PDF Report

,
I
I
I
I
I
I
1
I
I
I
I
I
1
I
1I
.I
J
1
.
,
COBRE
EXPLORATION
RICHFIELD
PROPERTY
L O C A T I O N AND
CLAIMS
MAP
1
1
1
2
2
3
4
5
6 - 7
8 - 9
10
11 - 13
14
15
16
g& &
w&
OIOWIY'HCAL CONSULTING b SERVICES LTD.
1
(%& &1 %&?& OK)?HYSICAL
CONSULTINO
6
SERVICES LTD.
I
2
k
i
ra
k
e
J
-
+-
7 t 0 0
H
4
S*oo N
CDF
*+ M.C~
')ObE
1
E.
$+So s--.
3+0o
s
5+oo
5
I
To 2 0 6 0 E >
F\G. I A .
9+ao s
4
4
5
%a
&t
OEOmYSfCAL
%
i
& CONSULTINO o SERVICES LTO.
6
g& &
w&
OIOmYS1CAL CONSULTINO b StmlCCt LTD.
8
9
A P P E N D I X
Instrument Specifications
ELECTBOMAGMETOMETER
A.
Instrument
Type
Make
B.
-- Bonka
Geonics VU? - EM
EM 16
Specifications
Measurement
-
(i) Utilizes primary fields generated
by VU? marine communication stations
measures the vertical field components in terns of horizontal
field present
.
(ii) Frequency range 15-25 KHZ
(iii) Bange of measurement
- orin p
se
f 150$
- q&*%drature
-
(iv) Method of reading null detection
by earphone, real and quadrature
from mechanical dials.
(v) Accuracy
C.
- f 1s resolution
-.
Survey Procedures
Method (a) Select closest vfrp station perpendicular
to traverse lines.
(b) In-phase dial measures degree of tilt
from vertical position.
o Quadrature dial calibrated in percent
null.
d Station plot
plot values read at station
surveyed.
(e) Manually filter dip-angle data.
I1
$%&
&
-
w&e
GEOIWYStCU CONSULTING 6 SERVICES LTD.
-
11
PEM S P E C I F I C A T I O N S
I
-
I
0'
I
I
I
g0
I
Time
E
t
I
c u m n t On
d
I
l
!-;-
;-
I
I
"0" time
I
I
I
-8
= o
-
CmntOff
ramp shut off time
~
1 c- . 1 4
Rx Coil Voltage
:
~ n w pyu k e Sample
Current Off tlme: 9.4 ms
Current on tlme: 10.8 ms
Current shut off (ramp) time: 1.4 m r
Sample times (zero to centre of sample): .15ms, .45ms. .85ms. 1.45ms. 2.45ms, 3.75ms. 5.8%~. 8.85111s.
Sample width 100 us
Zem tlme set at drop otf point of vim-
-
pulse
TRAfWUUTTW
Transmitter p o w r and loop size may be increased to obtain increased penetration. Weight,
portability and power capabllitiesof the control instrument are the limiting factors. The standard transmitter i s
designed to be carried by two men.
----
minimum.4 meters (13 feet)
Loop diameter
15 to20 amps
Loop current
24 volts
Loop applied voltage
Loopoutput
.
