The PFN/Pro Am Grid is located along the southwestern boundary of the Agnew Lake Intrusive complex. The Agnew intrusion is composed of three rock series: The Upper Series, Main Series and Marginal Series. Target mineralization is primarily located within the Marginal Leucogabbronorite Zone of the Marginal Series. Rocks within this zone are further sub-divided into Nodular, Mottled and Varitextured units. Sulphide mineralization that is located within the Varitextured unit is given the highest priority for potentially hosting economic mineralization.
In the area of the present survey, the varitextured unit (indicated as Unit 4a on the Compilation Map, Plate 1) extends from the baseline on the east boundary of the grid westward to approximately line 200E.
A more detailed geologic discussion is given in PNWCC report: "Summary: Phase I Surface Exploration Program", Dec. 13, 2000.
8. DISCUSSION OF RESULTS
Results of the geophysical surveys have been plotted as described in the previous section and are included in Appendix B of this report. Anomalous geophysical zones and trends have been identified and transferred to a compilation map.
8.1 PFN/ProAm Grid
A total of eleven (l 1) IP zones have been identified. The IP zones are generally weak with a few moderate to strong sources. Background resistivities are elevated with eight (8) high resistivity zones (X20,000 ohm-m) outlined on the compilation map. Many of the high resistivity zones are "V-shaped in the pseudosection presentation and are indicative of moderate to severe topographic relief.
Five (5) exploration targets have been selected. The highest priority target (T-5) is located within the IP chargeability zone IP-7.
Magnetic relief is low to moderate with a total of four (4) magnetic high trends identified.
These trends occur in the central and eastern portion of the grid. Peak magnetic responses within these zones are rarely more than a few hundred nanoteslas above background levels.
Structure - Two (2) northeast-southwest trending faults (F-1 and F-2) have been identified mainly from the resistivity data.
A discussion of the IP chargeability zones follows:
11
J VX
IP-1 Si IP-2 - Both of these zones occur in the northwest section of the grid. They are weak and poorly defined as they occur at the northern limit of the survey lines. Extension of the survey lines northward would be required to properly evaluate these trends. The portion of the grid is underlain by units of the Upper Series of the Agnew Lake complex and therefore would represent a low priority for follow-up.
IP-3 - IP-3 is a weak, narrow, two-line anomaly that could represent the southeastern extension of IP-2. It is best defined on line 200E where it is coincident with a relatively weak resistivity low within a high resistivity background. The MIP values are low and the Spectral Tau is short suggesting that only a minor concentration of fine-grained mineralization is likely to be present. The zone does not appear to be associated with favourable geology and a follow-up should be considered only on a low priority basis.
IP-4 - IP-4 is a weak to moderate zone observed near the at north end of lines 300E and 400E. On line 300E the zone is weak an associated with a weak, poorly defined,
resistivity low. On line 400E, the zone is stronger with moderate MIP. Spectral Tau is long suggesting the presence of coarse-grained mineralization. In addition, the Spectral
"c" value is low (0.1) indicating there is likely a mixture of both fine and coarse grained sulphides. The chargeable source on line 400E represents a moderate priority target. The target does not appear to be associated with favourable geology. Additional prospecting is warranted to confirm the geological setting before drilling.
Anomaly targeting:
T-5: Moderate priority: LJOOE/Stn 325N
IP-5 - This zone is not well defined and extending survey lines 500E and 600E northward is necessary for proper evaluation.
IP-6 - This is a weak IP zone associated with low MIP values and short Tau. It coincides with a weak resistivity low within the resistvity high (RH-2). Follow-up prospecting should be considered only if geology is favourable.
IP-7 - IP-7 represents the most extensive IP zone on the grid extending from 200W eastwards to the southwest edge of a lake on 11 GOE. This zone parallels the Agnew Lake intrusion boundary and on a line-to-line basis consists of as many as three (3) closely- spaced weak to moderate chargeable sources. The zone is generally associated with relatively weak resistvity lows within broad zones of high resistivities ^20000 ohm-m).
