Report on Magnetics Surveys

at the

Santa Maria Prospect Cobalt Area, NE Ontario

RECEIVED

Clear View Geophysics Inc.

31M05SE2070 2.28057 GILLIES LIMIT 010

Report on Magnetics Surveys

at the

Santa Maria Prospect

Cobalt Area, NE Ontario

On behalf of:

Cabo Mining Enterprises Corp.595 Howe Street Suite 502 Vancouver, B.C. V6C 2T5

telephone: (604)681-8899 facsimile: (604)681-0870 E-mail: seymour@searsbarry.com

Contact: Mr. Seymour Sears

By:

ClearView Geophysics Inc.12 Twisted Oak Street Brampton, Ontario L6R 1T1

telephone: 905.458.1883 facsimile: 905.792.1884 cellular: 416.617.1884 E-mail: clearview@geophysics.ca

Contact: Mr. Joe Mihelcic

ClearView Ref: I0106a

ClearView Geophysics Inc.

TABLE of CONTENTS

INTRODUCTION2. ACCESS ___________________________________________________ 1

3. TOPOGRAPHY 4 VEGETATION————————————————————————————— 1

4. CLAIMS ____________________________________________________ 2

5 - GEOLOGY ___________________________________________________ 3

fi PREVIOUS WORK — — — — — — — ~— — — — ~ . ___________________________ T\j* * n ̂ m v t\jf\j*j 9 v ^^n ix ~~~~™~™~~~~~~~™™™~~~~™™~~~~~"-""'"'*'"— ™— ™————— ̂ ~— ~~~~~— ~~— ~™~~™™~™~™™™— ~~~™™™™™™™™™™™~— ~~™~~™~™~~™ j

7^ LOGISTICS __________________________________________________ 4

8. SURVEY METHODOLOGY -----------....-........-...-.---------------—— —— —— —— —— —— —— — —— — 6

8.1 Magnetometer Surveys ———————————————————————————————————————————————— 6

9. DATA PROCESSING AND PRESENTATION———————————————————————-^

10. DISCUSSION OF RESULTS— — -— — — — — — — — — — — — — — — — — — — — — — — — —— — — 7

1 1 . CONCLUSIONS------------------------------------------—————————————————————— 8

12. REFERENCES--------------------------- ————— ————— ————— ————— ————— 9

13. STATEMENT OF QUALIFICATIONS, JOE MIHELCIC— — — — — — — — — — — — — — — — — — 10

APPENDIX A - Instrument Specifications APPENDIX B - Plates

LIST of FIGURESFigure - Santa Maria Prospect Grid Location Map................................................... page 2

LIST of TABLESTable l - Survey Specifications ...............................................................................page 4Table 2 - Survey Grid Coverage ..............................................................................page 5

LIST of PLATESAppendix B

Plate I.................................................Total Field Magnetics; Contour Plan Map, 1:5000

Plate 2.................................................Total Field Magnetics; Profile/Postings Map, 1:5000

CLEARVIEWGeophysics Inc.

1. INTRODUCTION

ClearView Geophysics Inc. carried out total field magnetics surveys for Cabo Mining Enterprises Corp. (hereafter Cabo) at their Santa Maria Prospect, located approximately nine (9) kilometres southeast of the town of Cobalt. The work was completed in early June 2004. The following sections (2) through (6) were supplied by Cabo personnel (references at end of report).

2. ACCESS

Access is via the Coleman Road that departs eastwards from Highway 11A at the southwestern end of the town of Cobalt for 5 km to the abandoned "Mayfair" minesite and for 41/2 km south along an ATV trail. The south end of the grid is easier reached via the Houndchutes Road (a Hydro Dam access road that extends southward form the Coleman Road at a point 11/2 kms south of Cobalt).

3. TOPOGRAPHY Si. VEGETATION

Maximum relief on the property is approximately 80 metres. Topography is generally rolling with local steep ledges and cliffs and occasional swamp. The property drains into the Botha and Borden Lake system (both of which occur within the grid), which flows southward and westward through the grid area and into the Montreal River.

Overburden is relatively shallow over much of the grid except for local swamps. Vegetation consists mainly of mature mixed forest with abundant dense underbrush.

ClearView Geophysics Inc.