minimum 4500 amp. x meter
11.8 kilos (26 ib)
Loop weight
10 kilos (22 Ib)
Control unit weight
Control unit dimensions
20.5cm x 25.Scm x 36.5cm (8' x 10' x 14.5')
Battery supply weight
18.1 kilos (40 Ib)
Battery supply
2 of 12 volt. 14 to 20 ampere hour
T h i n g control by radio synchronization
--
-
REcElvw
Receive coil dimensions: S5cm x 15cm (22' x 6')
Receive coil weight: 4.5 kilos (10 Ib)
Preampllfier in coil
Preampiifler batteries: 2 of 9 volt
Receive coil tripod mounted
Recelver measuring instrument dimensions: 28cm x 18cm x 21.5cm (11' x 7" x 9')
Receiver measuring instrument weight: 6.3 kilos (14 Ib)
Timing control by radio synchronization
Primary sample width: 100 ps
Primary sample can ba swept through primary pulse by means of a time callbrated pot
Z m tlme set at primary pulse drop-off
Secondary samples (eight of them) width: 100 pr
Sacondary sampies time (zero to middle of sample): (1) .15ms (2) .45ms
(3) . a m 8 (4) 1 AJms ( 5 ) 2.45111s
(B) 3.75111s
5.85ms (8) 8.85ms
Automatic sampling for 5 seconds then all samples automatically stored
Smmple read out by means of meter
Continuous sampling possible by switching function switch to "Continuous"
Noise can be monitored by switching functlon switch to "Noise"
Battery supply: 24 volt rechargeable. 2 of 12 volt Gel QC 12-15
m
'
.
12
..
3.
.
- -
.
.
.
.
I
c,
. .
c
* '
k
c
*
t
.
e-
Dfrectioa
eddy
cp~f
n of Eddy Current
23
.
Location of the Cirrent Path in the Condietor
ry
J
I4
d
,Ow&&
s2k$iz5 0:; lYo&
l%qQA.
70;ha
......OCA. 1 6 - i l 0 ~ . 3/79.....$155/dk+ ....$2790.00
8. l.+l,Lh. ........... ..... .........14O/cbz.. ....._?520.00
6.
........... ..... .........135/cbct. ... ..2430.00
7. f&?Zmt
fF&+LcL&
.....O&. 22 - 23/79......CLU&uA.. .....500.00
lJ~@Pn. onc! cixxmr;md&n~,. ............................1890.00
V P U 4x4 -iu7rp_fihJ
uni
.............1170.00
A8-gaTh.. .................. ..... ..................boo. 00
R. PUQA&P.
l'.
%ayz.
'I.
'I.
ga5.
~~~~~~~...........................'.'......'......1oG.0o
C O ~ Q LLCXJ~LWC/-.A ~
ad6~ZPOG-
50 &n~.
....1750.00
~~.,~-~~.............................................5jO.00
R ICHF I E L G
C G e R E EXPLORATInN
1
CHAFhEL
LIhE
lCCh
lOOh
lOOh
LCCO
STllT
C k LER:
t5e:
2 5 h VER:
HOR :
50h V E R :
HOR :
LCGN
LCCN
75k VER:
HCP:
lCOk kER:
lI.rc)P:
1GCh
lCCN
1CCh
125h V E R :
FUR:
15i3k W t R :
HOK:
175k V E R :
HCR:
-39
-13
-72
-33
- 1 14
-4 7
- 1633
-113
- 140
-230
-110
-1bC
1c Cbl
2 C C k LER:
14
1CUN
I-GR:
2 2 5 k VER:
-290
33
-27c
.
