MAPLE MINERAL CORPORATION EAST WEST RESOURCE CORPORATION€¦ · MAPLE MINERAL CORPORATION EAST...

Consulting-Experts in Geophysics

MAPLE MINERAL CORPORATION EAST WEST RESOURCE CORPORATION

Magnetic and Electromagnetic VLF surveyson

Shear Property

Moss Township claim map G-0676 Thunder Mining Division

OntarioMoss Lake Area

52 B 07

REPORT

January 25th, 2005

Project 245.03

QV.^:xLe

Pierre Simoneau , geol. M.Sc.

52B10SE2029 2.29141 MOSS 010

TABLE OF CONTENTS

PAGE

1. INTRODUCTION............................................................................................................................. l

2. PROPERTY, LOCATION AND ACCESS....................................................................................... l

3. CLAIMS............................................................................................................................................ l

4. PERSONNEL AND INSTRUMENTATION ...................................................................................2

5. FIELD WORK AND PROCEDURE ................................................................................................2

6. MAGNETOMETRIC SURVEY.....................................................................................................^

6.1 Process of data and work .......................................................................................................2

6.2 Presentation of the results......................................................................................................3

7. ELECTROMAGNETIC VLF SURVEY...........................................................................................3

7.1 Process of data and work .......................................................................................................3

7.2 Presentation of the results......................................................................................................3

8. DISCUSSION OF THE RESULTS ..................................................................................................3

9. CONCLUSION AND RECOMMENDATIONS ..............................................................................4

10. CERTIFICATE OF QUALIFICATIONS .........................................................................................5

LIST OF APPENDICES

Appendix A. Claim abstracts and claim map.

Appendix B. Equipment Specifications

INTRODUCTION

At the request of Mr. Robert Middleton, P. Eng. Exploration Manager for Maple Minerals Corp. and East West Resource Corp., Magnetometric and Electromagnetic survey were performed on the Shear Property. The geophysical survey was carried out by Geosig Inc. from January 20 to January 22, 2005, covered a GPS grid for a total of 6^-km. This report presents the results of the geophysical surveys over the property where there's a Gold bearing zone in strike with the Moss Lake deposit.

PROPERTY, LOCATION AND ACCESS

The Shear Property is located about 115 km west of Thunder Bay or 20 km southwest of Kashabowie and is accessible by a logging road called Swamp Road 16 km west of Kashabowie, going south of Highway 11. The Swamp Road must be followed for 13 km until a left turn on Hermia Lake West Road for another 12 km to reach the present grid area.

M^lljBj-acs y \Raith

Shebando,Shabaqua

Shebandowan Lake-A ---

Thunder BayShear

Property Superior Lake

Figure 1. Localization of the Shear Property.

3. CLAIMS

The Shear Property is composed of contiguous, unpatented mining claim blocks located within the Thunder Bay Mining Division (Appendix A ). The geophysical surveys covered a partial section of the property ( l claim blocks ). Claim abstracts and the portion of the Moss Lake claim sheet G-0676 which covers the Shear Property are given in Appendix A.

The geophysical surveys partially covered the 3 claim blocks listed below :

3000940 3000941 3011105

4. PERSONNEL AND INSTRUMENTATION

The Magnetometer-VLF survey was carried out by :

Pierre Simoneau, geol. M. Se.

The following instruments were used for the Magnetometer survey:

- GSM-19WVfieldwork, GEM System Inc., Richmond Hill, Ont. n/s 612627- GSM-19W mag sensor, GEM System Inc., Richmond Hill, Ont.n/s 6111008- OMNI-IV Base Stn, EDA (Scintrex, Toronto) n/s C-116- OMNI-IV Senseur, EDA ( Scintrex, Toronto) n/s B-135

The description of the instruments is in the Appendix B.

The report was written by Pierre Simoneau, geol. M.Sc.

The maps and were finalized by Pierre Simoneau, geol.

5. FIELD WORK AND PROCEDURE

The geophysical work was contracted to GEOSIG INC.

The geophysicist moved to the property by driving from Thunder Bay on January 20, 2005 to January 22, 2005. .

The grid was OPS end extends in an NE-SW ( 39,0 degrees N ) direction with NW-SE lines from 3-K)OS to 13+OOS, with 100 metres between each lines. A base line intersects the grid at 0+00. The MAG-VLF survey covered the grid with some exceptions along the easthern side of the grid due to lack of time.

