submitted by: r.j. meikle · larder lake mining division, ontario submitted by: ... •ft...

* 1 NE0064 2 1:6659 KNIGHT 010

REPORT ON THE

1996 GEOPHYSICAL PROGRAM

FOR

KRL RESOURCES CORP.

JOINT VENTURE WITH

CYPRUS CANADA INC.

ON THE

SHINING TREE PROJECT

LARDER LAKE MINING DIVISION, ONTARIO

Submitted by: R.J. MeikleRayan Exploration Ltd. Apr. 24,1996

41P-1NFOG64 2 16659 KNiGMT

TABLE OF CON x n.^ i o

PageINTRODUCTION........................................ l

LOCATION AND ACCESS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 'l.

CLAIM STATUS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

PERSONNEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ri

PREVIOUS WORK.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

GEOPHYSICAL PROGRAM................................. 4,5

SURVEY RESULTS...................................... 6,7

CONCLUSIONS AND RECOMMENDATIONS. . . . . . . . . . . . . . . . . . . . . B

CERTIF I CAT ION....................................... 9

01 GC

APPENDIX "A" :

APPENDIX "B: :

APPENDIX "C" :

APPENDICES

SCINTREX I PR-12. TIME DOMAIN l.P. RECEIVER

SCINTREX TSQ-3, 3KW l.P. TRANSMITTER

SCINTREX IPC-7, 200 WATT TRANSMITTER

LIST OF MAPS

PLATES 1-4 : I? PbUEDOSECTIONS 1:2500

CONTOURED FRASER FILTERED CHARGEABILITY PLAN MAP 1:500U

CONTOURED FRASER-FILTERED RESISTIVITY PLAN MAP 1:5000

INTRODUCTION

Rayan Exploration Limited of Timmins Ontario, was hired on i contract basis by, KRL Resources Corp. in a joint venture with Cyprus Canada Inc., to conduct an Induced polarization survey on their "Shining1 Tree Project". This property is located in Macmurchy Township, Larder Lake Mining' Division. District of Sudbury, Ontario ( F i g'. l ) .

The Induced Polarization Survey was carried out during1 the months of Feb. and Mar., !996.

The purpose of this project was to test the I.P. response over a known gold occurrence on the south shore of Ashburn Lake, and to trace it out, and also to look for other areas with similar I.P. responses.

This report wi l l out i i ne the survey parameters used and results of the geophysical survey conducted on the project.

LOCATION AND ACCESS

The Shining Tree Property is located within Macmurchy Township. Larder Lake Mining' Division, District of Sudbury, On t ar i o.

The Shining Tree Property, is located approximately 80 km. south from the CLty of Timmins, Ontario. Locally, the grid is situated about 20km northeast of the village of Shining Tree, 30km west of the village of Gowganda (F i g1 . 2 ) .

o r

During the survey period, the work crew stayed in the vi l lage of Gowganda, and the property was accessed from there. A 30km. ride on Highway 560, west from Gowganda provided excellent ttccess to tlie centra] portion of the property. This Highway runs east west through the grid.

C L a i m s

The Shining Tree project is made up of 10 contiguous, unpatented mining claims. The claim numbers are as foi iows

L l 2 O O 3 7 2 L l l 9 3 8 4 6 L 3 4 l 4 3 3 LI 193736 Li 132658

L l l'.) O 9 l 6 L l l 9 O 9 l 2 L l l 9 3 7 3 5 L1202537 L l 2 O O 8 2 4

PERSONNEL

The people directly involved in the geophysical program covered in this report, Feb.22 - Mar . 2 l , l 9 9 (j , were employed by Ra y an Exploration Limited, o i' Timmins. Ontario, and are listed be low-.

Kim G i r o u x. . . . . . . . . . . . . . . . . . . . . .T i mm insPhi l Maohmer. . . . . . . . . . . . . . . . . . . .TimminsAu re l Chamont . . , . . . . . . . . . . . . . . . .TimminsDAVE MacArthur..................Timmins

All work was supervised by R.J.Meikle.

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SHINNING TREE J.V. PROJECT

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Client.: KRL RESOURCES LIMITEDPraaertu: SHINNING TREE J.V. PROJECT

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PREVIOUS WORK

The following is a brief account of the work previously filed on the Shining Tree Properties, which is currently held by KRL Resources Corp.

A number of companies have been active in the immediate area. Some of these include Timiskaming Nickel Ltd., Mcintyre Porcupine Mines. Ecstall Mining Company and Getty Mines Limited. These companies have worked the ground at different times between 1948 and 1976. A variety of different geophysical and geological programs were conducted, some of which reported encouraging results. Some of these results includes various geophysical targets as well as assay results of .005 oz/Au., .02 oz/Ag.. .02 oz/Zn. 02-4 oz/Pb and .13 oz/Cu.

Overall, work previously conducted on the properties indicates an excellent gold and base metal potential.

GEOPHYSICAL PROGRAM

The work done, subject of this report, consisted of an Induced Polarization Survey covering selected lines across the grid. The majority of the survey was done using a "dipole-dipole" electrode array and a portable transmitter. Because of the high percentage of outcrop, this method worked quite well.

Parts of the more westerly lines in the vicinity of Ashburn Lake were surveyed with a "Po l e-Di po l e' 1 electrode array and a higher powered transmitter to provide better penetration of the conductive lake bottom and surrounding swampy areas. Lines lOOW, OE. 100E, 200E, and 400E were read with this array.

The following is a brief description of the I.P. Survey Method and Parameters used:

The IP method involves applying voltage across twoelectrodes 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 giving1 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 on l \ geological setting for gold, therefore every profile should be looked at individually and correlated with all other geophysical- geological data.

Electrode Array

As mentioned, both a "Dipole-Dipol e" and "Pole-Dipole" array was used for the survey.

The D ipol e-Dipol e Array consists of two current electrodes (CI. C 2) 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 ^ ^l reading, the closest CI and PI were 25 meters apart. The C1-C2 dipole remain in the same place while the potential dipole (Pl- P2) moves ahead on "a" spacing and the array is ready for an N^l reading.

o

The Pole-Dipole Array consists of one current electrode (CI) and two receiver or potential electrodes (P1,P2), are moved down a li ne in unison. A second current electrode ( C2 ) , is placed normal to the expected strike direction an infinite distance away, at least one km. The two current electrodes are hooked up to a mo to r-genera t or and a current applied across them, usually less than 3 amperes. The applied voltage is pulsed in a 2 second on, 2 second off pattern controlled by the transmitter.

Thus we have a single pole current electrode following a pair or dipole of potential electrodes moving down the line. The advantage of this ''Pole-Dipole'' array over the "Dipo l e-Di po l e M array is a deeper current pattern between the infinite and moving current electrode, resulting' in better penetration of conductive overburden. Also, this array is considerably faster in areas of high electrode contact impedance due to frozen and or rocky ground conditions because only one current electrode placement is needed for each reading. A disadvantage of the "Pole-Dipole" array is a slightly mere ambiguous interpretation due to the a s s y me t r y of the a r r a y.

The distance between the potential electrodes is fixed. usually 25 or 50 meters and this is cai led the "a" spacing. When the potential dipole is positioned with one "a" spacing between the CI and the nearest PI. it is called a " ^-l" reading with a theoretical plot, point at the intersection o t' a 45 degree line drawn down in a section format from the CI and nearest PI. When this N:^! reading is finished, the CI remains stationary and the P1F2 dipole moves ahead one "a" spacing an if! a N^2 reading is obtained. Using the above plot convention it can be seen that the ploi point is now further from the CI and deeper. This is repeated for as many "N" readings as desired.

IP Survey Parameters

The IP survey was carried out using the following parame t ers:

Method: Time DomainElectrode Array: Dipole-Dipol e and Pole-Dipole"a" spacing: 25 metersNumber of Dipoles Read: 1-4Pulse Duration: 2 seconds on, 2 seconds offDelay Time: 310 millisecondsIntegration Time: 120 millisecondsReceiver: Scintrex IPR-12Transmitter: IPC-9 200 watt, and TSQ-3 300 kva.Data Presentation: Contoured Psuedo Sections on plate

l of l , 1:2500Map no.l.2 - Contoured, Filtered Chargeability and Resistivity.

SURVEY RESULTS

The I.P. Survey successfully outlined the known gold occurrence adjacent to Ashburn Lake, as well as several other anomalous features described below. The I.P. Survey results have been correlated with a recent Magnetome ter/VLF-EM Survey done for KRL by Exsics Exploration Ltd., of which maps are included in a separate report ID y Exsics.

Anomalv 'A'

-L200W/412N - L300E/530N-broad, resistive, strong chargeability-there appears to be some zones within the broad anomaly which re l at i ve lv more conductive and chargeable.

Anomal y "B'

-L200W/75N - L300E/135N, open to the west.-this is a relatively narrow, well defined anomaly with a mod. to high chargeability and a mod. to low resistivity response.-largely coincident with a magnetic low-indicative of sulphide mineralisation and from conversation with KRL geologists, appears \ o be c oincident with the known gold showing near the south shore of Ashburn Lake.

Anomalv

-L200W - LO. at 200N. open to the west-pa ra l lei to and approx. 100m-has a similar I . P . si gri a t u r e

north of Anomal. t o Anoma. lv ' A ' .

B

with a high

A n o m a l y ' D '

-L900E - L1300E, at approx. 100N.-very similar I. P. response to that of Anomaly 'B c h a r ge a b i l i t y 7 mo d . resistivity si gn a t u r e .