LOON
LGCN
1CCh
lCCrV
1C C N
LOON
10 0F.l
FOR:
250W V E R :
kOR :
27Sd VER:
87
-30s
152
HCF:
-347
3 0 0 k VER:
105
HCR:
325k LEP:
FUR:
350h V E R :
Hal?:
375k V f R :
HCF:
-305
213
4 C C k VER:
FOR:
LIRE
15Ch
150&
ZTAT
425k L E R :
HOR:
400k WER:
HqR:
1 5 ON
15CR
15CN
150h
375k V E R :
FGR:
35Ck LEK:
FQP:
325h VEk:
tUR:
3COl.4 V E R :
HQQ:
-1
-1
-1
-1
-1
-1
-1
-1
-1
-2
-4
-1
-1
-2
-2
-1
4
-1
-1
0
-1
-2
-1
-2
-2
-1
1
-4
-2
-8
-4
-5
-3
-4
-14
-48
-7
-2 1
-13
-2 5
-la
-2 a
-2 5
-27
-4 2
-2 5
-12c
-56
-3E
-2 2
-68
-1 3
-12
-38
-7
-15
-10
-73
-14
-9 8
-38
- 10
-58
-6
-13
-5
-37
-8
-25
-1
-33
6
-52
-64
-26
-54
-5e
-64
-t4
-6 2
-1OO
-12d
-27
-14C
-14
-176
13
-222
47
-2c3
-237
-237
LCCP
E
326
-249
333
-3CO
20C
-257
134
-338
-2
-1
-2
-7
-4
-246
134
-3
-2
-2
-3
-10
2S6
-3C7
-6
-3
-17
-5
-26
-5
-41
-14
-275
37c
-211
E
GA?h
€
-262
171
242
-265
244
7
4
262
- 300
6
3
100
-21E
166
-2iC
1
5
2
-89
-220
-25
-273
PACE
23 7
173
-6
-iia
;1
- 133
47
-12c
- 1c
-c
-11
-12
-2
-5
-7
-14
-7
-11
-8
-8
-12
-6
- 14
-23
-12
-3L
-a
-53
1
-77
14
-72
4
-4
-1
- 3d
-5
-6
- 15
-6
-7
Y
-4
'
-7
-6
-12
-6
-3
d
-4
-==
-2
'
-2
-3
- 3L
-2
-5
-2
-12
-2
-4
7
-10
1
-4
E
J
-2s
C
5
-4
3
(3
3
-5
- E
3.4t
-27
-17
34
23
-123
26
-11
-1s
-11
-7
-1c
J.32
-3
0.27
2.3C
3
-14
3.35
L
-43
-4
-37
-4
-4
c
- t i
-3
-5
-Le
-17
-7
-9
-4
-14
-6
C
11
8
-33
-3
-71
-5
-07
c-
13
-2
C.26
13
20
-74
-2
-77
5
-134
-11
-137
-38
9
-5
-66
33
-146
2
c
-21
-3
-56
5
14
-128
0.59
C.4E
-142
33
-100
57
3.72
c
A03
-177
l.GO,
-1.2
2
-184
c
1.00
-13
7
-6
1mCC
c.95
-37
83
1.oc
2
14
-e5
- 17C
- 74
1.00
1.oc
-6
-3
-11
21
10
1.30
-7
7
-23
-165
12 5
-1oc
L.CC
-3
-90
51
-129
-
1.00
-7
- Ed
55
-255
-225
-1
- Y
LOCO
b
5
-37
C
62
162
a4
-166
E€
-3
-4
-4
-6
-3L
-266
114
-222
38
-152
-1
-1
.
-.
13-45
c
G.52
-7
-i
1
C.65
R I CHF I ELD
COBRE EXFLORATION
CkAhhEL
15CN
1 sch’
15Ch
150N
1
275k V E P :
I-CF:
ZSCk LER:
mR:
225k V E R :
HOR:
2COW VER:
ZCCN
Ha!?:
125k VER:
HOR:
150k V E R :
HOR:
175W VER:
HCP:
2COk V E R :
20CN
FOR:
225k VER:
ZCCN
200N
.