The Mag-VLF survey covered the lines, for a total of 6,25 km. Mag-VLF stations were read at 12.5m separation on every lines with some details at 6,25m.

6. MAGNETOMETRIC SURVEY

6.1 Process of data and work

The measurements for the magnetic total field were taken with a four (4) seconds sampling readings and label readings taken each 6.25 and 12.5 meters.

One GSM-19WMV was used on the field with an EDA-OMNIIV base station with a 30 seconds registering readings period. The magnetic readings have been

automatically corrected for diurnal variations when the data was dumped with a base value of 58000 gammas. The magnetometer system measures the value of the total magnetic field with a precision of 2.0 gammas.

6.2 Presentation of the results

Geophysical data was processed and presented on maps using the computer software programs; Geosoft and Microstation.

The magnetic results are presented on a profile map ( no. 6499 ) and a total field contour map (no. 6500 ) at the metric scale of l : 2 500.

The property magnetic background is around 58 000 gammas with a maximum of 59154 gammas and a minimum of 57 880 gammas. At least 2 thin high linear magnetic anomalies are crossing the grid and seems to be related with the Creek or a valley at the base of a hill.

7. ELECTROMAGNETIC VLF SURVEY

7.1 Process of data and work

A GSM-19WMV was used on the field. The readings were taken at 12.5 meters spacing with some details at 6.25m spacing. The VLF survey was made with only one VLF station - Cutler (NAA, 24,0 kHz).

7.2 Presentation of the results

The results are presented on the profiles map No. 6498 at the metric scale of 1: 2,500.

The VLF interpretation was drawn on the maps. The VLF axis with full circles are real conductors.

The VLF survey detected eight (2) anomalies and some of them correspond with MAG anomalies. A VLF anomaly is not usually a drilling target without other indicators. It is suggested to confirm a VLF anomaly with other geophysical method prior to drilling.

8. DISCUSSION OF THE IP RESULTS

The geophysical campain shows 2 VLF anomalies and 2 weak magnetic anomalies.

The magnetic anomalies could corresponds to weak Iron Formations that are present in this area. And the VLF anomalies could correspond to topographic signals like swamps since they follows the area of a creek and the base of a hill. .

9. CONCLUSION AND RECOMMENDATIONS

The geophysical campain gave interesting information about this property.

Some of the VLF anomalies that have not be previously trenched should be checked. And to be sure of the VLF anomalies, an I.P. survey is recommended.

10. CERTIFICATE of QUALIFICATIONS

I, Pierre Simoneau of 396 Brant Street, Thunder Bay, Ontario, hereby certify:

1. I am a graduate of University of Quebec at Chicoutimi (1987) with a Master degree in Earth Sciences M.Sc.

2. I have been employed as an exploration geologist and geophysicist on a full time basis since 1987, prior to that as a geological assistant for four field seasons.

3. I am presently employed as a project geophysicist and geologist with GEOSIG Inc. of 3700 Chaudiere Blvd., Sainte-Foy, Quebec.

4. I own no direct, indirect or expect to receive any contingent interests in the subject property or shares or securities of Maple Mineral Corp, and East West Resource Corp..

5. The information contained in this report was obtained from geophysical survey conducted on the Shear property carried out by Geosig Inc...

6. I am a member of the Order of Geologists of Quebec (OGQ), a member of the (APQ) Association des Prospecteurs du Quebec, a member of the (NWOPA) Northwestern Ontario Prospector Association and a member of the CIM.

7. I have disclosed in this report all relevant material which, to the best of my knowledge, might have a bearing on the viability of the project and the recommendations presented.

8. I consent to the use of this report by Maple Mineral Corp. and East West Resource Corp. for any Filing Statement, Statement of Material Facts, Prospectus, filing of assessment work of for any other reason deemed necessary by the company,

Pierre Simoneau, M.Sc. geol.

Geosig Inc.