JULY 3,2004

r

4. CLAIMS

The grid covers parts of four unpatcnted mining claims numbered as follows:

K 1098668 K 1135378 K 1140509 K 1221535

r,

The following map indicates the location of the Santa Maria Prospect Grid

claims relative to topographic features:and

Figure - Santa Maria Grid Location Map

ClearView Geophysics Inc.

JULY 3,2004

5. GEOLOGY

The grid is located in the southern part of the Cobalt mining camp. The eastern half of the grid is underlain by highly deformed Archean aged mafic to felsic metavolcanic rocks. These rocks are steeply dipping and trend in a northwest - southeast direction. A Nipissing aged diabase sill believed to be up to 300 metres thick occupies the western part of the grid and dips gently (25 degrees) eastward into the Archean volcanic rocks. In the extreme southeast and southwest corners of the grid, there is a shallow cover of relatively flat lying, Huronian aged, Coleman Group conglomerate.

Numerous "Cobalt Type" prospects, consisting of silver-cobalt-base metals hosted within calcite-quartz veins and vein breccia, are known to exist within the grid area. At least 4 shallow shafts and l short adit have explored these. None of these report any past production.

6. PREVIOUS WORK

Previous work, including the underground exploration shafts and adit, is thought completed between 1900 and 1930. There is very little documentation in the assessment files. A large silver nugget (estimated to contain 9000 oz of silver) is reported discovered in the northern part of the grid in the 1920's. Santa Maria Mines Ltd. completed trenching, sampling and a 16-hole drill program in this general area between 1946 and 1960.

Cabo Mining Corp. (the predecessor of Cabo Mining Enterprises Corp.) completed an airborne geophysical survey that included this grid in 1998 (High Sense Geophysical Surveys). Cabo Mining Enterprises Corp. completed 6 drill holes in the immediate area of the Santa Maria shaft in the north part of the grid in March of 2004 (Sears, 2004).

. 3 - ClearVlew Geophysics Inc.

JULY 3,2004

7. LOGISTICS

Mr. Denis Presseault, Timiskaming Economic Res. SL Dev.; Field Technician:Mr. Presseault carried out the magnetics fieldwork on June 8 through June 11, 2004.

He was responsible for ensuring that data were acquired and edited in a proper manner.

Mr. Joe Mihelcic; Geophysicist:Mr. Mihelcic processed the data received from Mr. Presseault, prepared this report

and is responsible for data storage.

Table l - Survey Specifications

Base Station

Field System

Mode

Station interval

Total Coverage

GEM Systems GSM-19 Proton Precession

GEM Systems GSM-19 Overhauser

Total Field Magnetics

121/2 metres

37.3375 km

ClearView Geophysics Inc.

I (J I A' 3, 2004

Table 2 - Survey Grid Coverage

LineL500WL450WL400WL350WL300WL250WL200WL100WL50WL50EL150EL250EL300EL350EL400EL450EL500EL550EL600EL650EL700EBLOTL400NTL900NTL1900NTL2400NTL2800N

X-Min-500-450-400-350-300-250-200-100-50

50150250300350400450500550600650700-500-500-500

50300225

X-Max-500-450

-400-350-300-250-200-100-50

50150250300350400450500550600650700700700700700700700

Y-Min0000000

800800800

00

4000

19000

19000

19000

19000

400900190024002800

Y-Max90090090090090090090013001275120020002050280028002800280028002800280028002800

0400900190024002800Total:

# Readings7373737373737341393313614211422673

22673

22673

22673929797533342

2606

Distance (m)9009009009009009009005004754002000205024002800900

2800900

2800900

2800900120012001200650400475

37337.5

-5- ClearView Geophysics Inc.

J HI,Y 3, 2004

8. SURVEY METHODOLOGY

8. l MAG NETOMETER S URVEYS

The base station magnetometer was established in a low gradient location. Base readings were automatically recorded at 5-second intervals. The operator carried the field unit sensor at head-level. He ensured that all metallic objects that could influence the measurements were absent from the setup and his body. Readings were taken at regular intervals and referenced to grid coordinates. The location of readings taken between pickets was estimated.

9. DATA PROCESSING AND PRESENTATION

Magnetics data were diurnally corrected using in-house software. This software straight-line interpolates base station data to time-match field data. The interpolated base readings, along with line, station, time, uncorrected and corrected magnetics, are output as separate columns in the processed file. These data were subsequently imported to Geosoft Oasis software for plotting.

All plots were output to an HP DesignJet 800PS 42" Colour Plotter.

-6- ClearView Geophysics Inc.

JULY 3,2004

10. DISCUSSION OF RESULTS

A brief discussion of the magnetic survey results follows. Refer to the plan maps in Appendix B.

The main area with the largest magnetic anomalies is located in the south-central to southeastern part of the grid. Readings peak up to 1600 nT above background levels on L650E south of TL900N (refer to Plate 2). These could be due to sulphide mineralization. Several sub-zones are visible on the contour map (refer to Plate 1) and appear to trend northwest-southeast in the south side. A broad zone of highly variable magnetics can be seen along TL900N between L100W and L150E. These anomalies could be associated with the highly deformed Archean aged mafic to felsic metavolcanic rocks known to occur within the grid. The relatively flat magnetic response south of TL400S likely coincides with the Huronian aged, Coleman Group conglomerate.

Between -TL900N and 1600N readings are relatively flat. North of stn.!600N, the magnetic response is more variable and likely indicates a different rock formation. Some of the strongest discrete magnetic high anomalies north of 1600N are at L650E/1575N, L500E/2150N, and TL2400N;stn.625E. Readings are up to 1100 nT above background at these locations, and could indicate sulphides and/or geologic variations. A strong magnetic high anomaly at L300E7stn.2725N is approximately 3800 nT above background. This could indicate the presence of magnetite/pyrrhotite mineralization.

-7- ClearVlew Geophysics Inc.

JULY 3,2004

11. CONCLUSIONS

The surveys were successful in defining a number of magnetic regions. Within these regions are anomalous zones and trends that could indicate favourable mineralization. These anomalies should be correlated with geologic data to determine their sources. Many of the magnetic zones appear to extend beyond the survey limits. Coverage beyond these limits is recommended where anomalies/zones prove favourable for exploration. Additional geophysical surveys, such as IP/resistivity, are recommended to further prioritize targets.

If there are any questions about the surveys, please do not hesitate to contact the undersigned.

Sincerely,

ClearView Geophysics Inc.

Joe Mihelcic, P.Eng., M.B.A. Geophysicist/President

-8- Clearvlew Geophysics Inc.

JULY 3,2004

12. REFERENCES

Ontario Geological Survey2000: Airborne magnetic and electromagnetic surveys, Temagami area; Ontario

Geological Survey, Maps 82067 SL 82069, scale 1:20 000.

High Sense Geophysics Ltd1998: Assessment Report for Cabo Mining Corp

Born, P. and Hitch, M.W.1990: Precambrian Geology, Bay Lake Area; Ontario, Geological Survey Report

276; including map 2551, Eastern half; 1:20,000.

Lovell, H.L., and de Grijs, J.1978: Lorrain Township, Southern Part, Concessions I to VI, District of

Timiskaming; Ontario, Geological Survey Preliminary Map, P1559; Scale 1:15,840.

Sears, S.M.2004: Drill Hole Logs, Holes CSM-1 to CSM-6, Santa Maria Area; Gillies Limit

North Twp., Cobalt Area Project, Assessment Report for Cabo Mining Corp.

Assessment Files of the Ontario Geological Survey, Larder Lake Office.

-9- ClearView Geophysics Inc.

JL'l,v 3, 2004

13. STATEMENT OF QUALIFICATIONS, JOE MIHELCIC

I, Joe Mihelcic, Hereby certify that:

1) I am a geophysicist with business office at 12 Twisted Oak Street, Brampton, Ontario L6R 1T1.

2) I am a principle of ClearView Geophysics Inc., a company performing geophysical services.

3) l am a graduate of Queen's University in Applied Science, Geological Engineering (B.Sc. 1988) and of Ivey Business School (M.B.A. 1995).

4) I am a member of the Professional Engineers of Ontario (PEO).

5) I have practiced my profession for over 15 years.

6) I do not have a direct or indirect interest in Cabo Mining Enterprises Corp. securities.

Signed

Joe Mihelcic, P.Eng., M.B.A. Brampton, Ontario July 3, 2004

-10- ClearView Geophysics Inc.

APPENDIX A - Instrument Specifications

ClearView Geophysics Inc.