FOR:
ZCCN
25Ck VER:
20CN
bOR:
275k V E R :
HCP:
300k VER:
2CCN
HOR:
325k VER:
200N
HOR:
200h
200h
2cclv
20CN
z c Or4
350k V E R :
HOR:
375vd VEt7:
HCP:
4CGk VER:
kUR:
4 2 5 h VER:
HiJR :
450k P E P . :
HGR:
-4
-11
2
-8
-1
-4
-3
-2
-5
-4
-1OC
-8C
-84
-140
-39
-64
-3 7
-16
-7
-15
-19
-300
-100
-130
-250
-52
-3 5
-94
-150
-190
-74
-37
-3 3
-2E
-96
-4 3
-36
-1 5
-38
-33c
-49
150h
loch VER:
-2
-1c
-3
-50
HOR :
l O O W VER:
200N
-6
-2
-33
-54
-35
15Ch
STPT
-lC
-14
-5C
-1CC
LIhE
E
-177
-67
175k WER:
HCR:
1 5 C k VER:
HOR:
125k LER:
HOR:
7
5
-13
-56
-203
-130
-26
- 66
-E5
-86
LCOP
E
-2f0
-260
-260
-13C
-43
c
- 190
-5
-5
-17
-22
-15
-9
-6
-11
C
-16
-18
-ti
-144
-56
-52
-16C
-88
-443
34
-413
57
-215
-4 1
-226
-32
-375
lf4
-187
413
-29 1
371
-247
-5
-lC
-21
-26
3
-226
41
-282
s5
-3CC
166
-29C
2C7
-3 14
230
-269
247
-236
-40
-4 E
-7 2
-50
-53
-33
-1CS
-2s
-120
-13
-132
0
156
30
-17C
72
-159
-
1C7
-237
126
-182
133
-1tiL
-5
-4
-27
-39
-51
d
-1
-20
-12c
-110
-13C
-1cc
-1
-35
-18
-140
-133
-360
-275
393
-333
444
-340
-42
-18
-22
-12
-2 5
-13c
-358
2co
-347
262
-16
-46
-20
-54
-67
-450
-E6
-333
-9
-21
-27
-25
-3 2
-9
-9
-6
a
0.90
LOC
9
-2
1.09
0
0
1.00
-4
-1
1.00
3
-3
1.00
-2
-2
1
1-00
-2
0
-5
-4
-2
1.00
-s
-5
-6
-5
-2
-c
-2
-4
1.CC
-2
-1
-3
J
1.30
-12
-11
- 14
- 12
-e
-L4
-9
-10
-3
-13
-14
-lC
-26
-5 1
-2c
-13
-2s
-3
-15
-10
-33
-E
-17
-6
-75
-12
-31
-13
-45
-4
-73
0
-6
-36
-2
-2
-54
-80
-37
-52
61
-100
-4
-0
-3
-1
-LO
-25
-125
52
-1C8
-2
-5
d.75
5
-3
-11
-5
-34
33
-96
48
-1c
GAIh
-1
-6
-15
-6
-57
-20
-68
-15
2
6
4
- 103
-360
1 5 CN
7
4
-2CC
72
-333
16
-333
HER:
15CN
2
PACE
s
-27
3
-55
-8
-a2
14
-71
-7
-7
- 3d74
-5
-6
-21
-18
-44
-17
-7.5
15
-61
-6
4
-10
-3
-7
-1
-2
-4
-5
3
-5
-2
1
3
-2c
-3
-1
-1
-1
-1
-14
-7
-18
-2
-15
-2
-7
0
-12
-3
-22
-13
0
23
0
-4
3
-7
3
1.330
1.30
0.88
c.75
0.64
0.53
-18
-2
-23
-5
-12
-3
0.46
0.40
3.33
-18
-22
-i$
3-27
-4
-43
3.23
-28
3.21
0
P I C H F I ELC
CCBRE EXPLORATICN
ChA h hE C
CIAE
25CN
1
ST Q T
4 5 C b VER:
HOR:
2fCN
425k
VER:
HOR:
250N
4COk
VER:
HOR:
250h
250N
2 SCN
25CR
375k VER:
HGR:
3SCk V E R :
HtR:
325k VER:
BOR:
3 C O b PER:
250N
HOR:
275k VER:
HOR:
250k VER:
25CN
hOR:
225k LER:
250N
2 EON