Dated at Thunder Bay, Ontario, this 25th day of January, 2005

Appendix A

Claim Abstracts and Claim Map

CANADAMining Land Tenure

Map

aa-t .Mini W! Wrh# 'K fi* **WWl IHH4 HhVH'l t*** (*f*tfl-i.*^f*'*..-1**niDn.**f**

C*.; 1-. rflnu. UD" l*r IT

TOWNSHIP l AREA MOSS

PLANtf-MTI

ADMINISTRATIVE DISTRICTS I DIVISIONS

Minnie Dtvinon 'nj--:i!r B., lend TlHt*'ft*Blt"V Diviion 'HUMDEft BAY Mlnslry at Nifjril Rtiogioi Dlit'iol THUNDER B*V

.VCATWiThOTICU

iidWi4Htxt PHftVm* Muutfl

Mining Lands - Mining Claims Summary

Thunder Bay - Division 40

CLAIM NUMBER:Unit Size:Township/Area:Lot Description:Staker:Recorded Holder:Recording Date:Due Date:Work Required:Total Applied:Work Performed:Total Reserve:Present Work Assignment:Claim Bank:Claim Status:

TB 30009403MOSS (G-0676)

BJORKMAN, KARL EVERETT (E33573)EAST WEST RESOURCE CORPORATION ( 50.002002-Jul-lO2005-JUL-10120012001200OOoACTIVE


TB 30009403MOSS (G-0676)

BJORKMAN, KARL EVERETT MAPLE MINERALS CORP. (2002-Jul-lO2005-JUL-10120012001200OOoACTIVE

(E33573) 50.00 *i

CD Copyright 2001 Queen's Printer for Ontario

This information is provided as a public service, but we cftnnot guarantee that the information is current or accurate. Readers should verify the information before acting on it.




TB 3000941lMOSS (G-0676)

BJORKMAN, KATARINA EAST WEST RESOURCE2002-Jul-lO2005-JUL-10400400400OOoACTIVE

EDITH (E34605) CORPORATION ( 50.00


TB 3000941lMOSS (G-0676)

BJORKMAN, KATARINA EDITH (E34605) MAPLE MINERALS CORP. ( 50.00 %)2002-Jul-lO2005-JUL-10400400400OOoACTIVE

O Copyright 2001 Queen's Printer for Ontario

This information is provided as a public service, but we cannot guarantee that the information is current or accurate. Readers should verify the information before acting on it.



CLAIM NUMBER:Unit Size:TownshipXArea:Lot Description:Staker:Recorded Holder:Recording Date:Due Date:Work Required:Total Applied:Work Performed:Total Reserve:Present Work Assignment:Claim Bank:Claim Status:


EDITH (E34605) CORPORATION ( 50.00

TB 301110510MOSS (G-0676)

BJORKMAN, KATARINA EAST WEST RESOURCE2003-Jan-302005-JAN-30140026002600OOoACTIVE

TB 301110510MOSS (G-0676)

BJORKMAN, KATARINA EDITH (E34605) MAPLE MINERALS CORP. ( 50.00 Si)2003-Jan-302005-JAN-30140026002600OOoACTIVE

O Copyright 2001 Queen's Printer for Ontario

This information is provided as a public service, but we cannot guarantee that the information is current or accurate. Readers should verify the information before acting on it.

Appendix B

Equipement Specifications

.'.V.'-

GSM-19 Overhauser

Magnetometer l VLF

GSM-19 overhauser magnetometer Features

Sensitivity = 0.02 nT

Absolute Accuracy = 0.2 nT

Sample Rates up to 5 Hz

Low Power Consumption

General

"Overhauser" Once you experience it, you'll never go back to proton. Overhauser technology brings you sensitivities one to two orders of magnitude better than proton, yet in a light weight package. This is because the overhauser magnetometer consumes less power than proton magnetometer, allowing a lighter weight for batteries.

What is the Overhauser technique? The Overhauser sensor contains the electrons' fluid that has been added to a hydrogen rich in the form of "free radial". The resulting mixture yields a sensor with 5000 times gain in proton polarization. Since the Overhauser polarization effect does not require static magnetic fields, but uses radio frequency fields transparent to protons, measurement can be done concurrently with polarization. The result is a sensor with much greater sensitivity, that can be sampled much more rapidly than the standard proton sensor.

Overhauser magnetometer systems therefore maximize resolution while minimizing power consumption. Even with Walking Gradiometer systems, sampling at rates of once per second;

Even in cold temperatures of - 40 zero degrees Celsius and greater, the internal rechargeable battery can still be relied on for a 10 hour day, or longer.

The GSM-19 Overhauser is a State-of-the-Art Magnetometer l VLF system and offers the data quality, reliability, and extensive list of capabilities, and options, that allow it to meet a very wide spectrum of applications.