12
Low to moderate MIP values are observed with variable Tau. In the western section, the zone is located between two very high resistivity zones (RH-2 and RH-3). The zone appears to occur within the upper unit of the Main Series and east of l GOE the zone occurs at the contact of the Main Series with the varitextured leucogabrronorite of the Marginal Series. One high priority target and two moderate targets have been identified on lines l GOE, 600E and 1000E respectively. The zone on l GOE has been rated as high priority for follow-up as could represent a broad chargeable zone. IP inversion could confirm the geometry of the zone should be considered prior to drilling. Prospecting should also be considered to determine if the varitextured unit of the Marginal series extends west of 200E.
Anomaly targeting:
T-l: High priority: LlOOE/Stn 75N
T-2: Moderate priority: LdOOE/Stn 112.5N T-3: Moderate priority: LIOOE/Stn 187.5N
IP-8 - IP-8 extends from Line O to 700E near the southern boundary of the grid and in close proiximity to the Agnew Lake intrusive contact. Chargeable sources are weak and coincide with the south edge of RH-3. Sepctral MIP values are generally low suggesting that the chargeabilities are responding to the high resistivities and not to mineralization.
IP-9 - IP-9 extends from 1200E to 1700E and remains open to the east. This zone could represent the eastern extension of IP-7 disrupted by F-l west of line 1200E. The zone is weak except on line 1800E where it exhibits a moderate response. An exploration target has been identified on line 1700E where the zone coincides with a narrow resistivity low.
Prospecting should be completed prior to drilling. Favourable results could warrant extending the survey lines eastward.
Anomaly targeting:
T-4: Moderate priority: LHOOE/Stn 137.5N
IP-10 - This zone is parallel and immediately to the south of IP-9. At the eastern end, on lines 1600E and 1800E the zone is weak and coincides with the northern edge of RH-7.
RH-7 is coincident with a topographic high. West of 1600E the zone is not well defined and may merge with IP-9 west of line 1200E. The zone occurs along the Agnew Lake Intrusion contact and therefore follow-up prospecting should be considered.
13
J VX
IP-11 - This zone is located in the southeast corner of the grid, south of IP-10. It occurs along the southern edge of RH-7. The strongest chargeability response occurs on line
1600E associated with moderate MIP and long Tau. Prospecting should be conducted on line 1600E. Prospecting could be extended eastwards if results are favourable.
14
9. SUMMARY AND RECOMMENDATIONS
Several chargeability zones have been outlined by the IP/Resistivity surveys. Five exploration targets have been identified within the IP zones IP-4, IP-7 and IP-9. Four of of the targets exhibit a strong correlation with the varitextured unit of the Marginal series of the Agnew Lake Intrusive Complex. This unit is considered the highest potential for hosting anomalous PGM mineralization. All the targets should be followed-up by prospecting before drilling. In addition, due to the rugged topography, IP inversions should be conducted on the IP/res data over all the targets including the high priority target T-l. These results should provide an indication of the shape/size of the target and can be used for drillhole positioning.
A summary of the exploration targets is provided below:
TARGET T-l
T-2 T-3 T-4
T-S
LOCATION L100E/75N
L600E/112.5N L100E/187.5N L1700E/137.5N
L400E/325N
PRIORITY High
Moderate Moderate Moderate
Moderate
COMMENTS
Broad weak MX. With Weak res.
Low. Near Main/Marginal series contact
Weak MX. with weak res. Low.
At Main/Marginal series contact Weak MX. Within veritextured unit of Marginal Series
Weak MX. Coincident with res.
Low. Within veritextured units of Marginal Series
Moderate MX. With weak res.
Low. Within Upper Series units Table 5: Summary of Exploration targets
15
J VX
If there are questions with regards to the surveys or this report please call the undersigned.
Respectfully submitted, JVX Ltd.
John Gilliatt Senior Geophysics
Slaine Webster President
16
-Y/9 J^LAA/ Induced Polarization //^..or\VV and Commutated DC
Resistivity Transmitter System
Function
The IPC-7/2.5 kW is a medium power transmitter system designed for time do main induced polarization or commutated DC resistivity work. It is the standard power transmitting system used on most surveys under a wide variety of geophysical, topographical and climatic conditions.
The system consists of three modules: A Transmitter Console containing a transformer and electronics, a Motor Generator and a Dummy Load mounted in the Transmitter Console cover The purpose of the Dummy Load is to accept the Motor Generator output during those parts of the cycle when current is not transmitted into the ground, in order to improve power out put and prolong engine life.