-the anomaly is wider on L1200E, where it appears that the south part is slightly more conductive, and coincident with a narrow magne tic hi gh .

Anomaly 'E'

-L500E/125N-225N - L900E/225N-362N-a broad highly resistive zone with above bkgnd charge a b i l i t i e s .-the I.P. response is indicative of a geological unit having a bigger grain size and or widely dispersed disseminated sulphides with a altered or siliceous matrix.-the north ends of Lines 500E and 700E are much less resistive and appear to be a separate zone somewhat similar to Anomaly 'B*. This zone was not covered by the I.P. Survey on L600E and Line 800E and as such it is hard to say with any degree of confidence that it is a continuous zone.

Anoma l y 'F 1

-L1100E/25S - L1300E/50S. open to east and west.-resistive and chargeable with coincident Mag' high on both lines-possibly caused by diabase intrusive.

Anomal y 'G'

-1,1300E/380S - L1700E/-4U-S-it is a chargeable zone within a bread highly resistive zone.-response on L13 E and L 17 E are similar and both have a coincident magnetic high, but on LioE where the resistivity is much lower.

-it is uncertain it' t li i s j s a continuous zone. Lines l 2 E , l 4 E . l 6 E should be surveyed with I.P. to help resolve this.

Several other anomalous features were outlined by the Survey, one being' a narrow conductive zone striking' grid iNE from 130UE/650S to L2200E/350S. open in both directions. The zone does not appear to be chargeable. This type of response could be indicative of a fault or shear zone. The VLF Survey shows a reverse type cross-over on the Inphase which does not correlate w i t li the resistivity lo w .

There a some isolated I.P. anomalies, most with a high chargeability and high resistivity signature. They are exposed in outcrop in places may be explained by prospecting.

CONCLUSIONS AND RECOMMENDATIONS

The I.P. Survey, s u b j e c L of t li i s report, was successful in out i i n i rig se ve r a l anomalies. Ali of the anomalies warrant, further wo rk to explain them. It is likely chat some of the broader, resistive anomalies could be due to rock type change, ei. bigger grain size, alteration and or a more siliceous background.

S o me of the b road resist i vi t y highs have a distinct zone of increased chargeability indicating a possible higher sulphide c on c en t ra r. i on and they should definitely be foil owed up.

Based on the I.P. Survey results and a l i m i ted know l edge of the geo logy, Anomalies B.C. and D are high priority. They a i l have t h e same gene ra l I.P. response of nigh chargeability and m o ci 1 ' 1 ra k e resistivities.

An'-j in a l y - B' appears to be coincident with the known gold -.mowing and as such may have outlined a significant untested ^l r ike 11 n t h g to p r o s p e c t by trenching and or d r i l ling.

A no nia L y ' C' is very similar in response to 'A' and i s 17) e l L f? v e d t o be un test;? d .

Anomaly ' D' is again similar to 'A' and may be [lie eastern. e \ t '-'iis i on of " A ' i n t. e r r up t e d possibly by diabase, in any u a s e . the similarity would make it a h i gh priority fer follow up work.

CERTIFICATION

I, Raymond Joseph Me i k l e of Timmins, Ontario here by certify that :

1. I hold a L h r e e year Technologist D i p l o ma from the Ha i l e y b u r y S c h o o l of Mines, Haileybury. Ontario, obtained in May l 975.

2. I have been praci ising' my profession since i 37 o in Ontario, Quebec. Nova Scotia, New Brunswick. Newfoundland. NWT, Manitoba. Germany and Chile.

3. I have been employed d i ree t l y with Teck Corporation, Me t a L l g'esse l l s chaf t Canada Ltd. Sab ina Industries, .S. Middleton Exploration Services Ltd., self employed 1979-1385 (Rayari Exploration Ltd. ) and current l y with Ray an Exploration L l (i.

4. I have based conclusions and recommendations con t ained in tli L s report on know l edge o f the area, my previous experience and on t he results o t' the field work conducted on the property d u r i ri g l 9 9 G .

5. i hold no interest . directly o r indirectly in this property, nor do l expect t o receive any interest or c o n s L d e r a t i o n s f r o m K R L Resources, c t h e r t h a n professional an ci c (.7 n ! rae t t' e e s f o r s e r vi c e s r e n d e r e d .

Dated this 10th day of May. '99(; a l T i mmins. Ontario.

R.J. Me i k le

APPENDIX "A"

SCINTREX: IPR-12, IP RECEIVER

IPR-12 Time Domain Induced Polarization/Resistivity Receiver

Brief DescriptionThe 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 uselul 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 'ntegrated, 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 modern) for processing into profiles and maps.

The IPR-12 is compatible with Scintrex IPC and T3Q 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 parameters are calculated and recorded in memory with the measured data and time.

Scintrex has been active in induced polar ization research, development, manufac turing, consulting and surveying for over thirty years. We offer a full range of instru mentation, accessories and training.

;- i, -75 *-;-~ f '-s ypsr****!"f-f* ft- "'"p^3^33iiz3A*i^"^j^JtoSitiJ&i

The IPR-12 Receiver measures spectral IP signals from eight dipoles simultaneously then records measured and calculated parameters in memory.

BenefitsSpeed 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.

APPENDIX "B"

SCINTREX: TSQ-3, 3KW IP TRANSMITTER

TSQ-33000 W

Time and Frequency Domain IP and Resistivity Transmitter

Function

The TSQ-3 is a multi-frequency, square wave transmitter suitable for induced polarization and resistivity measurements in either the time or frequency domain. The unit is powered by a separate motor- generator.

The favourable power/weight ratio and compact design of this system make it portable and highly versatile for use with a wide variety of electrode arrays. The medium range power rating is sufficient for use under most geophysical condi tions.

The TSQ-3 has been designed primarily for use with the Scintrex Time Domain and Frequency Domain Receivers, for combined induced polarization and resis tivity measurements, although it is compat ible with most standard time domain and frequency domain receivers. It is also compatible with the Scintrex Commutated DC Resistivity Receivers for resistivity surveying. The TSQ-3 may also be used as a very low frequency electromagnetic transmitter.

Basically the transmitter functions as follows. The motor turns the generator (alternator) which produces 800 Hz, three phase 230 V AC. This energy is trans formed upwards according to a front panel voltage setting by a large transformer housed m the TSQ-3. The resulting AC is then rectified in a rectifier bridge. Commutator switches then control the DC voltage output according to the wave form and frequency selected. Excellent output current stability is ensured by a unique, highly efficient technique based on control of the phase angle of the three phase input power.

Features

Current outputs up to 10 amperes, voltage outputs up to 1500 volts, maximum power 3000 VA.

Solid state design for both power switch ing and electronic timing control circuits.

Circuit boards are removable for easy servicing.

Switch selectable wave forms: square wave continuous for frequency domain and square wave interrupted with auto matic polarity change for time domain.

Switch selectable frequencies and pulse times.

Overload, underload and thermal protec tion for maximum safety.

Digital readout of output current.

Programmer is crystal controlled for very high stability.

Low loss, solid state output current regulation over broad range of load and input voltage variations.

Rectifier circuit is protected against transients.

Excellent power/weight ratio and efficiency.

Designed for field portability; motor-gene rator is installed on a convenient frame and is easily man-portable. The trans mitter is housed in an aluminum case.

The motor-generator consists of a reliable Briggs and Stratton four stroke engine coupled to a brushless permanent magnet alternator.

New motor-generator design eliminates need for time domain dummy load.

Waveforms output by trie TSQ-3

TechnicalDescription ofTSQ-3/3000WTime and Frequency DomainIP and Resistivity Transmitter

Transmitter Console

TSQ-3 transmitter with portable motor generator unit

222 Snidercroft Road Concord Ontario Canada L4K 1B5

Telephone: (416) 669-2280 Cable: Geoscint Toronto Telex: 06-964570

Output Power 3000 VA maximum

Output Voltages 300, 400, 500, 600, 750, 900, 1050, 1200, 1350 and 1500 volts, switch selectable

Output Current 10 amperes maximum

Output Current Stability

Digital Display

Automatically controlled to within ±0.1 0,'o for up to 20^0 external load variation or up to ~ I Q.% input voltage variation

Light emitting diodes permit display up to 1999 with variable decimal point; switch selectable to read input voltage, output current, external circuit resistance. Dual current range, switch selectable

Absolute Accuracy of full range

Current Reading Resolution 10 mA on coarse range (0-10A) 1 mA on fine range (0-2A)

Frequency Domain Waveform

Frequency Domain Frequencies

Square wave, continuous with approximately 60'o off time at polarity change

Standard: 0.1, 0.3, 1.0 and 3.0 Hz, switchselectableOptional: any number of frequencies in rangeO to 5 Hz.

Time Domain Cycle Timing

Time Domain Polarity Change

Time Domain Pulse Durations

Time and Frequency Stability

Efficiency

Operating Temperature Range

Overload Protection

Underload- Protection

Thermal Protection

Dimensbns

Weight

t : t : t : t; on : off : on : off ; automatic

each 2t; automatic

Standard: t = 1, 2, 4 or 8 seconds Optional: any other timings

Crystal controlled to better than .01 "'o

.78

-300Cto -i-500C

Automatic shut-oft at 3300 VA

Automatic shut-off at current below 75mA

Automatic shut-off at internal temperature of ^850 C

350 mm x 530 mm x 320 mm

25 0 kg.

Power Source

Type

Motor

Alternator

Output Power

Dimensions

Weight

Motor flexibly coupled to alternator and instal led on a frame with carrying handles.

Briggs and Stratton, four stroke, 8 HP.