Instrument Description

"Physical Overview"

The parts of the GSm-19 magnetometer/gradiometer are as follows :

The sensor is a dual coil type designed to reduce noise and improve gradient tolerance.The coils are elec

trostatically shielded and contain a proton rich liquid in a pyrex bottle, which also acts asan RF resonator.

The sensor cable is coaxial, typically RG-58/U, up to 100m long.

The staff is made of strong aluminium tubing sections (plastic staff optional). This construction allows for a

selection of sensor elevations above ground during surveys. For best precision the full staff length should be

used. Recommended sensor separation in gradiometer mode is one staff section (56cm from sensor axis to

sensor axis), although two or more sections are sometimes used for maximum sensivity.

The console contains all the electronic circuitry. It has a 16 keys keyboard, a 4 x 20 character alphanumeric

display, and sensor and power/input/output connectors. The keyboard also serves as an ON-OFF switch.

The power/input/output connector also serves as RS232C input/output and optionally as analog output

and/or contact closure triggering input.

The keyboard, front panel, and connectors are sealed i.e. the instrument can operate under rainy

conditions.

The charger has 2 levels of charging, full and trickle, switching automatically from ont to another. Input is

normally 110V 50/60HZ. Optionally, 12 VDC input can be provided.

The all-metal housing of the console guarantees excellent EMI protection.

"Software Version 4.0"

There are several major versions of software for the GSM-19. As of August 92, GEM Systems added a major software upgrade to its GSM-19 family, enhancing its capabilities. This new generation of software (version 4.0) has the following advantages:

Diurnal correction (reduction) with interpolation can be used in conjunction with other GSM-19 models with

software version 4.0 (or special software for correction with an EDA Mag Base station). This allows the base

mag to run with longer cycle time Previous software could do interpolation only with fast GSM-19 types.

Memory filing system. Now 50 files can be stored in a directory, and mode of operation can be changed

without erasing memory. With the software previous to version 4.0, only 1 file could be retained in memory,

and this would be lost when modes of operation were switched.

Line and station numbers have been enlarged. Lines can now be 5 digits as opposed to 4 digits in previous

software. Station numbers are now 7 digits as opposed to 6 in the previous software.

Standard Features

The GSM-19 magnetometer console features a real time graphic display of the current profile. In addition digital display of the current reading, current position, and warning messages are provided. The console design, with internal rechargeable battery pack, allows the unit to be completely sealed against the elements. With the built in heater for the display the GSM-19 magnetometer is ready to go wherever your surveys may take you.

Tuning is automatic worldwide, with provision for manual override. In high gradient conditions the GSM-19 magnetometer monitors the signal decay rate and displays a warning message when the gradient becomes too great. Filters for rejection of 50 or 60 Hz noise are provided.

Diurnal corrections may be done in traditional fashion with one magnetometer unit as a base station and a second unit used as the mobile field unit. At the end of the survey the two units are connected and the field unit creates a corrected data file (which still includes the raw data file) based on the temporal drift recorded by the base station.

As a standard feature GSM-19 magnetometer also offer the capability of making tie point measurements for automatic diurnal corrections. To use this feature the operator records a base value and then loops back to this point periodically during the survey to record another measurement, and thus build a file of the drift. In this way a single instrument may be used to make diurnal corrections.

The RS-232 port on the GSM-19 magnetometer will output data as it is collected. This allows interface to GPS loggers that will accept RS232 data. The standard GSM-19 magnetometer may be operated in a remote mode via computer. Memory storage is 512 K in the standard unit, and may be upgraded to 2 MB.

Grid coordinates are stored with either numeric or compass designations. A seven digit number may be used to designate lines and positions. Line and position spacing is entered so that with every reading the position may be automatically updated. An End of Line feature allows the next line to be quickly selected, plus changes the sign on the position spacing. If the previous line had been adding positions as the operator moved, then on the next line, positions will be subtracted as the operator moves. The operator may also easily manually enter his grid position for cases where gaps in the line are necessary.

"Walking Mag Option-

The GSM-19 magnetometer is the first to offer the "Walking Mag" concept. The reason for this is the outstanding advantage the Overhauser sensor has in this application. With the "Walking Mag" option the operator may select a sample rate of up to two samples per second. At this rate Overhauser technology can still deliver a noise level that is quite acceptable, about 0.1 nT, and the lower power consumption means that a full day of surveying can still be done with just the internal rechargeable battery.