The favourable power-weight ratio and com pact design of this system make it portable and highly versatile for use with a wide variety of electrode arrays.
Features
Maximum motor generator output, 2.5 kW;
maximum power output, 1.85 kW; maximum current output, 10 amperes; maximum voltage output, 1210 volts DC.
Removable circuit boards for ease in servic ing.
Automatic on-off and polarity cycling with selectable cycling rates so that the op timum pulse time (frequency) can be selected for each survey.
The overload protection circuit protects the instrument from damage in case of an overload or short in the current dipole cir cuit.
The open loop circuit protects workers by automatically cutting off the high voltage in case of a break in the current dipole circuit.
Both the primary and secondary of the transformer are switch selectable for power matching to the ground load. This ensures maximum power efficiency.
The built-in ohmmeter is used for checking the external circuit resistance to ensure that the current dipole circuit is grounded properly before the high voltage is turned on. This is a safety feature and also allows the operator to select the proper output voltage required to give an adequate current for a proper signal at the receiver.
The programmer is crystal controlled for the very high stability required for broadband (spectral) induced polarization
measurements using the Scintrex IPR-11 Broadband Time Domain Receiver
Specifications
Inputs
1 to 8 dipoles are measured simultaneously.
Input Impedance 16 Megohms SP Bucking
10 volt range. Automatic linear correction operating on a cycle by cycle basis.
Input Voltage (Vp) Range 50 uvolt to 14 volt
Chargeability (M) Range O to 300millivolt
Tau Range
1 millisecond to 1000 seconds Reading Resolution of Vp, SP and M Vp, 10 microvolt; SP, 1 millivolt; M, 0.01 millivolt/volt
Absolute Accuracy of Vp, SP and M Better than 1 0Xo
Common Mode Rejection At input more than 10Odb Vp Integration Time
100Xo to 800Xo of the current on time.
IP Transient Program
Total measuring time keyboard selectable at 1, 2, 4, 8, 16 or 32 seconds. Normally 14 windows except that the first four are not measured on the 1 second timing, the first three are not measured on the 2 sec ond timing and the first is not measured on the 4 second timing. (See diagram on page 2.) An additional transient slice of minimum 10 ms width, and 10ms steps, with delay of at least 40 ms is keyboard selectable.
Transmitter Timing
Equal on and off times with polarity change each half cycle. On/off times of 1, 2, 4, 8, 16 or 32 seconds. Timing accuracy of 100 ppm or better is required.
External Circuit Test
All dipoles are measured individually in sequence, using a 10 Hz square wave.
The range is O to 2 Mohm with O.lkohm resolution. Circuit resistances are dis played and recorded.
Synchronization
Self synchronization on the signal received at a keyboard selectable dipole. Limited to avoid mistriggering.
Filtering
RF filter, 10 Hz 6 pole low pass filter, sta tistical noise spike removal.
Internal Test Generator
1200 mV of SP; 807 mV of Vp and 30.28 mV/V of M.
Analog Meter
For monitoring input signals; switchable to any dipole via keyboard.
Keyboard
17 key keypad with direct one key access to the most frequently used functions.
Display
16 lines by 42 characters, 128 x 256 dots, Backlit Liquid Crystal Display. Displays instrument status and data during and after reading. Alphanumeric and graphic dis plays.
Display Heater
Available for below -15'C operation.
Memory Capacity
Stores approximately 400 dipoles of infor mation when 8 dipoles are measured simultaneously.
Real Time Clock
Data is recorded with year, month, day, hour, minute and second.
Digital Data Output
Formatted serial data output for printer and PC etc. Data output in 7 or 8 bit ASCII, one start, one stop bit, no parity format.
Baud rate is keyboard selectable for stan dard rates between 300 baud and 51.6 kBaud. Selectable carriage return delay to accommodate slow peripherals. Hand shaking is done by X-on/X-off.
Standard Rechargeable Batteries Eight rechargeable Ni-Cad D cells.
Supplied with a charger, suitable for 110/230V, 50 to 60 Hz, 10W. More than 20 hours service at -n25'C, more than 8 hours at -30'C.
Ancillary Rechargeable Batteries An additional eight rechargeable Ni-Cad D cells may be installed in the console along with the Standard Rechargeable Batteries Used to power the Display Heater or as back up power. Supplied with a second charger. More than 6 hours service at -30'C.