Permanent magnet type. 800 Hz. three phase 230 V AC

3500 VA maximum

520 mm x 715 mm x 560 mm

725kg

Total System

Shipping Weight 150 kg includes transmitter console, motorgenerator, connecting cables and re-usable wooden crates

Geophysical and Geochemical Instrumentation and Services

APPENDIX "C"

SCINTREX: IPC-9, 200W IP TRANSMITTED

IPC-9/200W

INDUCED POLARIZATION AND D.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

External Power Sources

200W defined as when current is on and into a resistive load.

Switch selectable at nominal settings of 15, 150, 210, 300, A25, 600 or 850 V.

1.5 A maximum.

Switch selectable at 50 mA, 150 mA, 500 mA, 1500 mA full scale with accuracy of 3Z of full scale.

T:T:T:T; on:off: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 - " l - .' i -

Optically Isolated, suitable for external synchronization of the lPR-1l multichannel IP Receiver.

Two battery packs 'are standard, each containing 4 GC 660-1 lead-acid "gel-type batteries' giving 24 V at 12Ah. :~-.:~; -- ' -' ;

One Penlite battery, Eveready 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 mm; 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

i Ministry of •v'orthern Development and .Mines

Ontario)

Report of Work Conducted After Recoidlny Claim

Mining Act

Tian&acllon Number

l- j' M ; t

OPersonal Information collected on this form Is obtained under the authority of the Mining Act. This Information will be uwd lor correspondence Q jestlona about this collection should be directed lo the Provincial Manager, Mining Unda, Ministry of Northern Development and Mines, Fourth Floor, 159 Cedar Street Sudbury, Ontario. P3E 6A5, telephone (705) 670-7264. ~^

rf^V"' * i,Instructions: - Please type or print and submit in duplicate.

- Refer to the Mining Act and Regulations f' " "" Recorder.

- A separate copy of this form must be corr- Technical reports and maps must accomp- A sketch, showing the claims the work is IIP-NEDM* 2 1 6659 KNIGHT"

900[RacercJ&d Holaar(s)

-/Address

Work Performed (Check One Work Group Only)

V

Work Group

geotechnical Survey

Physical Work, Including Drilling

Rehabilitation

Other Authorized Work

Assays

Assignment from Reserve

T. P.-

Type

REG E7TTD

J!. 'L 10 HQR

MINING LAMn^ qqAMPN

tt

Total Assessment Work Claimed on the Attached Statement of Costs

Note: The Minister may reject for assessment work credit all or part of the assessment work submitted if the recorded holder cannot verify expenditures claimed in the statement of costs within 30 days of a request for verification.

Persons and Survey Company Who Performed the Work (Give Name and Address ol Author of Report)

(attach a schedule If neceaaary)

Certification of Beneficial Interest * See Note No. 1 on reverse side

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 the current recorded holder.

Certification of Work Reportl certify that l have a personal knowledge of the facts set lorth In this Work report, having performed the work or witnessed same during and/or after ha completion and annexed report Is true.

Name and Address of Person Certifying

For Ofllce Use Only•io DMSinn

j

*sf•l

-7

f* f* ft f

inu t, t z

J

l 11W 3 f

77

REG E i VED

JUL i O 19

MINING c

0*64 A

Credits you are claiming In this report may be cut back. In order to minimize the adverse effelts of such deletions, please In which claims you wish to priorize the deletion ol credits. Please mark (^) one of the lolloviing: j|j| -; Q

1. D 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.LMlMlJG LANDS BRANCH3. D Credits are to be cut back as priorlzed on the attached appendix.

In the event that you have not specified your choice of priority, option one will be implemented.

icate from

Note 1: Examples of beneficial Interest are unrecorded transfers, option agreemenlB, memorandum of agreements, etc., with respect to the mining claims.

Note 2 : If work has been performed on patented or leased land, please comoUte the following:

l certify that the recorded holder had a beneficial Interest In the patented or leased land at the lime the work was perloimed.

Credits you are claiming In this report may be cut back. In order to minimize the adverse eflefcts of such deletions, please Inc lcate from which claims you wish to priorlze the deletion of credits. Please mark (s) one of the following: j| i j .j (~,

1. D 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.L^Jl!lll^J-ANDS BRANCH3. D Credits are to be cut back as priorlzed on the attached appendix.

In the event that you 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.

Note 2: If work has been performed on patented or leased land, please com&Ute the following:

certify thai Ihe recorded holder had a beneficial Interest In the patented or leased land el the time the woik was performed.

Signatur Date

. Ministry oft3flO Northern Developmentfcv^ and Mine*

T ,' '

Statement of Costs for Assessment Credit

ionic*

.H Q HK Lake Road, Sudbury, Ontario, P3E 6B5

lhe aulhorlty 0( '""section 6(1) of the AMe5sm.nl Wort Regolatloo 8*6. Ur**r"' ^ us* lo r^ew iha aswasment wortc and corr.spood w*1h

lo thfl Chle( M inlnO Rec0fctw - M inWry o' N^h"" DevetopnWano

Work Type

Z-VJf^V ^vc/iftiAriv^fcas'/ t)^*1- *-'*~*\"^c

Units of WorkDepending on the typo ol work, list Ihe numb* of hours/days worked, melres ot drilling, klto- roe'res o' grid line, number ol samples, etc.

^^^f /t~C*JL~-i

-

Associated Costs (e.g. supplies, mobilization and demobilization).

Transportation Costs

Food and Lodging Costs

Cost Per Unit

-v^f^/-? ,—I*rt ——— j, :mf y. — J ———————

v C,

R E C E i

JUL 10 '

—— MINING LAMPS

Total Value of Assessment Work

Total Cost

2'?3i~ w

-^

y/ ED'

96

BRANCH

J/ftf-o"

Calculations of Filing Discounts:

1. Work filed within two years of performance is claimed at 1000A of the above Total Value of Assessment Work.2. If work Is filed after two years and up to five years after performance, it can only be claimed at 50*^ of the Total

Value of Assessment Work. If this situation applies to your claims, use the calculation below:

TOTAL VALUE OF ASSESSMENT WORK x 0.50 Total S value of worked claimed.

Mole:- Work older than 5 years is not eligible for credit.- A recorded holder may be required to verify expenditures claimed in this statement of costs within 45 days ol a request for verification and/or correction/clarification. If verification and/or correction/clarification is not made, the Minister may reject all or part of the assessment work submitted.

Certification verifying costs:

, do hereby certify, that the amounts shown are as accurate as may(pleas* print full name)

reasonably be determined and the costs were incurred while conducting assessment work on the lands indicated on

the accompanying Declaration of Work form as

to make this certification.

__________________(recorded hffder. agent, or tut* company position with tigning authority)

l a™ authorized

0711 (01-94)

OntarioMinistry ofNorihern Developmentand Mines

Ministere duDeveloppement du Nord et des Mines

Geoscience Assessment Office 933 Ramsey Lake Road 6th Floor Sudbury, Ontario P3E 6B5

August 30, 1996

Telephone: (705] Fax: (705)

670-5853 670-5863

Our File: 2.16659 Transaction #: W9680.00339

Mining RecorderMinistry of Northern Development k Mines4 Government Road EastKirkland Lake, OntarioP2N 1A2

Dear Mr. Spooner:

SUBJECT: APPROVAL OF ASSESSMENT WORK CREDIT ON MINING LAND, CLAIM(S) 1182658 ET AL. IN MACMURCHY TOWNSHIP

Assessment work credit has been approved as outlined on the Declaration of Assessment Work Form accompanying this submission. The credit has been approved under Section 14, Geophysical (IP), of the Assessment Work Regulation.

The approval date is August 30, 1996. Please indicate this approval on the claim record.

If you have any questions regarding this correspondence, please contact Steven Beneteau at (705) 670-5855.

Yours sincerely, ORIGINAL SIGNED BY:

Ron C. GashinskiSenior Manager, Mining Lands SectionMines and Minerals Division

SBB/jf

cc : Resident Geologist Cobalt, Ontario

"ssessment Files Library Sudbury, Ontario

CH

UR

CH

ILL

TOW

NSH

IP

1205

812

C28

II2I

12(0

663

1206

416

CM

——

l Q

\ Ik

.

1211

774

il

'121

1834

1204

064

12^5

537

1204

070

dIH

SN

MO

i

OD

3 O m

2

886-

9

Claim Location

41P11NE0064 2 16659 KNIGHT 210

North Grid l

r

Natal T ownship MacMurchy Township

•IB*™-t!-e i \ B 1-3 S 1

sil 3

— 7 S \ in a s \

9 S X.

|2 -13 S14 S15 S16 S17 S

S S

20 S21 I.22 S23 S24 S

ObrodovichGrid1995 16659

Grid Location Map Scale: 1 Inch = 3/4 Mile

41P11NE0064 2.16659 KNIGHT 220

KRL RESOURCES

IP SURVEYM9 CHG.

N:3

N:4

SHINNING TREE

JOINT VENTURE PROJECRESISTIVITY

MACMURCHY TOWNSHI P

SCALE 3 :2500

PLATE

N:2

N:3

N:4

M9 CHG.

N:2

N:3

N:4

RESISTIVITY

N:2

N:3

N :4

M9 CHG.

N:2

N:3

N:4

RESISTIVITY

N:2

N:3

N :4

M9 CHG.

N:2

N:3

N:4

RESISTIVITYNil

N:2

N:3

N:4

, 1 5PS , 125S , 1 0P S . 7^ s , 5 C|5 , 2^5 ( ON f ( 125N (

7.5

11.36-6 6.1 .10.7 . 8.J .4.4 4-5

114^TT 8r5ldO-2 11.5\ .7 9/7 7~4lia7T\ 9.

caterer

RESISTIVE

, 75,5 ( 50,5 2!jS f ON StjN t 75,N ( 10pN t 125N ( ISpN f 175N t20pN ( 225N 275N ( 30pN ( 325N . 35pN ( 375N t 40pN ( 425N , 45pN ( 475N ( 50pN ( S2pN ( 55pN (

SK5Xx5 . OK^ . 2K-^7 . W-JN OK6K 15.IK 19.SK 9,.3i

18.OK l l .5 IK 11.7K l

8.4K42.6K 7.3K

15. 3K 12.4K13.6K^2K2 1 -IK 36.6K 17.7K 13.7K//473X 25.9K 16.3K

0.8K 9-JBK 13.3K 27.0K 60.4K 38.5K 19.6K ///M lm.8K 27.8K 15.3K

RESISTIVITY N:l N:2 N:3 N:4

LINE : 200 W

INDUCED POLRRIZRTION SURVEY

DIPOLE-DIPOLE flRRflY

-CiOtfTH

N - \. 2 . 3. 4. ...

"fl" SPflCINO - 25.0 METRES

RECEIVER: SCINTEX IPR-12 TIME DOMAIN

RX-TX TIMING: 2e.c ON 2..c OFF PLCTTTED WINDOW SLICE: *9

TRANSMITTER: SCINTREX IPC-9 200 WATT

KRL RESOURCES LTD-

SHININGTREE J.V. PROJECT MRCMURCHY TOWNSHIP

DflTE : MflRCH 1996 | REF : R317

SCRLE ~ l : 2 500

RAYAN EXPLORATION LTD.

M9 CHG.5.5,2-8

N:2 N:3 N:4 14.6 15.0 13-S. 15.2

CONDUCT l VE

RESISTIVITYi 10pN ( 125N 175N ( 20pN ( 225N t 25pN ( 275N f30pN ( 325N

2KN:2

N:3

N:4

2.OK 3.OK .1,41922.0787.

4.0 B .B J 6^ 1.1*2 1 0 -3 13.0^13.4 13.4 B. 5 N:l

/wjty^Q/ffiK Q e ft j | f^Tg - 4 '^jJ^^^^^/ÎL: l N ! 3/VA9.\ //BxB xTJ.4 /IS.MM./PÔ/Z/âj^^^^^^-^.S N:4

CONTACT

RESISTIVE

v

N ,35pN (375N ( 40pN , 425N ( 45pN ,475N , 50pN , 525N ,55J)N

RESISTIVITY

4.1K 18.7K 13. IK 6.2K l^K 5.9K 5 .4K 8 . OK 1 5 .9K N:l

.^ Jb^^^^^fwf/ 3 .sV^.8K^.^Ki:i8^BK 19-BK 14.BK N:2

I ÔK/^TaK^ZA^W^^K/aê^^^KSl .6K 22. OK A&JX^Z .1*. N :3

.6(r5.9H^2x5inir8K/ B/ l/K/fTTTK 1 5 . 1 K 17. IK /^WTOTft 7 7. SK N:4

LINE : 100 W

INDUCED POLflRIZRTION SURVEY

POLE-DIPOLE flRRflY

— (Eh r(Eh

^"v /'

H - l. 2. 3. 4. . .. "H" SPflCINO = 25.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 ..c ON 2 ice OFF TRANSMITTER: SCINTREX TSO-3 3KVA SLICE TIMING: 310-405 BI PLOTTED WINDOW: SLICE *0

KRL RESOURCES LTD.


DflTE : MflRCH 1996

SCRLE -

REF : R317

1 : 2500


20pS t 175S ^.ISpS ^

3.8 3.4 3.7 4.5 . 6-1, , l .6

3.9 3^8/4.6 4

4 /3 4.8 5.1

5.6 5.2 6

125N (15pN 175N20PN 225N 25pN ( 275N

.6 3.7 2.3 2.8 4.2M9 CHG.

N:2 N:3 N:4

CONDUCT l VE

RESISTIVE

5 i t Ofl ^SN [ 15pN t

l-SK 1.7K l.BK

3.IK 2.61^^;

1.6K

225N , 25pN [ 275N

CLfi-lB

35pN . 375N ( 40pN t 425N t45pN ,475N .SDpN t 52^N ,55pN t 575N

15.SK 25.7K 14.9K 16 13.9K 19.7K 19-9K

3K 20.9K 16 .6K 14.2K,

3K 15.6 16.4K 2.6K

7xrVK32.5K 944.3K 6.0K

-OK/ 5. 6K

RESISTIVITY

N:2

N:3

N:4

LINE : O E


POl F -DIPOLE flRRRY

aerrn mtn

N r 1. 2. 3. 4, ... "fl" SPflCINO r 25.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 t.c ON 2 ••c OFF TRANSMITTER: SCINTREX TSO-3 3KVA SLICE TIMING: 3IO-4O5 m .

PLOTTED WINDOW: SLICE *0

KRL RESOURCES LTD.

SHININGTREE J.V. PROJECT MACMURCHY TOWNSHIP

DflTE : MAR 1996

SCflLE - l :

REF : R31?

2500


2005pS ^M9 CHG.

4.9 3.8 3,9 5.2 5.4 5.6 4.8 3.B x4^2 5.6

4.2 5.7 6^0T 6 .7 7.1 7.3 8.0 6.8 7.4 7.5

.7.5 .4.8 5.0 4-8 .3.3 3.4

RESISTIVE

, 30pN , 325N N ^ 4JJON ^j N , 575N

0931 .0 xT.2K l -SK l .3K ^

9K 10.2K 10.7K 29.6K 2.6K 12.4K 22.8K

OK1-7K

RESISTIVITYN:l

N:2

N:3

N:4

LINE : 100 E

INDUCED POLRRIZflTION SURVEY

POLE-DIPOLE flRRflY

urn roiMTN - l . 2. 3. 4. ...

"fl" SPflCIND - 25.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 xc ON 2 ..c OFF TRANSMITTER: SCINTREX TSO-3 3KVA SLICE TIMING: 310-405 o PLOTTED WINDOW: SLICE *9

KRL RESOURCES LTD-

SHININGTREE J.V. PROJECT

MRCMURCHY TONN5HIP

DflTE : MflRCH 1996 REP : R317

SCflLE - l: 2SOO


DEEPER

20pS t 20pN , 225N t 25pN t275N t 30pN t 325N t 3SpN , 375N ÔpJL^2^N^ 45pN ^475N | 50pN 525N 55QN S75N B OON

4-9 3.2 3.5 5.1 5.8 5.0 4.7 ,6.7 t 3.9 4.9 4.7 3.0 4x? S^-^TS" U-H——B-r^r' 7.6 6Vt^ 54

4.7 ^X4 6.9 6.5 6.17.0 7.3 6.8 7.2 /^9.3 8.8 9.

.9^4.0 3.4 2.0 2.0 2.4 2.0 2.2 2.0 2-5 2.34-j 2-5 3.0 2.7 2.9 2-9 2.5 2-5 3.0 3.0

5.2 /3.3 3.7 3.3 3.5 3.4 3.3 2.6 3.5 3.4. 4^-4-rr—-^. O 4-0 3.9 3.6 3.3 3.5 X^ 5 -4 X^.2

2-9 4.1 4-5 4.9 5.86-8

7.5 7.8 4.6

2 gTo\ 5/6 6 . o

M9 CHO. N:l

N:2

N:3

N:4

LAKE

f Oft 75fN t l.OpN f 125N ^ 15JJN ( 175N ..,20pN ,,225N f 25pN ,275N ( 30pN ( 325N ^35pN ( 375N t 40pN ( 425N

3K 1^ l .9K l v4W30 ^0 435.0 274 01.22 .0 23JJJJ 324.0 324.0 264^02 1 3. 0RESISTIVITY

N:l N:2 N:3 N:4

LINE : 200 E


POLE-DIPOLE flRRflr

OCPTH POINT

N ^ l . 2. 3. 4. "fl" SPflCINO - 2 5.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 i.c ON 2 i.c OFF TRANSMITTER: SCINTREX TSO-3 3KVA SLICE TIMING- 310-405 li PLOTTED WINDOW: SLICE *9

KRL RESOURCES LTD.

SHININGTREE J.V. PROJECT MflCMURCHY TONNSHIP

DflTE : MflRCH 1996 REF : R317

SCflLE ^ l: 2500


1.1665 9

M9 CHG.

N:2

N:3

N:4

RESISTIVITY

20C

DEEPER

( 125S ( l OpS ( ( ON J^N (

2.0 1.5, 4,.l 5.8 5.2 5.0 4.2 4.7 5.8 4.

7.3 7.8 7-9

5-2

20DN 225N 25DN 275N 30DN 325N 350N 375N 400N 425N 45DN 475N SOON 525N 55DN 575Nv ' f ' Y ' f ' * ' p ' Y ' p ' v ' p ' Y ' *vy////// 1/////}*

^n3.9^3.5 3.J) 4.6 5.2 6.0

5.1 4.5 4.4 5.0

.2 6.7\ 5.4 4.9 4.8/7-2 .2 \7.6 6-7\5.6 5 .6^7.5

4.4

( 10ps . 5050,5 2^5 ( ON f .,, N ( 125N ( 15pN f 175N ( 20pN ( 225N ( 25pN ( 27pN ( 30pN ( 325N ( ,, 1 ,,,,,,,

OK 2.6K 5 ..OK 5.6V 3.9K 3. OK 3 vOU. 3.4K. 7.9K 5r ' o 3

SK 3.SK 3.BK 3.2K 3.2K 4.6K

4/OK 3. SK 3

LAKE -

N f 375N ( 40pN ( 425N ( 45pN f 475N ( 50pN ( 525N ( 55pN 575N ,. 11 ,,,,,.

0,377.0 257^0210.0

43B-0 S2ft-a^777[T3'M-r03U .0 31 ? B02.0T04.0S3~l~rO~AB^M-5M^

7.0

l 56 .0 151^0^2 .0 l B9 -0296- O

338. S) 47fl..

1.2K

RESISTIVITY N:l

N:2

N:3

. SK 1.4K N:4

LINE : 300 E


POLE-DIPOLE flRRflY

DEPTH rniNTN - l, 2, 3, 4. ...

"fl" SPflCINB - 2 5.0 METRES

REEEIVEH: SCINTREX IPR-I2. TIME DOMAIN

RX-TX TIMING. 2..c ON 2..c OFF PLOTTED WINDOW SLICE: *9

TRANSMITTER. SCINTREX IFC-9 200 WATT

KRL RESOURCES LIP.

SHININGTREE J.V. PROJECT ___MRCMURCHY TONNSHIP __

DflTE : MflRCH 1996 REP : R317

SCRLE ~ l : 2500


41P11NE0064 2.16659 KNIGHT 230

KRL RESOURCES

IP SURVEY

SHINNING TREE

JOINT VENTURE PROJECT

MACMURCHY TOWNSHIP

SCALE l:2500

PEATE 2-4 M9 CHO.Nil N:2N:3

N)4

RESISTIVITYNil

Ni2

Ni3

N:4

25N t sqN 12fN ,15pN .175N ,20pN ,2Z5N ,25pN 27SN30pN

-H -Jt?--^ i ^

ON , Z^N , StjN t 75^ ,10pN , 125N ,15pN t175N | 20pN ,ZZ5N t2SpN , 275N t 30pN

.6K 2 V7K 4.SK3.9K fl.ZK 9.

9.2K g.BK

. .. ..

Sm Z ,m

3.9K

RESISTIVITY 6.4K 7. IK 6.2K 6.0K 7 -StLJT^lK Nil

6 .4K /1TT21V. 6 .6K^f^9K B.4K 9.3K NtZ

7 .W-Y.2KX 8.6K 9.5KU^2K 5.9K N:3

5.7K 5.8K 6.3K 6.7KT 9.3K 8.8K/1.0K B^3K 6.7K Ni4

LINE : 400 E


POLE-DIPOLE flRRflY

OCTTM PfllNT

N ^ 1. 2. 3. 4. .-. fi* SPflCINO r 25.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 ..c ON 2 ice OFF

SLICE TIMINO: 310-403 u t

PLOTTED WINDOW: SLICE *8

KRL RESOURCES LTD.



SCRLE - l : 2500

RAYAN EXPLORATION LTD

ON , 2^N 5(jN 75,N lOpN 12gN , ISpN t 175N ( 20pN ̂ ZZgN a|2Sj)N

M9 CHG. M9 CHB. Nsl 6-1 4.3 3.8 1.4 5.6 8.4 13.6 10.1 10.7 10-5 ^1 NU

1 U m 9 C .J C 1 \ ^ C^- J t "li 1 D flt A *y h 1 3 ^^ i m , , .•^^ "1^ ~^t IQII^t U.9

Nt3 7^0\ 4:3 —— 4-^4---^.^ lllf.7 12.4 1 3 . 6 ̂ Krt^li^BlS . 4 12.6 Ni3

Nt4 5.6 ^G^f^sT* 7 .\7 11 .1\13.0 M-7 15.0 14T8~~T*. 1 10.1 Nt4

i

ON , 2^N S^N 75,N lOpN 125N 15pN 175N , ZOpN (225N ,25pN

RESISTIVITY RESISTIVITY Nil 6.8K 4-9K 4.0K 1^/JK 4.9K 2^K 9 ^K^Sj^K 16 -4K 23 .7K 35 .8K N:l

————————————————— in? ————— IT.^^iK/.iH Z.W t.ZIV^WTTTllN.7iyw.5K37.3Kg4.3K ——————— (U*. ———————————————V\T 1 - 1 /S f ^. ^\.

Ni3 18.3tt\^VQK 2.8K Z . W/1T.4K12 . 8K 16 .ZK\7.SK Z4 .6K Z9 .4K 37 .IK Ni3

N*4 B.wNaTg^ /r^K/af.OJK/Z.BK 13.7K 16.3K 9uOK 1B.7K42.9K 17.4K Ni4

LINE : 600 E



. A . M . fi .

r^ r^|\ ,'

KFTH*raiirr N : 1. 2. 3. 4. ...

•R" SPflCINO = 25.0 METRES

RECEIVER: SCINTREX IPR-12. TIME DOMAIN

RX-TX TIMING: 2mc ON 2ne OFF PLOTTED WINDOW SLICE: *9

TRANSMITTER: SCINTREX IPC-9 2BB WATT

KRL RESOURCES LTD.

SHININGTREE ,MRCftURC-HY

DflTE : MflRCH 1996

SCRLE ^

J.V. PROJECT TOWNSHIP

REF i R317

1 : 2500


CO CO

25ft OONIZSN

M9 CHG.

, 175N t20pN t 25pN t 275N

Nil Ni2 Ni3N:4

9-9 2.5, .8.4 , .2.2M9 CHG.

5.1 ^3-2 4.1 Nili^l^S.B Ni2

N:3

N:45/ 5-3 5.5

RESISTIVITYNU N:2

Ni3

Ni4

N t 225N ^SpN .275N

IB

LINE : 1000 E



J?J

PtFTH*!N r 1. 2. 3. 4. ... SPflCINB z 25.0 METRES

RECEIVER: SCINTREX IPR-1Z. TIME DOMAIN

RX-TX TIMING: 2..c ON 2..c OFF

PLOTTED HINDON SLICE: *9


KRL RESOURCES LTD.



SCRLE ^ l: 2500


M9 CHG.NU

Ni3

Ni4

RESISTIVITY

N:2

Ni3

N:4

41P11NE0064 2.166S9 KNIGHT 240

ON | 2SN . SON 75.N .IPPN 125N . 150N . 17SN 20pN 225N t25pN

M.I

ON 75fN , 125N

RESISTIVITY Nil

N:2

Ni3

Ni4

LINE : 1200 E



II Ml .11

fi

N r 1. 2. 3. 4. ...*fl" SPHCINO r 25.0 METRES

RECEIVER: SCINTREX IPR-12. TIME DOMAINRX-TX TIMING: 2..c ON 2Mc OFF PLOTTED WINDOW SLICE: *9


KRL RESOURCES LTD.


MRCMURCHY TOWNSHIP


SCRLE - l : 2 500


KRL RESOURCE

IP SURVEY

SHI . T \ 11"^ T~ i—)[— r~.1 i !\l! -i , ^ r ri i \ L.- , l_. .M i !Nl; M9 CHG.

JOIN] VENTURE" PROJLT"T"

A

Nil

N:2

N:3

N:4

RESISTIVITY

Ni2N-.3

N:4

pS 1175S ,.15pS , 125S t 62 700N

3.5 4.7 5.7 7.9 ^.5 4.4 4.6 5.5 4-6 4.6 4.1 7.1 7 2.6 /B.O^xffTBA 4/8^x6.6 B^S^S. l 5.9 4.6 4.2 5-5 4.8 4.

1.8 4/5 /7.3 9.6 4.4 y.5 7.4~6~T3i 5.0 4.3 5.2 *TS 1.7 4/6 6/2 6.2\ 5.8 5.k 8/f 8"Ta 3.6 4.6 5.0 B^5 /S.l

39.0

3.4

M9 CHG. N:lN:2 N:3 N:4

TOO IMOISEY POUR CONTACT

RESISTIVEl RESISTIVE

UN ^ 75fN t lOpN t 125N , ISpN t 175N ( 20pN t225N [ 25pN ,275N ___ 625N

6K24.9K 38-IK 21-4K 34.9K 25.4K

[K 16.BK 15.SK 16-OK 11.4K 7.1K 4.7K ^1-9 19.4K 14-9K 16.2K /7.TK 6-BK ^ÛL

16.4K 13.BK 9/flK VÎK 7.0K 14.0K jB^ZK 9.OK 8.6K

LINE : 500 E


DIPOLE-DIPOLE RRRRY

N ^ l . 2. 3. 4. ... "R- SPRCINO = 25.0 METRES


RX-TX TIMING: 2..c ON 2nc OFT PLOTTED WINDOW SLICE: *9


KRL RESOURCES LTD.


^JIRCMURCHY TOWNSHIP ^REF : R317DflTE : MflRCH 1996

SCRLE r l : 2500RAYAN EXPLORATION LTD.

QLU•^^^5-*_

UJ OUJCC

CDenCD'

O. — 1

—JID—J

0Z

DCCDWQ

1 02 2S

70pS .6755

M9 CHO.

N:2

N:3

N:4 9.4

4255 , 40pJ5 J75S [ 35pS ^3255

6.5. 4.4 .6.9 6.3 7.2 7.9 5.9 7.4 5.5 6-!