As shown in Figure 1 the near continuous data from the "Walking Mag" technique provides increased definition for any type of survey. For surveys with densely spaced grids, such as archaeological or environmental surveys, field productivity is markedly improved, typically by a factor of five.

When in the Walking Mag mode the operator still presets his line and station spacing. When a known station is passed a grid update key is pressed and the current reading is tagged with this station. Readings taken between these marked positions are then linearly interpolated for their grid position when data is transferred to a computer.

A further refinement of the Walking Mag concept is the Hip Chain Option. This option uses a hip chain to trigger the magnetometer to take a reading at discrete intervals. A Hip Chain consists of an optical encoder that records revolutions of a wheel wound with disposable cotton string. The string is tied off at the beginning of a line, and as the operator walks the string is pulled out, and the magnetometer is automatically triggered. With the Hip Chain option sample rates up to five samples per second are supported.

Omnidirectional VLF

The GSM-19 VLF features a three coil design, with new larger coils in 1997, to achieve a non orientation capability with excellent sensitivity. Up to three VLF stations may be recorded, along with the magnetic reading, with the pressing of a single key.

As each VLF station is read the total field strength is displayed. This value may be used to determine if a station's signal is strong enough to obtain useful data. At the end of each reading the in phase, out of phase, and horizontal components are displayed and recorded for each station.

To determine what stations are available the Scan feature may be used. The entire VLF spectrum is scanned and stations with their corresponding signal strength are displayed. Automatic tilt compensation is provided up to ten degrees. Beyond this a warning message appears with display of the amount of tilt in each direction, enabling the operator to correct his position and take the reading again.

For Walking Mag applications a Walking VLF option is also available. With this option a single VLF station may be measured at sampling rates up to once per second. In this mode both magnetic and VLF readings may be collected at the one hertz rate.

Simultaneous Gradiometer

Many mining, environmental, and archaeological applications may benefit from using the gradient measurement. For near surface anomalies, generally twenty meters depth or less, the gradient anomaly will be larger, and narrower, than the total field anomaly. This permits the more accurate

location of the target, and gives better sensitivity. The gradient measurement has the added value of being free from diurnal drift.

The most accurate gradient measurements are made when both sensors are polarized and measured at precisely the same time. In this way any slight movement of the sensor staff pole will not affect the reading. With the GSM-19 Gradiometer Option the pressing of a single key will initiate measurement of both the total field and gradient. Both readings are displayed and stored.

Specifications

Overhauser Performance

Resolution: 0.01 nTRelative Sensitivity 0.02 nTAbsolute Accuracy: 0.2nTRange: 20,000 to 120,000 nTGradient Tolerance: Over 10,OOOnT7mOperating Temperature: -400C to +60°C

Input l Output: 6 pin weatherproof connector, RS-232C, and (optional) analog output

Power Requirements: 12V, 200 mA peak (during polarization), 30 mA stanby. 300mA peak in

gradiometer mode.

Power Source: Internal 12V, 1.9 Ah sealed lead-acid battery standard, others optional.

An External 12V power source can also be used.

Battery Charger: Input: 110/220 VAC, 50/60 Hz and / or 12 VDC (optional). Output: 12V dual level charging.

Operation Modes

Manual: Coordinates, time, date and reading stored automatically atmin. 3 second interval.Base Station: Time, date and reading stored at 3 to 60 second intervals.Walking Mag: Time, date and reading stored at coordinates of fiducial.Remote Control: Optional remote control using RS-232 interface.Input/Output: RS-232 or analog (optional) output using 6-pin weatherproofconnector.

Operating Parameters

Power Consumption: Only 2Ws per reading. Operates continuously for 45 hours on standby.

Power Source: 12V 2.6Ah sealed lead acid battery standard, other batteries available

Operating Temperature: -500 C to +6Q°C

Storage Capacity

Manual Operation: 29,000 readings standard, with up to 116,000 optional. With 3 VLF stations:

12,000 standard and up to 48,000 optional.

Base Station: 105,000 readings standard, with up to 419,000 optional (88 hours or 14 days

uninterrupted operation with 3 sec. intervals)

Gradiometer:3 VLF stations:

Omnidirectional VLF

25,000 readings standard, with up to 100,000 optional. With

12,000, with up to 45,000 optional.