Use of Non-Rechargeable Batteries Can be powered by D size Alkaline batter ies, but rechargeable batteries are recom mended for longer life and lower cost over time.
Operating Temperature Range -30"C to H-50'C
Storage Temperature Range -30'C to -f 50'C
Dimensions
Consote:355 x 270 x 165 mm Charger: 120 x 95 x 55mm
Weights Console: 5.8 kg
Standard or Ancillary Rechargeable Batteries: 1.3 kg
Charger: 1.1 kg
Concord, Ontario Canada, L4K IBS Telex: (905) 06-964570
Tel.:
Fax:
(716)298-1219 (716)298-1317
ENVI GEOPHYSICALSXSIEMi
Total Field Operating Range 20,000 lo 100,000 nT (gammas)
Total Field Absolute Accuracy:
1 nT
Sensitivity:
0. l nT at 2 second sampling rate Tuning
Fully solid state. Manual or automatic keyboard selectable Cycling (Reading) Rates
0.5, l or 2 second sensor, 172m (20 inch) staff extender and processor module
Gradiometer Option
Includes a second sensor, If2m (20 inch) staff extender and processor module
VLF Option
Includes a VLF sensor and harness assembly
'WALKMAG' Mode
0.5 seconds for walking surveys, variable rates for hilly terrain
Digital Display
LCD 'Super Twist', 240 x 64 dots graphics, 8 line x 40 characters alphanumeric
Display Heater
Thermostatically controlled, for cold weather operations Keyboard Input
17 keys, dual function, membrane type
Notebook Function
32 characters, 5 user-defined MACRO'S for quick entry Standard Memory
Total Field Measurements: 28,000 readings Gradiometer Measurements: 21,000 readings Base Station Measurements: 151,000 readings VLF Measurements: 4,500 readings for 3 frequencies
Expanded Memory
Total Field Measurements: 140,000 readings Gradiometer Measurements: 109,000 readings Base Station Measurements: 750,000 readings VLF Measurements: 24,000 readings for 3 frequencies Real-Time Clock
Records full date, hours, minutes and seconds with l second resolution, ±1 second stability over 24 hours
Digital Data Output
RS-232C interface, 600 to 57,600 Baud, 7 or 8 data bits, l start.
l stop bit, no parity format. Selectable carriage return delay
(0-999 nis) 'o accommodate slow peripherals. Handshaking is done by X-on/X-off. High speed Binary Dump
Analog Output
0-999 mV full scale output voltage with keyboard selectable range of l, 10, 100, 1000 or 10,000 full scale
Power Supply
Rechargeable 'Camcorder' type, 2.3 Ah, Lead-acid battery 12 Volts at 0.65 Amp for magnetometer, 1.2 Amp for gradiometer External 12 Volt input for base station operations
Optional external battery pouch for cold weather operations Battery Charger
110 Volt-230 Volt, 50/60 Hz
Operating Temperature Range Standard: -40* to 60'C
Dimensions & Weight
and staff extender. 70mm x 675mm 2.75"dx26.5"
1.15 kg (2.5 Ibs) (sensor) T.F. staff: 25mm x 2m
I"dx76"
.8 kg (1.75 Ibs) VLF sensor Head: 140mm x 130mm
5.5"dx5-l"
222 Snidercroft Road, Concord, Ontario, Canada L4K. 1B5
Tel.: (905) 669-2280 - Fax: (905) 669-6403 - Telex: 06-964570 In the U.S.A.
525 Fort Worth Drive, Suite 216, Denton, Texas U.S.A. 76201 Tel.: (817) 591-7755 - Fax:(817)591-1968
In Australia
1031 Wellington St., West Perth, West Australia 6005 Tel.: (619) 321-6934 - Fax: (6l9) 481-1201
ONTARIO
MINISTRY OF NORTHERN DEVELOPMENT AND MINESWork Report Summary
Transaction No: W0270.00156 Status:
Recording Date: 2002-JAN-29 Work Done from:
Approval Date: 2002-JAN-30 to:
Client(s):
109716 BOND, JAMES EDWARD
304255 NEW MILLENNIUM METALS CORPORATION Survey Type(s): Work Report Details:
Claim*
41I05SW2008 2.22850 SHAKESPEARE 900
2002-Feb-21 15:34 Armstrong-d Page 1 of 1
Date:2002-FEB-19
GEOSCIENCE ASSESSMENT OFFICE 933 RAMSEY LAKE ROAD, 6th FLOOR SUDBURY, ONTARIO
P3E6B5
JAMES EDWARD BOND P.O.BOX. 948
WELCH, WEST VIRGINIA 24801 UNITED STATES
Tel: (888)415-9845 Fax:(877)670-1555
Dear Sir or Madam
Submission Number: 2.22850 Transaction Number(s): W0270.00156
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 [email protected] or by phone at (705) 670-5855.