8.1 6.9 7.5 7.8 7.5 7.1 S-T/

7.2 j ^3\1.0 7 .3/4-2

7.8 8.2 8 .5\ 7.3 /.B 6x

t 25pS ,225s t 20pS ,175s

5.0

7.6 7.3

1J5S IOCS 755 SOS .255 ON 25N SON 75N lOpN 125N t- - i- -t- -* 'i^y'x y s s's y / l s Y \* ' ' ' * *

i/1

175N 20DN 225N . 40N

6, 5.0 4.6 4.3 6.Z 2.3 3.2 Z.6 5.4 7.1 9.3 8.9 8.0 7.0 4.2 5.4 5 3^^3) /.9 4-0 2.8 /I.5 61.2/9.9 3-ri 9. 6^-4*^5\ /Vr6~4.9 4.9

5-1 (B-B/y^G 4 .0 3.4^-4V7 5. l/ 8l^7 /B -8 l l -3 -.sv^.814^2 4 N 6.0 5̂ 4J3\S\SrTr*\S.SSl.S /4TT\ 8/3 1/D.9 /7 .8 8 ^K\2.3 4V2

O 4.8 9.4M9 CHG.

N:lN:2

N:3

N:4

70pS ,67pS ^SpS ,625S (60pS ( ,525S ^4255 ,40p6 ^755 (35pS ^

RESISTIVE

^2755

I RESISTIVE

lQDmCT

RESISTIVE

| 175S 4 ISDS t 1 25S t 7SS ^ 12pN , ISpN , I75N t 20pN . 225N ,25pN | 275N l t 30pN 35N 37N

RESISTIVITY7.4K

N:2

N:3

N:4

K 22 .BK 2 1 .6K 1 4 . IK 16 .SK 1 1 .BK 38 .BK 29 -4K 23 . IK 18 .BK 9 .OL 9.7

20.9K 22. 9K 10. 4K 25. OK 27. 3K 24. 2K 28. 7K 37. 2K 15. 3K H. O

19. 7K 34. 7K 12.*|j!\K 19. BK 17. 9K 17. SK 45. 4K 19. 3K 20. 4K 41. 9K 28. 6K 19.3K

28. SK 1 9. l K IsTgtN 7^2* 16 .6K 32 .4K 29 .9K 29 -SK IB .9K 28 .BK 30. IK 35 . IK 64K

OK

8K30.1K29.6K 40.9K 36.0K 39.2K

3.7K 7. IK jGuflKsk 4\BKnbARfd

' 1 l J.7\61{ 16.OKIK Y4.OK \9:*3K 11 .3K 19.4K 12

3K,11 .4K JJj.lK 30.6K 9 .4K 18 .4K 24 .OK13.9K 20.8K 17.3K 10.SK 20.

2.6K28.2K 17.7K 14.7K 11.22-7K 25.2K 14.SK l 2.S*Sjfs9K

RESISTIVITY N:l

N:2

N:3

N:4

LINE : 700 E


DIPOLE-DIPOLE RRRRY

-fl.. -fi-DEPTH fOlHT

N - l . 2. 3. 4. ...

"R" SPRCINO r 25.0 METRES


RX-TX TIMING: 2nc ON 2..c OFFPLOTTED WINDOW SLICE: *9


KRL RESOURCES LTD.

SHININGTREE J.V. PROJECT MflCMURCHY TOWNSHIP


SCflLE :: l: 2500


M9 CHG-

N:Z

N:3

N:4

RESISTIVITY

N:2

t S75S (55pS ̂ ^S (45pS ̂ 42.58 | 40pS .^3755 ( 30pS .2755 t 25pS 75,5 t 25,5 5tN 175N .25DN ,27SN t 30pN , 325N (35pN N t 425N N ,525N ^SpN |57pN ÔpN , 625N ,65pN .675N

3.5 2.8 3.2 3.1

1,1 . 4 . Z l .B 2.7 3.2 3..9 5.4, 2.6 2.6 2.5 4,0 4.2 6.3 3^5 6J. 5.7, 6.Vi 5.^v 2.3/^-T^^^Z.5 (5.6/2.1 2.9 3.5 vK3 1*S—*-A-J.Z fi^ 4.7 '

6.9 \5.3\ K-6 1.4/ 3.^7-^1^802.4 3.6 3.7"^TT9 3.3 l .B l /-4 3kJ 5.9 l 7.9 6.7\ 4.^. \.4 /2.5 stt V.I 3 .1 /^B -T/A 3.1 KS\ /.2\ 6.8 7.3 \

7.8 7.7 6.4

7.4 7

7.9 8.3 8.7

3*8 \ 8 5.2 4.9\

9.5 .6.7 5.1 4.9 3.9 3.4 2.5 vJjS, 3.4 4.2 3.1 8.6\ 6N——6~TS 4. i 2 .6 3.1 2.7 3.0 /4.6/3.0 2.

9.0 i.7 7.6 B.3 \3.4 2.6 3.5 3-6 4.^2.5 2.4 T/6 /^flTaN 6.6\ 4.3 3.3 3.2 4 JC—773 2.6 3.2 3.

CONDUCT l VE RESISTIVERESISTIVE

1 50pS t 4 755 t 4 5pS .3755 4 35pS ^3255 t 3 0pS | 2755 ^SpS .2255 ÔpS .1755 125S 2S|S , 1 25N tjL5pN , 17J5N ÔpN |22pN

N:4 86 20

28.6K25.4K21 .6K

TO.p^^ptt 3.7

,6K iB/i^-ÔK /6.4

2..0K 3. OK

^- -^4.7S^6T4X /.3K ,9T7K

.IK V4.2K,, 6.QK 12.BK 9^,2K 31 .7K 6.7K 6-3jm^2K 11.5K 13.5K 15.

B-72K gjK-iWiK â-^K H.SK /^Sjv,i4.6"11/. IK 17.SK 8MIK14.3K ^J?K eSqX 13

.2K 2.6K 2.2K

2.2K 2.61 BK 4.6KN 1-9K

.SK 3. OK 6. IK 6.61; ^XTOK 5.7K .OK !ion

o

325N [ 35pN . 3?f N

-3K23.3K20.0K39.2K 9.6K12.7K x19.9K 19.3K 41.3K 1S.7K 12.ZK 18.0

.3K 14-7K31.2K 14.2K 1B.7K 14-3K lIK 18-6K 12.1K23.1K 9 .6K 16 .2K 19 -7K

LINE : 900 E


DIPOLE-DIPOLE RRRRY

DEPTH POINT

N = 1 . 2. 3. 4. ... "H" SPRCIND = 25.0 METRES


RX-TX TIMING 2..c ON 2..c OFF PLOTTED WINDOW SLICE: *9


KRL RESOURCES LTD.


TDflTE : MflRCH 1996 REF : R317

SCRLE i: l : 2500


M9 CHG.

N:2

N:3

N:4

RESISTIVITY

PS .5755 55055255 5005 4755 4505 4255 4006^ ?~* v//y A ~* -*-*-*-t-~-e - -*^ t 3255 f 3 0pS 50S0S 255 ON 100N125N15PN175N ( 20pN t225N t ^30pN t32SN ,35pN (375N 440pN , 425N

4.9 .3.7 3.8, 5.3 .3.5 3.5 2.3 2.5 2.1 4X.2 V7.3 6.5 9.2 1.9 3.4

3.5 3.2 3.3 2.4 3.8 3.2 2.5

3.1 2.3

2 2.92.1 3.3 2.5 4.6 .3-8 5.0 2.4 3.2

3.0 2.7 3.7^~3V7 3^7 ^.6 2.6 3-2

3.8 2.3 4Q) 2.6 3.7 2.5 (J73 2.7/ .5

3.7 3.6 3.5 3.0 3.8 l

CONDUCT l VE

l lRESISTIVE i

M9 CHG.

N:2

N:3

1.2 1-4 N:4

45pS , 42SS | 37^6 , 35ps , ^ 225^5 1 ^ 25fN , 1 25N 1 75N 1 20JJN H 225N f 2 N t 30pN ^ 325N ^ 3SpN

.OK 19.4K27.2K 3K49.8K23.4K 8.6K 33.SK

10.IK ^8.6KJ2.9K 15.OK 16.018.OrM6.7K22.lK 19.

23.OK 12.sVl4.2K21.OK.l .4K 20.OK 20.6K 14.4K 15.IK 24-6K 11 .7

4.2K 3.IK 3.BK 3.IK 5.3K 7 JK 5,OK 4.9K X 2 (kx3.5K 3.3K -e^SHv^J-S/ 7.3K 6.2 1v1SnX3..2K 4.PK B-r^*-Jl*2*( 9.4\2\iK\ s.gK/e.aK/TsTi^

LINE : l 100 E


DIPOLE-DIPOLE RRRRY

ra i NTN z 1. 2. 3. 4.

"R" SPRCINO = 25.0 METRES


RX-TX TIMING: 2..c CN 2..e OFF

PLOTTED WINDOW SLICE. *9


KRL RESOURCES LTD.


MRCMURCHY TOWNSHIP ̂ ^

REF : R317DflTE : MflRCH 1996

SCflLE n l : 2500RAYAN EXPLORATION LTD.

., - -tiof

DEEPER

5505 5255 5005 ^4755 4" 'ZZZ2ZZZZ3 ^

t 425S ^2758 ,25ps f 225S .^ 75^100N125N (!SpN f!75N 420|IN ,225N ^25pN ^ f 325N ,

M9 CHG.

N:2

N:3

N :4

3.5 ^4.2 v 8,4 8-4 8 .4.4 4.3 3^-6 Z. 8 3.1 2.5 3.1 3.4 3-5 4,0

2.7 3-4 2.1 2.4 3.7 4 .