Performance Parameters: Resolution Q.5% and range to ±200Vo of total field. Frequency 15-30 kHz

Measured Parameters: Vertical in-phase 81 out-of-phase, 2 horizontal components, total field

coordinates, date, and time.

Features: Up to 3 stations measured automatically, in-field data review, displays station

field strength continuously, and tilt correction for up to 100 tilts.

Dimensions and Weights: 93 x 143 x 150mm and weighs only 1.0kg.

Dimensions and Weights

Console: 223 x 69 x 240mmSensor: 170 x 71 mm diameter cylinderSensor staff: 4 x 450mm sections.Weight: Console: 2.1kg Sensor and Staff Assembly: 2.0kg

Terraplus Canada, 52 West Beaver Creek Rd., Richmond Hill, Ontario, Canada L4B1L9Tel (90S) 764-5505 Fax (905) 764-8093

if" ONTARIO MINISTRY OF NORTHERN DEVELOPMENT AND MINES

Transaction No:

Recording Date:

Approval Date:

W0540.00134

2005-JAN-25

2005-JAN-27

Work Report Summary

Status: APPROVED

Work Done from: 2005-JAN-20

to: 2005-JAN-22

Client(s):

128645

137052

EAST WEST RESOURCE CORPORATION

MAPLE MINERALS CORP.

Survey Type(s):

LC MAG VLF

Work Report Details:

Perform Applied Claim* Perform Approve Applied Approve Assign

TB 3000940 SO SO 51,200 51,200 SO

TB 3011105 S4.258 54,258 51,400 51,400 51,200

S4.258 54,258 52,600 52,600 51,200

External Credits: 50

Reserve:

Assign Reserve Approve Reserve Approve rjue Date

0 SO SO 2006-JUL-10

1,200 51,658 51,658 2006-JAN-30

51,200 51,658 51,658

51,658 Reserve of Work Report*: W0540.00134

51,658 Total Remaining

Status of claim is based on information currently on record.

52B10SE2029 2.29141 MOSS 900

2005-Feb-03 10:25 ARMSTRONGI Page 1 of 1

Ministry ofNorthern Developmentand Mines

Date: 2005-JAN-27

Ministere du Developpement du Nord et des Mines Ontario

GEOSCIENCE ASSESSMENT OFFICE 933 RAMSEY LAKE ROAD, 6th FLOOR SUDBURY, ONTARIO P3E 6B5

EAST WEST RESOURCE CORPORATION905 WEST RENDERAPT 402VANCOUVER, BRITISH COLUMBIAV6C 1L6 CANADA

Tel: (888) 415-9845 Fax:(877)670-1555

Dear Sir or Madam

Submission Number: 2.29141 Transaction Number(s): W0540.00134

Subject: Approval of Assessment Work

We have approved your Assessment Work Submission with the above noted Transaction Number(s). The attached Work Report Summary indicates the results of the approval.

At the discretion of the Ministry, the assessment work performed on the mining lands noted in this work report may be subject to inspection and/or investigation at any time.

If you have any question regarding this correspondence, please contact BRUCE GATES by email at [email protected] or by phone at (705) 670-5856.

Yours Sincerely,

Ron C. GashinskiSenior Manager, Mining Lands Section

Gc: Resident Geologist

East West Resource Corporation (Claim Holder)

Assessment File Library

East West Resource Corporation (Assessment Office)

Maple Minerals Corp. (Claim Holder)

Pierre Simoneau (Agent)

Visit our website at http://www.gov.on.ca/MNDM/LANDS/mlsmnpge.htm Page: 1 Correspondence ID:20288

ONTARIOMining Land Tenure

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Date ; Time of Issue: Thu Jan 27 14:10:29 EST 2005

TOWNSHIP l AREA PLAN MOSS G-0676

ADMINISTRATIVE DISTRICTS l DIVISIONS

Mining Division Thunder BayLand Titles/Registry Division THUNDER BAYMinistry of Natural Resources District THUNDER BAY

TOPOGRAPHIC

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2.29141 MAG VLF

d InfwtTOlton Ontaita

r

orH (N

Geophysica Legend

-500 -250

TOTAL HELD

58250 --

+250 *500

ognet c Axis

VLF Ax's

INSTRUMENTS

GSM-19 WMV of Gem System from TerraPlusOMNI-IV as base station from Scintrex

GPS 76 from Garmin

Source erf Wop: Survey* ond mapping branch. Department of Energy. M'mfti and ReiouTes. Ottawa, pubiahed In 1986.