Yours Sincerely,
Ron Gashinski
Senior Manager, Mining Lands Section Cc: Resident Geologist
James Edward Bond (Claim Holder)
New Millennium Metals Corporation (Claim Holder)
Assessment File Library James Edward Bond (Assessment Office)
Visit our website at http://www.gov.on.ca/MNDM/LANDS/mlsmnpge.htm Page: 1 Correspondence 10:16879
NORTHERN D EVE LOPWf HI M HriL5
MINING LAND TENURE MAP
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G snera l Inform atto rand L Im ftatio rts
Date /Timo of Issue Jan 17 2002
TOWNSHIP l AREA GOUGH
08:321) Eastern
PLAN 3-2889
i ADMINISTRATIVE DISTRICTS l DIVISIONS
' Mining Division Sudbury
Land Tittas/Regtstry Division SUDBURY
! Ministry of Natural Resources District SUDBURY
TOPOGRAPHIC LAND TENURE
FivrtoM PrinH
p
. Cj;,,.^ Avahvt^ia
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LAND TENURE WITHDRAWALS
|j :'i!|iij|:fl IMPORTANT NOTICES
j LAND TENURE WITHDRAWAL DESCRIPTIONS
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IMPORTANT NOTICES
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10:SBh Eastern
PLAN O-3001
Date/Time of Issue Jan172002
TOWNSHIP l AREA SHAKESPEARE
ADMINISTRATIVE DISTRICTS ; DIVISIONS
Mining Division Sudbury
Lund Title s( Reg Is try Dlvitio.l SUDBURY Ministry ci Natural Resources District SUDBURY
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LAND TENURE WITHDRAWALS
LAND TENURE WITHDRAWAL.DESCRIPTIONS
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General Information and Limluilonf
FH: .IffSiw "iSi Siv^^.^SrS 'OflPB
ThtoTPv mnr.Tmi *How imrxitaUf*! ludtuuri mHwi*n*U fei hand Inchdlna MT'**
Iflmrh JrtHl*, Witmiwt*, rtfM of My*i f***"! r kjMn, IkwiMnt. dr olliar Mtltik ir^l*FHiXllrjn.vrikjhtl. MID inmv BPIP ** crniw N jtm canWt and tonora and lM*t uiwthM rvdrKtvi praMMtrrm pnty.lDXi** mimnj cJ*m* ppiy nmni i**r**6
Camp Eleven Lake ft \ Huronian Supergroup
Nipissing Diabase Transition Unit 11 Pod-Bearing Unit 3 \ Marginal Gabbronorite Zone 2 l Breccia Zone
ARCHEAN
l l Ramsev-Algoma Granitoid Complex
SYMBOLS
j [ [f /\)
(dip not appaaO, watical, inclined) Outattp limits
Trench/dcaring
Subcrop
(vertical, iodine^
Geologic*! contact - obsoved
(vertical, inclined)
(vertical, inclined) [pis] Claim port/ Line peat
|^-^ l Fault Zone
Geological ooHict - gndatHmal
Diamond drill bole ioat
Sample Loatioa Ml Number
Sample LacatioM Md Number (VogclD.,July 1996)
Pacific North West Capital Corporation
AGNEW LAKE : Geology Map
Pacific North West Capital/ProAm property
Drafted by: Oranl Mourmtlcve Lyon Dale: Jmu*ry2002
Scale: 1:5000
Rcv.Norl 1 DKliMtiM: l(fW
(UTM):
Mining Division: Sudbury TowMhip: Shaheapem, Oough NTS:
Mining Division: Sudbury TowMhip: Shaheapem, Oough NTS: