1 \^16. 1
.9 QI.2rTQ.j" 9.4 10.1 9.
8.2 9.7 . 2X^5^5 T7T3
.8 8.3 9.1 8.5 5.5 5-9. 6.9 7.5 7-1 5-4 5.2 6^3 7.3 B.C. 6.8 ^9.5 8-5 8.5
. l 9.2 8.2 8^6 J 4. 3 5^6 6.9 7.1 7.4N5.3 4.9 S^S 7.5 4 . TS^ 6 .8V O
.8 86 9.2 8.5^V.2 ^̂ ^ 6 .7 7.0 6.7 7.65.1 4.4
7~TTN 8.9/5/4 5 . ^ 6 . 3 6.3 7.0 7.3 4.7
8.7 11.1 11.5
4.7 6.0 5.75.3
35pS 3
RESISTIVITY Nil 47.61
N:2 21.2K3'
N:3 50. IK 16.51
N:4 43.7K38.3K i
SS-
17
.7K
23-4K
0 | 30pS,275S 25pS ,225S 20pS 1755 ISpS 12
4K 10.21^ j ..7K 2B.6K 37 .IK 1 1 .9K. 6^0K 4. SK
16. SK 18. SK 12.7K 29 .6K 20.3K 16.6K^VSK\ 3 .
4K 22.4K 23.1K 12 .7K 13 -OK 19.8K 19. SK ]\W-
28. 9K 29. IK 27. IK 0^2 . IK 2! . 5K 8/4 K ^TT
55 t!0|)S t 7 5^5 50,5 , 25,5 , ON , 2^N , 50,N , 75,N
3.6K.5.7K 2^5*46.0 1.0(^07.0764.0, 1.2K I
IK X-4K s NSK ^^a^St^T^K^^TK^-rT^j^^
•9K"\6.0K X'^K 7-lK^S,. IK ^vltKTTlK 4TlK 4.3*
1
3.7K
75K^..,'xlK /3.8K
4 . ,
6.3K 9-8K 9-4K 9.
RESISTIVE
!.J?..2|N .IS^N^TIN^SO^ ,325N ,35pN ,375N , 40pN ,425N , 45pN , 475N , 50pN t525N t 5 5pN , 575N
3-2K i!-DU. 2.OK 2.7K 9 .2K l t-3K V 8-2K 6 V9K 4..5K 6 ,9K l 3 .5K l 2-6K S-IK 2-3*J l l^JK , 5-,4K
JB25N
6,9^ 13.5K 12-5.9K 15.
-9K 17.9K
K 17 -6K 20.8K 18-8K 14 -SK X6K .\1K7S6.
M9 CHO. N : t
N:2
N:3
N:4
CONDUCTIVE
5N 4 7 5.M 1 1.1^ 4 BOpN ,82SN .BSpN
RES I fj "IV! O 970-0 905-0 . l .OIB44 .0 873.0 764 .0 884 .0 742 .0 898-0 N : l
•* "*^.
.0 954-a ""l -2K l -2K 0 ?-QlteS8.0 968-0 887-0924-0 Ni2
1.1K 1.4K 1.0*622.0779.0873.0 N:3
1.3K 68^'.n 691-0 M :
IT.
LINE 600 W
INDUCED POLRRIZRTION SURVEY
DIPOLE-DIPOLE RRRRY
l 682 I DtPTH POINT- l . 2. 3. 4. ...
"B" SPBCINO - 2 5.0 METRES
RECEIVER: SCINTREX IPR-I2 TIME DOMAIN
RX-TX TIMING: 2..c ON 2Mc OFF PLOTTED WINDOW SLICE: *9
TRANSMITTER: SCINTREX IPC-9 2BB WATT
OTIS J. EXPLORATIONS CORP.
GOLDEN CHILD PROSPECT
__M R I 5 O N v } L . LE T i^.
SLT : R26S: J'JNt; !9H^