The magnetic declination information is coming from tne Geological Commietion internet ete.

The coordinate system or the Grid li In U.T.M., N.A.O. 83.

Tht oe*raiJmct* meenefc bearing \t 1*28' Wait of Grid North in 20O4.

Th* oMHMl cfwnf* incr*4*lng 4.0.

Localization

ShebandowanShabaqua

Shebandowan Lake

Shear Property

Magnetometric SurveyMAP

Profi es and postingsPROJECT SHEAR PROPERTYFOR : Maple Minerals Corp.

Kast West Resource Corp.GEOSIG Inc. Geosig Inc

EN

PROJECT Shear Property

AREA Moss Township____

DISTRICT Thunder Bay-^ ^

SNRC 52 B 10 NE -^

SCALEO 25 50 75 100m.

DATE

Executed by Pierre Simoneou. geol.

01-05

Geomatic by Pierre S'moneau 01-05

Interpreted by Pierre Simoneau 01-05

6499Map no Project no 245.03

r

oCN 01

Geophysical Legend

TOTAL FIELD

—X——X——X——X- Magnet'c Axis

VLF Ax s

INSTRUMENTS

GSM-19 WMV of Gem System from TerraPlus OMNI-IV as base station from Scintrex

GPS 76 from Garmin

Source of Map: Surveys end mapping branch. Department of Energy, Mines and Resource*, Ottawa, pubftthed in 1986.The magnetic declination information is coming from t h t Geological Commission internet sHe.

The coordinate system of the Grid ii In U.T.U. , M.A.D. 83.

Thi approximuti moflnttlt Storing It t*2B W ut gf Grid North tn 2004.

T h* annual chan g* incrvailng 4.0'.

Localization

ShebandowanShabaqua

Shear Property Superio

Magnetometric SurveyMAP

Total Field ContoursPROJECT SHEAR PROPERTYFOR Maple Minerals Corp. ^

East West Resource Corp.GEOSIG Inc.— Geos lg In

EXPESTS-CONSDLS EN GEQPHYSiQuE

^ROJECT Shear Property

AREA Moss Township____

DISTRICT Thunder Boy^—^—

SNRC 52 B 10 NE

75 100m.

DATE

Executed by Pierre Simoneou, geol.01-05

Geomatic by Pierre Simoneou 01-05

Interpreted by Pierre Simoneou 01-05

Map no 6500245.05

om

Geophysica Legend

In Phase Out Phase

-*0 -20 o +20 **ox

In Phot* Out Pfto-14.4 Li.

In Phote

Out PhoM

~—* -^.

Total

——V———— Y——— Y____ V- A A A A

0 5 10 13 20*

Total Reid

Magnetic Ax s

VLF Axis

INSTRUMENTS

GSM-19 WMV of Gem System from TerraPlusOMNI-IV as base station from Scintrex

GPS 76 from Garmin

Sour c* of Mop: Survfyt and mapping branch. Department of Energy, Mlnei and Reioureei, Wove, publlihed in 1986.

The magnetic decflnstlon Irtfermdlon li coming fmm the Geological Cemmlwlon Wtrnel iHo.

The eoordlnote lyttim of the Grid li In U.T.M.. N.A.D. 63. Thi opprokifflct* mocnettt bearing ii i'2B' Woit of Grid Norm In ZOOS.

The annual change increMfne, 4,0'.

Loca ization

Shebandowanhabaqua ;

Shebandowan La

Shear Property

/61

Thunder Bay

penorl /"i is t*

Electromagnetic VLF SurveyMAP Cutler Station ( 24.0kHz)

Profiles and postingsPROJECT SHEAR PROPERTYFOR : Maple Minerals Corp. .

Ras6 West Resource Corp.GEOSIG Inc. Geosig Inc

EXPERTS-CONSOLS EN GEQPHYSiQuE

PROJECT Shear PropertyAREADISTRICT

SNRC

SCALE 1:2 500

Moss Township

Thunder Boy

5Z B IO NE

25 50 75 100m.

Executed by Pierre Simoneou,DATE

01-05

Geomatic by Pierre Slmoneou 01-05

Interpreted by Pierre Simoneou

6498

01-05

Map no Project no 245.03

MAPLE MINERAL CORPORATION EAST WEST RESOURCE CORPORATION€¦ · MAPLE MINERAL CORPORATION EAST...

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