4.8 - . ~^.7 \3.2 4.0 3 .7^--5Trx l .-6 4VT ^ ~

4.0 5.6 5.0 N3.4 3.5 3 5.1 6.1 5.3

4.2 5.1 "^l\5.3 5.2 \6.

N 525N 550N 575N 600N

M9 CHG. N: l N:2 N:3

14.4 N:4

RESISTIVE

CONDUCT l VE

RESISTIVE

( 60pS (575S , t 4SOJ5 ^ t 3755 (35pS ^3255 t .20(15^1755 ON 51N .125N ^1 N t 27pN | 30pN (325N | 35pN ,375N ^DpN t 425N t 4SpN t 475N t50pN ,525N

RESISTIVITY

N:2

N--3

N:4 8 -6K 20

21 .BK 43.3K 21 .4K86.7K30.8K64.2K

6K 40 .7K 27 .9K 37 .OK 64 .BK 84 . IK

1B.5K 27 .OK 42 .6K 26 . l Ml 50 .9K 5.

33.8K 21 .4K 34.7K 20.9K 12.3K 40.2K 27.2K 59.9K lO.l

K 56.SK 21 -7K 9 .7K 48 .OK 36 .OK 7.5K B 25.7K 45.5K 17.OK 63.2Khl36.5K 6B.OK27.2K 8-9H-f5 .4K 10

1.7K l ./s^K 47.4K93.9K 3^21. SK 9.^

. 4K5,JxK 2.5K 2.BK

5.2K\2.3/ 4.\~.s

4.BK 3.6K S-BK/S.S 2. OK/67aK\4.3K 3.7K/2.4K

.9K 7.1K 3.BK 4-8K 4.9K2.2ZM^T. SK 4-3K

0

LINE : 1300 E


DIPOLE-DIPOLE RRRflY

H UK .K

DEPTH POINT

N - l . 2. 3. 4. ...

"R" SPHCINO = 25.0 METRES

RECEIVER: SCINTREX IPR-12 TIME DOMAIN

RX-TX TIMING: 2nc ON 2uc OFF PLOTTED WINDOW SLICE: *9

TRANSMITTER SCINTREX IPC-9 200 WATT

KRL RESOURCES LTD .


__ MRCMURCHY TOWNSHIP

MflRCH 1996DflTE REF : R31?

SCRLE - l : 2500RAYAN EXPLORATION LTD.

M9 CHG.

RESISTIVITY

N:2

N:3

N:4

DEEPER675 ,625S (60pS (575S 40p8 (375S , ( 30pS ^2753 ,25pS ,225S

7.9 3.B 2.8 l J. 3.5 6. D 8 .7 7.6 7.6 6-6, l ,6 2.0 -.6 .2 -.2 .5 3V ^~-1.7 B^^S.7 Z.S/'-'-rv

1.7 7.6 ' |.t-T^6 6.4

N: 3 16.1 ATI 3 ( R 4 .9 5 . 4\ T^TJS. 1\ 1.3 7 . N:4 11.9 13.B\\.9 776X5-6 5.2"^s3.6 6-9 5-7 A QSB 5.3 S .\ 6 -V \ (-.3

175S ,15pS ,125S ,lppS Ô^îJjilifU^f'^lf , T-[ltiap^HB ̂ 7 ̂ l , lOpN | 125N , ISpN ( 175N ( 20pN ( 225N ,2bpN ( 275N , 30pN

M9 CHG.l 2.1 7.0, 4.2 5.5 4-8 2.6 3.3. 6.3 7.8. 8.5 11.1 , 7.9 6.9 5.8 6.3. 4-1 6.3 N:l ^^ i v—' -—— l \ _ \ \ \ X. l \ V

4-0 Q . 7 l J 4\.ZJ B^^NZJ? 9.zVjn^ ̂ BX 6.4X5-9-^67*-—6-2 N:Zl l l ^^^Vk. ^ \ ^*\ ^^^\

N:3

N:4

POLR CONTACT

RESISTIVE

CONDUCTIVE ZONE ? CONDUCT l VE

AREA OF POUR CONTACTS

CONDUCT l VE

lRESISTIVE

J5J|iS 50pS ^4755 .35^5 ^3255 ( 5CJS ( N t 125N ( 15pN 1

56. 9K 39. 9K l 7.

48. BK 12.4*-"B.4X"22.5K

8,-Ori 6.5K. 3.0K K l a ' 1 K 2 3 • P " ' ' ' 7 K " K

^7K \\-BK l 3. OK l 7. OK 13.8K 15.9K\b.4K '. 4\7\ N -2K 14-OK 9.7K 12 .8K 10.l2K\ 5. 7K

LINE 1500 E


DIPOLE-DIPOLE HRRRY

DEPTH POINT

N : l . 2. 3. 4. . -.

*fl" SPRCINO ^ 25.0 METRES


RX-TX TIMING: 2..c ON 2..c OFF PLOTTED WINDOW SLICE- *9


KRL RESOURCES LTD.


MRCMURCHY TONNSHIP

OflTE : FEB 1996 REF : R317

SCRLE n l : 2500


41P11NEOOB4 2.16659 KNIGHT 250

7

M9 CHO.Nil

N:3

N:4

RESISTIVITYNil

Ni2

N:3

Ni4

70pS675865pS62SS60pS ,575s [ 55pS ,525s ÔpS .4755 ^SPS 42554005 375 !5

^5-403 n^J^j,!,,^.^ 3.1 ,4.5 5.5 S-6 .8.6. 5 V.3 ____J.3 ,6.

.3255 .2758 .25J15 .2255 , I15S .1255 , 10p8 , 75,5 , 25^5 , Q{4 ^2Jpl , 5(}N t .125N .ISpN ( 17SN ÔpN ,225N 425pN t275N , 30pN . 325N ^SpN .375N t40pN . 425N . 45pN

11^5-^1 5.7 .B.I 4.9 3.8 4.8 4.8 6. 8^3 6.7 6.7 6.6^ 5-3 1.9 4,.3 3^, 4 .4 4.3 5.8 5.6 3.6 3.1 3.3 3.3 3.9 3.8 2.4 2.3 2.8 3-4 3.3 6.0 6

5.3 4.1 4.2 4.7 4.9 4-7 2.7 3.1 2.8 2.7 4.3~}.l 5-*) 5-5 83 60 6.7 7.0

.8^-6^4/5.

11. B 3 .7 6

. 1 5 . 5 4.2 4.6 fr 2.8 3.4^ .5 2.3 3.5 3-2 f i.

4.5 /S^S/4.9 4.7 4.8~3 Z .Q 3-9 6.0 4.4 JBT2.3 5.8 l.2 3 .0 3.6 2.3"3.

4.3

.6 IB-:9

M9 CHG. NilNi2

N--3

N:4

OMTACT

l l

LOW SIGNAL

NARROW CONDECTIVE ZONE

POUR CONTACT

RES ' ST ' VE

comer

l ^

7 Ops ,675s t65pS ^258 ̂ DpS ,575S , 55pS ,525s . 50pS ^755 ,45pS ^255 ̂ OpS ,375s , 35pS ,325s | 30pS ,275s | 25pS t225S , 20p5 | UpS ^SpS ̂ 255 | IQpS

CONDUCT l VE

C|S N ( 125N f ISDN , 175N t 20pN ( 22SN , 25pN , 27SN , 30pN , 32SN , 35pN , 37SN t 40pN t 42SN , 45pN t 475N t 50pN t 525N t 55pN , 575 N

44.9K 17.4K

21.IK 23.3K 21

15.IK 14.SK 28.8K

6.5K-W.4K 23.9K

20.8K. 7.4K B.IK 12 -OK 12 -SK Bin a ôi\ i . *n

15.8K\U2Jrf4TlK 13.OK 12.6K 11.2K 10.^K

.OK 19.8K 18.5K 21.1K 16.BK 11.8K

20.BK 38.8K 26.0K 27.7K 15.7K 9/4K/4

2.8K 2.QK, 8.i2K 3.9K-— y \—x x* 2K 2̂ . IK 3 . 9K—"3 * 5tt 2 *

; 3.2K 4.3K /^.2K 2.9K3.2K 4.3K/2.2K 2.9K

SK 2.3\ 4.4K *^3K 2.IK 2.4K 3.OK 2.

RESISTIVITY • 6K^J7,.3K 5. l K 2-6K Nit

.OK 7.4K13.1K Ni2

'.IK 2rH^S-JlK—4OK N;3

3^n*K ^TeK^K^K^S^K N:4

(H

LINE 1700 E

INDUCED POLflRIZflTION SURVEY


OCPTM PUNTN r 1. 2. 3. 4. ...