Key System ComponentsKey components that differentiate the GSM-19 from other systems on the market include the sensor and data acquisition console. Specifications for components are provided on the right side of this page

Sensor Technology

OEM's sensors represent a proprietary innovation that combines advances in electronics design and quantum magnetometer chemistry.

Electronically, the detection assembly includes dual pick-up coils connected in series opposition to suppress far-source electrical interference, such as atmospheric noise. Chemically, the sensor head houses a proprietary hydrogen-rich

About GEM Systems, Inc. Advanced Magnetometers

GEM Systems, Inc. delivers the world's only magnetometers and gradiometers with built-in GPS for accurately-positioned ground, airborne and stationary data acquisition. The company serves customers in many fields including mineral exploration, hydrocarbon exploration, environmental and engineering, Unexploded Ordnance Detection, archeology, earthquake hazard prediction and observatory research.

Key products include the QuickTracker™ Proton Precession, Overhauser and SuperSenser™ Optically-Pumped Potassium instruments. Each system offers unique benefits in terms of sensitivity, sampling, and acquisition of high-quality data These core benefits are complemented by GPS technologies that provide metre to sub-metre positioning.

With customers in more than 50 countries globally and more than 20 years of continuous technology R&D. GEM is known as the onty geophysical instrument manufacturer that focuses exclusively on magnetic technology advancement.

At GEM, "Our World is Magnetic!"

liquid solvent with free electrons (free radicals} added to increase the signal intensity under RF polarization.

From 3 physical perspective, the sensor is a small size, light-weight assembly that houses the Overhauser detection system and fluid. A rugged plastic housing protects the internal components during operation and transport

All sensor components are designed from carefully screened non-magnetic materials to assist m maximization of signal-to- noise. Heading errors are also minimized by ensuring that there are no magnetic inclusions or other defects that could result in variable readings for different orientations of the sensor

Optional omni-directional sensors are available for operating in regions where the magnetic field is near-horizontal (i e equatorial regions). These sensors maximize signal strength regardless of field direction.

Data Acquisition Console Technology

Console technology comprises an external keypad l display interface with internal firmware for frequency counting, system control and data storage l retrieval For operator convenience, the display provides both monochrome text as well as real-time profile data with an easy- to-use interactive menu for performing ali survey functions

The firmware provides the convenience of upgrades over the Internet via the GEMLinkW software. The benefit is that instrumentation can be enhanced with the latest technology without returning the system to GEM - resulting in both timely implementation of updates and reduced shipping l servicing costs.

Specifications PerformanceSensitivity: Resolution: Absolute Accuracy Range:

0.015 nT 7 VHz

0.01 nT+/-0.1 nT

Range: 10.000 to 120,000 nT Gradient Tolerance: > 10.000 nT/m Samples at: 60+, 5, 3, 2, 1, 0,5. 0.2 sec Operating Temperature: -40C to +55C

Operating Modes

Manual: Coordinates, time, date and reading stored automatically at minimum 3 second interval.Base Station: Time, date and reading stored at 3 to 60 second intervals.Remote Control: Optional remote control using RS-232 interface.Input l Output: RS-232 or analog (optional) output using 6-pin weatherproof connector.

4Mbvtes

Mobile: Base Station: Gradiometer: Walking Mag.

Qm&nsi&os.Console:

209,715699,050174,762299,593

223 x 69 x 240 mmSensor: 175 x 75mm diameter cylinder

Console with Belt:Sensor and Staff Assembly:

GSM-19 console, GEMLinkW software, batteries, harness, charger, sensor with cable, RS-232 cable, staff, instruction manual and shipping case.

Optional VLF

Frequency Range: Up to 3 stations between 15 to 30.0 kHzParameters: Vertical in-phase and out-of-phase components as "X) of total field. 2 components of horizontal field amplitude and total field strength in pT.Resofution: u.1% of tolal field

GI8SADVANCED MAGNETOMETERS

GEM Systems, Inc.52 West Beaver Creek Road, 14

Richmond Hill, ONCanada L4B 1L9

Email: info@gemsys.on.caWeb: www.gemsys.ca

Represented By:

Proton Precession Theory of OperationIn a typical proton magnetometer, current is passed through a coil wound around a sensor containing a proton rich liquid. The auxiliary DC field S created by the coil ^1 00 Gauss) polarizes the protons in the liquid which build up to a higher thermal equilibrium with the auxiliary magnetic field. The current and hence the field is abruptly terminated, allowing the polarized protons to precess around the Earth's magnetic field direction with a frequency f, which is strictly proportional to the applied field value:

f = 42.5763751 MHz/TThe scalar component of the Earth's field is derived from the frequency of the precession signal which decays exponentially and lasts till the protons return to steady state. The quality of the measurement can be derived from the signal amplitude and its decay characteristics and is averaged overthe sampling period and recorded.

The light weight and variable cycling speed (1 reading per 3 to 60 second -0.5 sec for walking option) and exceptionally low power consumption over a wide temperature range and low noise levels combine to make possible a superior magnetic field measuring device. An option for low field measurement is accomplished by creating a small auxiliary magnetic flux density while polarizing.

Optional Omnidirectional VLFWith GEM Systems' omnidirectional VLF option, up to three transmitter stations of VLF data can be acquired without orienting the sensor. Moreover, the operator is able to record both magnetic and VLF data with a single operation on the key pad.

Frequency Range:

Parameters Measured:

Resolution:

N umber of Stations:

15-30.0 kHz

Vertical in-phase S out- of-phase components as "/o of total field. 2 relative components of the horizontal field. The absolute amplitude of the total field.

0.1 "/o

Up to 3 at a time.

Data editing, processing, compiling and interpreting software options available with GSM-19Tseries

GSM-19T Sensor SpecificationsSensitivity: Resolution: Absolute Accuracy:

Dynamic Range: Gradient Tolerance:Sampling Rate:Console:Sensor:Sensor and Staff Assembly:VLF Sensor:

0.2 nT/VHz 0.01 nT 1.0nT

20,000 to 100,000 nT ^.OOOnT/meter

1 reading per 3 to 60 seconds 223 x 69 x 240 mm, 2.1 kg 140 x 75 mm diameter cyl. (1)2.0 kg, (2) 3.0 kg 160 x 150 x 150 mm, 1.3kg

Environmental:Storage Temperature: -70"C to 60"C. Operating Temperatu re: -40"C to 60"C. Humidity: O to 1000Xo, splashproof console.Power Requirements:12V 2.2 Ah battery will operate continuously for 45 hours on standbyPower Consumption:12 watt-seconds per reading typical at 20 degrees C.Outputs:Direct readings of the Earth's magnetic field in ascii format at selectable baud rates and optional analog 200-step voltages for chart recorders.

About GEM Systems Inc.GEM Systems has provided its clients with quality instrumentation for magnetic measurements of the Earth's magnetic field since 1980. A commitment to high performance, small size and weight and low power consumption has been the GEM Systems' philosophy since the introduction of its first instrument.

52 West Beaver Creek Rd. #14 Richmond Hill, ON L4B1L9 Canada Tel (905) 764 8008 Fax (905) 764 2949 http://www.GEMSys.on.ca email: info@GEMSys.on.ca

ADVANCED MACNETOMErEKSRevsion 12/00

APPENDIX B - Plates

ClearView Geophysics Inc.

ONTARIO MINISTRY OF NORTHERN DEVELOPMENT AND MINES

Work Report Summary

Transaction No: W0480.01084 Status: APPROVED Recording Date: 2004-JUL-12 Work Done from: 2004-MAY-01 Approval Date: 2004-JUL-13 to: 2004-JUL-03

Client(s): 178510 OUTCROP EXPLORATIONS LIMITED 302234 SIMPSON, MURRAY D

302646 WAREING, SIMON KEITH

Survey Type(s):

LC MAG

Work Report Details:

Claim*

L 1098668

L 1135378

L 1140509

L 1221535

L 1221540

L 1230445

L 1230446

L 1230454

External Credits:

Reserve:

Perform56,468

36,724

5784

53,913

SO

SO

SO

SO

517,889

Perform Approve Applied

S6,468 SO

56,724 SO

S784 SO

S3.913 SO

SO 55,600

SO 54,180

SO S1,709

SO S6.400

517,889 517,889

so

SO Reserve of Work

50 Total Remaining

Applied Approve

5050

SOSO

55,60054,18051,70956,400

517,889

Assign Reserve Assign Approve Reserve Approve Due Date

56,468 6,468S6.724 6

S78453,913 3

50SOSOSO

517,889 S17

Report*: W0480.01 084

Status of claim is based on information currently on

,724

784,913

0

000

,889

record.

SO

SOSO505050SOSO

SO

SO 2005-APR-02

SO 2004-DEC-02

SO 2005-APR-02

SO 2005-APR-05

SO 2005-MAY-11

SO 2004-OCT-21 E

SO 2005-JUL-21

SO 2005-JUL-21

SO

31M05SE2070 2.28057 GILLIES LIMIT 900

2004-Jul-29 11:31 armstrong^} Page 1 of 1

Ministry ofNorthern Developmentand Mines

Date:2004-JUL-14

Ministers duDeveloppement du Nord et des Mines Ontario

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

OUTCROP EXPLORATIONS LIMITED 12 MARTIN DRIVE COBALT, ONTARIO POJ1CO CANADA

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

Dear Sir or Madam

Submission Number: 2.28057 Transaction Number(s): W0480.01084

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 STEVEN BENETEAU by email at steve.beneteau@ndm.gov.on.ca or by phone at (705) 670-5855.

Yours Sincerely,

/P.Ron.C. GashinskiSenior Manager, Mining Lands Section

Cc: Resident Geologist

Outcrop Explorations Limited (Claim Holder)

Assessment File Library

Outcrop Explorations Limited (Assessment Office)

Seymour M Sears (Agent)

Murray D Simpson (Claim Holder)

Simon Keith Wareing (Claim Holder)

Visit our website at http://www.gov.on.ca/MNDM/LANDS/mlsmnpge.htm Page: 1 Correspondence 10:19639

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31M05SE2070 GILLIES LIMIT 210

Total Field Magnetics( ahn Mining Knterprises Corp.

Santa Maria Prospect, (ohalt AreaContours: 50 nT, 250 n 1. 1000 nT

In^lrumentation: Gem Systems CiSM-l^ Ovcrhauscr MagPlotted July 2, 2004

PLATE 1

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503.3 1257.4 1635.3

3748.4 3449.2

30S4.7 1061.6

564.4 243.1 176.1 196.8 218.4

169.8185.7215.8132.8168.490.92.106.

288.3241.1396.6274.3-

160.7210.8143.3151.121.

329.3302.0308.3320.1224.2343.0

414.5284.0852.5506.1331.513S.2251.237.6212.1202.0188.7232.5292.317K6136.85

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123.130.164.3163.1167.9

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140.1139.5153.2149.6159.8

180.6 175.4 M9.7- 159.2 171.4 164.1 163.4 158.4 154.6 154.3

173.3 198.0 181.5- 171.9 197.7

+993.1•2

1124.9 1665.7 1600.9 1289.1 1177.9

150.0151.8150.1167.6174.3190.8221.6

392.6361.7201.8171302.0168.4-95114.181.5

206.4 233.7 252.0 260.5 24?.3 220.6 216.4 211.8 190.1 177.5 158.1 146.5 14K5 153.7 140.3 148.2 143.7 131

-80.2-68.9-S0.6--213.8-352.9

92.6 217.0 245.0 227.6 203.7 190.8 191.5 K8.7- 195.5 166.8 160.3

178.4305.9274.8840.7567.6

381.0438.5 649.4 355.7- 304.4 272.1

U ̂ i* U :j '*.

108.5 ,; JZ83.7 ^-307.2

332.7 166.2 M0.4- 1012.4 215.7

2.9 461.1 413.9 355.4 1-37.6- 362.2 204.8

Scale 1:5000100 150 200

trf tp tO tJ l-* to l lA ~-l ^I,M "~* *O ^

bo ^ 8bo "C, "W) ~- UJ "-" UJKMi-' .U W y. ~* IX

OO i*i A t/l W M^jX4^ VO VO (fc ^3 W bog^^O OJ W (]b

ui CoO T O

300E 400E 500E eote m 700E

31M05SE2070 2.28057 GILLIES LIMIT 220

Total Field MagneticsCabo Mining Enterprises Corp.

Santa Maria Prospect, Cobalt AreaPostings/Profiles Base = 57,000 nT; Profiles Scale: l cm = 200 nT

Instrumentation: Gem Systems GSM-19 Overhauser MagPlotted July 2,2004

PLATE 2Clear View Geophysics Inc.(ref 10601 a)