"fl" SPRCING z 25.0 METRES

REIEIVBR: SCIMTREX IPR-12. TIME DOMAIN

RX-TX TIMING: 2..c ON 2..c OFF PLOTTED MIMXM SLICE: *9

TRANSMITTER: SCINTREX IPC-9 2BB HATT

KRL RESOURCES LTD-

SHININGTREE J.V. PROJECT MflCMURCHY TONNSHIP


SCRLE - l : 2500


KRL RESOURCES

IP SURVEY

70p3 ^753 .6258 ,575s .52585003 4753 t45p8 ,425s ,375s t 35ps , 325S 275s ( 2253 ,175 ,125 , 75,8 , sqs 17SN ÔpN t 225N t 25pN t275N t 30pN t 325N i 35pN , 375N ,

M9 CHG.Nil Ni2 Ni3 Ni4

M9 CHG.3.7 2.9 2.6 2.8 3.9 2.9 4.9 . 2.9 4.2 3-3 5.5 6.3 ,5.5 5.4 4.5 4.4^3.3, 5.6 4.8 7.0, 3.9 5.0 3.3 6.0 5.6 5.2 4.0 4.5 5 .B 9.1 Nil

l 4.1 2.8 4JJ-—rri~) 2.6 3.5s^-Vj}—~^3 4 /5^-^3^6 5 49 6.8\5.3 5.4 4.7 4.7 4.8 4.7 5.8~~4.6 5.3/3-2 3)a feTsN 4. 7^-3-^\ 5.3 4.7/8.1 Ni2

2.0 3 .1 AÔ 6 .1 /.O 3.0 2 .1/71^^5.2 4 .4Vaig l 7.7 6.V 4.9 Arjv 5-3 5.9 4.6 5-2 3^ 6.0 |^4 3.8^/4.6^-^8 ^.3 3\vx 5.4^8':9 Ni3

2 /H'S. ^To 5.9 4.t 3.2 2-4 A /4 6 .7\ 4.2 4.5 5.81 7.1 6^——"lÔ 6\ 5.4 5.9 5-4 3^6/5.2 4.4\ 3.1 M. 4 /-^T3-^ 4. 2^-*T* 2.0\4.9 Ni4

RESISTIVE

*w l uNAc

CONDUCTIVE

ZONE

70S 67pS ,675s ( 6258 575s 25s 475s 42SS , 3758 ,32SS , 30p8 t275S ,225S ,175s ,125s 25,8 N , 12pN , 15pN t!75N ,225N t 30pN .375N

RESISTIVITY

N:2

Ni3

Ni4

40.2K 19-8K 23.2K 13. IK 48.SK

32.IK 40.8K IB.9K 11 -2K 46.6K 14.3

23. OK 32 -OK 38.3K T^K 23 .7K 17 .4K 14 27.8K 22.BK 27.6K 13.SK 18.6K 10.0K 17 .3K 3.7K 4.IK

IK 3.IK 4.8K 3.411 7.9K 8.3K7.4K 26.9K 5

"876K 3.9K 4.2K 4.3K 3 \( \ O . 2K /6^0K\8VgK—^K.

3.4K 4.6K 3.8K 4.4JU-5. gV-T/OK 6.

3 OK ^ C If Q Qlr O Kit J Ck *7 CW • an o * ur\ j * on ty*m* 4ôr\ i * DA

. 4K

.9K

3K

RESISTIVITY N:l

N:2

Ni3

Ni4

LINE : 1900 E


DIPOLE-DIPOLE flRRRY

N z 1. 2. 3. 4. ... •H- SPBCINO s 25.0 METRES


RX-TX TIMING: 2..c ON 2..c OFF PLOTTED WIMDOM SLICE: *9


KRL RESOURCES LTD-


MflCMURCHY TONNSHIPDHTE : MflRCH 1996 REF : R317

SCRLE - l : 2500


LINE : 2100 E


S INNING TRM9 CHO.

JOINT VENTURE PROJECT

MACMJRCHY TOWNSHIP

SCALE l:2500

PLATE 4-4

BO

RESISTIVITYN:l

Ni3

Ni4

CONDUCTIVE ZONE

RESISTIVE I

.7755 t75pS ,725s ÔpS J51fS ( 65^ ̂ 62^3 J575S^55pS ^2|J^5prjS^47^S^45rj3 t42^S ^40^ J75S ^35^8 ( 32^3 .SOpS .2753 ^SpS .2253 | 20pS

M9 CHO. Nil

N:3

Ni4

41P11NEOOB4 2.16659 KNIGHT260


N r 1. 2. 3. 4. . .. "fi' SPHCINO = 2 5.0 METRES


RX-TX TIMING: 2..c ON 2..c OFF PLOTTED MINDDH SLICE: *9


KRL RESOURCES LTD.


MflCMURCHY TOWNSHIPDflTE : MflRCH 1996 REF : R317

SCflLE - l : 2500


o o

rnCO

o o21rnCO

o ornID CO

IX)o ornD CO

CO Oo

ID CO

-fs- O O

rn IDCO

en o o

ID CO

CDo o

IDCO

-J o o

T) CO

CD O O

ID CO

o o o

ID CO

Oom D0)

o o

ID CO

COo ornXI CO

en o ornX) CO

o ornX) CO

CD O O

rnX) CO

700 NORTH

600 NORTH

500 NORTH

400 NORTH

300 NORTH

200 NORTH

100 NORTH

BflSE LINE

100 SOUTH

200 SOUTH

300 SOUTH

400 SOUTH

500 SOUTH

600 SOUTH

700 SOUTH

K) O O

CO

O O

CO

Oo o

ID CO

K) O O

ID CO

COo o

ID CO

-fi. o ornX) CO

en o o

X) CO

CDoo

X) CO

-o oCD

X) CO

CDo o

X)CO

o oCD

X) CO

o omD CO

PSD o ornID CO

COo ornX) CO

en o o

X) CO

o o

X) CO

CD O O

rnX) CO

K)i—* o ornX) CO

K)

o ornXI CO

700 NORTH

600 NORTH

500 NORTH

400 NORTH

300 NORTH

200 NORTH

100 NORTH

BflSE LINE

100 SOUTH

200 SOUTH

300 SOUTH

400 SOUTH

500 SOUTH

600 SOUTH

700 SOUTH

800 SOUTH

LEGEND

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 sec ON 2 sec OFF

TRANSMITTER: SCINTREX TSQ-3 3KVA

SLICE TIMING: 310-405 ms

PLOTTED WINDOW: SLICE #9

READING INTERVAL: 25 M

CONTOUR INTERVAL: l ms

ELECTRODE ARRAY: Pol e-Di pole

Linea 100W. 0E. L100E. 200E. 300E. 400E

Li.

Dlpole-Dlpole

200E. 500E. 600E. 700E. 900E, 1000E

1100E. 1200E. 1300E. 1500E. 1700E

1900E. 2100E

200 100 B0 100 200

CI l ent: KRL RESOURCES LTD.

SHINNING TREE PROJECT

CONTOURED CHARGEABILI

FRASER FILTERED

RECL

JUL l

MINING LANE S BRANCH

Processed:RJM

Dote:MAR. 1996

Provlnee:ONT.

Sea l el:5.000

Checked:RJM

TownshlRACMURCHY

N.T.S.:

Dr~ow l no :CHARGE

EXPLORACONTRACT/CONSULTlsD OEOPHYSCS

TIMMINS. ONTARIO

17051-268-4866

M' b D

1996

9

41P11NE0064 2.16650 KNIGHT 270

ro o o

o o

rnCO

oo orn3D CO

o orn3D CO

LO o o

3D CO

o o

3D CO

en o o

3D CO

COo orn3D CO

o o

3D CO

CDo orn3D CO

CDo orn3D CO

o orn3D CO

no o orn3D CO

CO O O

rn3D CO

en o orn3D CO

oorn3D CO

CD o orn3D CO

roo orn3D CO

700

600 NORTH

500 NORTH

400 NORTH

300 NORTH

200 NORTH

100 NORTH

BflSE LINE

100 SOUTH

200 SOUTH

300 SOUTH

400 SOUTH

500 SOUTH

600 SOUTH

700 SOUTH

800 SOUT

700 NORTH

600 NORTH

500 NORTH

400 NORTH

300 NORTH

200 NORTH

100 NORTH

BRSE LINE

100 SOUTH

200 SOUTH

300 SOUTH

400 SOUTH

500 SOUTH

600 SOUTH

700 SOUTH

800 SOUTH

LEGEND

RECEIVER: SCINTREX IPR-12 TIME DOMAIN RX-TX TIMING: 2 sec ON 2 sec OFF TRANSMITTER: SCINTREX TSQ-3 3KVA SLICE TIMING: 310-405 ms PLOTTED WINDOW: SLICE *9

READING INTERVAL: 25 M

CONTOUR INTERVAL: 1000 OMH-METER ELECTRODE ARRAY: Pa l B-Di pole

Lines 100W. 0E. L100E. 200E . 300E. 400E

Dipale-Dipale

Lines 200E. 500E. 600E. 700E. 900E. 1000E

1100E, 1200E. 1300E. 1500E. 1700E

— ~ - ~ - - ————— 1900E. 2100E—————————————————^—

ro o o

CO

o o

rnCO

oCD O

rn3D CO

ro o orn3D CO

COoom3D CO

O O

3D CO

U1a orn3D CO

CD O O

rn3D CO

-J Oo

3D CO

CD O O

3D CO

O O O

3D CO

Oa rn3D CO

ro o orn3D CO

LOa orn3D CO

en o a

3DCO

o orn3D CO

CDo o

3D CO

Oo

3D CO

2BB i ae BB i ae 2BB

1 fiA Mtl

CI lent: KRL RESOURCES LTD.

SHINNING TREE PROJECTTitle:

CONTOURED RESISTIVI

FRASER FILTERED

RECEIVEC

10 1996

MINING LANDS BRANO

ProcessedRJM

Date:MAR. 1996

Prov t nee :ONT.

Scale:l:5.000

Checked:RJM

Townshl p:MACMURCHY

N.T.S. :

Draw l ng :RES

RAYANEXPLORATION LTD.CONTRACT/CONSULTNG GEOPHYSCS

TIMMINS. ONTARIO

17051-260-4066

41P11NE0064 2 16659 KNIGHT 280

submitted by: r.j. meikle · larder lake mining division, ontario submitted by: ... •ft...

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