25CN
250N
25CN
25Ch
LIhE
250N
250N
2 5 CM
2CCk
1754
150M
125k
lCCh
LCCP
E
c47
-294
476
-252
382
-323
238
-252
440
-300
444
20c
-3cc
211
-370
-407
312
-375
276
-368
2co
-4cc
103
-365
65
-404
41
I-OF;:
-500
VER:
-54
HOR:
-411
-110
PER:
HQR : -450
163
VER:
HCR:
-4 2 0
-i30
LER:
HOR:
-260
LEG: -250
HUR:
-2cc
-
STAT
2
118
-328
€4
-289
53
-1cc
- 19
-69
-28
-42
-34
-50
-28
-38
-30
-35
-28
-38
-50
-2c
-llG
-75
160
-350
2 5 h VER:
k CR:
304
-282
163
-282
LOOW V E R :
HOR:
-400
25Ch
125k t E 9 :
25cIL
hUR:
1 5 C k LER:
1S7
-493
1co
-380
61
-4 5 6
-E
-37C
FOR:
-6
-118
-10
-94
-13
-5s
-333
135
-384
25Ch
14
-114
40
-1C5
325
-350
POR:
-6
47
-161
40
-100
37
-111
-12c
2t8
-3c7
280
-333
261
2SCN
LC
-173
17
-11
-68
HOR:
50k LER:
HCR:
75k PER:
119
-190
96
-2cc
92
-222
37
-190
14e
-3c7
-63
-26
75
-250
73
-2 10
65
-230
147
66
-228
- 308
61
-276
si
-3 7
-250
5
76
-135
-140
-15C
0
VER:
154
-252
- 2 ~ a -le6
-17
-23
-250
-138
-57
-46
-312 -140
-54
-52
-263
-1la
-100
-49
-1EE
-87
-120
-62
-17C
-72
LCCP
ow
4
2
d
PACE
-30
-30
-25
-16
32
-160
32
- 126
32
-130
35
-126
33
-16L
4
-172
-2c
13C
-
-40
-7
7
6
52
56
-9
-71
28
-40
-22
-59
-40
-18
- 43
-71
-15
-52
-13
-37
-11
-34
-20
-28
-2 0
- 15
-23
-17
-15
-17
6
-7
-36
15
-
-6
-2
d
-4C
-14
- 28
-11
-15
-17
12
-
-6
-20
4
-11
- 15
-13
- 14
-10
-12
17
-80
13
-65
15
-57
15
-68
-12
-5
-9
,E
4
-7
5
- 17
0
- 15
-1
-11
E
a
-2s
10
C
-07
4
76
-7
-55
-38
-
3
- 2c
-7
-11
17
17
-33
-71
-24
48
-11
55
-3
-31
-1c
-23
-15
-15
13
-
-3
-3
3
E
GAIh
70
dm17
-5
-14
-2d
Om21
-16
C-25
-7
G-27
- 1.2
-18
3
- 18
-2
-5
-20
-7
-17
1
a
-6
-11
€!
-9
-2
d
-4
-5
-3
o m 7 2
LmOC
-10
-2
1,oo
-4
-1
1.00
-2
1
-2
1.oc
-io
1
3-64
CmE5
-10
- 16
-5
-
2-52
-9
-I
C
-3
-3
C
-15
c.45
-25
-20
2
- 17
-5
-11
0.38
-a
4
-30
-2
-6
-4
3
-3
-2
-1
3-32
4
0.40
am46
2
0
-3
-8
0.52
-
Om57
-6
-3
i m o 5
-1
-3
3.81
-5
1.00
-3
-L
R ICHf
CCBRE E X F L O R A T I O N
CVAIYNEL
2
5
6
7
-6 5
-22 c
-82
-170
-90
-15C
- 100
-35
-120
-12
-48
-18
-44
-20
- 16
-5
-87
-50
-45
-120
-7 1
-34
-19c
-110
-11c
-150
-14G
-11c
-8 2
-58
-6 5
-5 0
-46
-16G
-110
-a4
-57
-105
-60
-113
-52
-110
-29
3
-60
-35c
250h
25CN
H9R:
225H V E R :
-250
-11c
-240
-120
-lSC
-143
290N
250N
POR:
2 5 C h VER:
HOR:
2 7 5 k VER:
HOR:
250N
300H VER:
25CN
HOR:
325W bER:
HCR:
25CN
35Ck VER:
liOR :
25CN
375h V E R :
250h:
POR:
40OW V E R :
HCR:
LIhE
5cs
STAT
250k VER:
HOR:
5CS
2 2 5 k \E@:
HOR:
5GS
2COk P E R :
HOR:
50s
175W V E R :
505
HOR:
15CW V E R :
-2cic
2c
-280
15
-240
-15
-250
-53
-220
-5C
120
-
-105
-190
-13d
- 170
5GS
505
50s
125W
1OOk
75k
50k
5cs
50s
50s
5 os
2 5 k \E??:
HOR:
OW
VER:
HUR:
25E VER:
'
HDR:
5CE V E R :
PUP:
--16C
-IC1
LCQP
D
- LBC
-14C
-340
-200
- 390
-180
-460
-110
-560
VER:
-10
HOR : -620
LER:
100
HOR : - c e C
VER:
240
HCR:
-730
VER:
371
HOR:
-150
110
-1eo
KIP:
5 OS
- 8a
-170
-95
-190
-2co
-551
353
-507
357
-392
3 75
-416
38G
-357
PAGE
4
1
175h VER:
93
HOR : -380
200k V E P :
65
250N
lECD
-50
-95
-17C
-17C
-180
-22c
-160
-280
- 14C
-370
-52
-44
c
44
-5 1c
17G
-580
2 54
-435
276
-3e4
267
-3c3
25 1
-333
3cs
-3G9
-5 e
-47
-7 9
-7s
-42
-92
-48
-55
-3 6
-50
-36
-54
-32
-58
-21
-27
-27
-32
-40
-82
-1lC
-85
-140
-37
-53
-68
-2cc
-24
-24G
32
-28C
105
-340
166
-243
169
-206
16 0
-214
16 2
-218
152
-183
- 100
-36
-70
-28
-6
-15
-4
-7
1.GC
-1
L
-6
-2
-4
1.00
-8
-22
-33
-8
-5
-3
-52
- 13
-6
- 13
-20
-24
-20
-20
-22
-29
-22
-16
-25
-12
-10
- 12
-11
-17
-14
-2 4
-14
-32
-10
-42
-4
51
- 14
-a
-E
-7
-a
-7
-7
-4
-4
-4
-5
-4
-7
-4
-9
-4
12
-5
- 13
18
LC
-6 1
-20
- 160
- 76
89
-141
87
-124
78
-117
83
-125
37
-62
66
28
-57
-114
-3
-10
-4
-4
-130
so
GAIh
-lG
-2
-3
-16
1
-9
-120
8
-6
- 14
-
22
36
-66
7
-34
6
- 12
12
- 20
26
-ic
-57
37
-23
4
-52
-Zi
C
-22
4
D
C
C
2
-4
-7
1.00
1oOC
-2
-1
A
1
-1
-3
-5
-7
-4
-6
1.00
-1
1.00
-4
-3
-2
-2
-2
1DOC
-2
-5
-1
-2
1*0c
-2
-2
-2
-2
-1
1.00
-1
1.OG
-4
-0
-2
-2
L.OG
-5
-5
-1
ll0C
-4
-1
1.00
-9
-3
-3
-2
- 3
-3
,fi
i
-2
-7
-1
-1
-4
-1
1
-4
2
-7
-1
-7
-25
-5
-1
-4
-6
-E
-9
-14
1000
1.00
-5
1.oc
-2
1mOC
-12
-3
0.78
0
-3
0.65
-21
0.56
-3
-13
Go48
2
-14
0.42
-9
m
AICHf I E L C
CCeRE EXFLORATICN
1
CI-Ahf3EL
r. E
2CCR
STAT
375k PER:
HUR:
200h
350h VER:
200N
HER:
325h V E R :
ZCCN
20ON
200N
HOR:
3CCW LER:
HOR:
275k VER:
HOR:
250W VEP:
HOR:
2CCN
2 2 5 k VER:
2CCN
FCR:
200k P E R :
HQR:
2CON
200N
1 7 5 k LE!:
POR:
1 S 0 H VER:
HOR:
125k V E R :
HOR:
Lcap
n
-130
-130
-110
-140
-97
-220
-78
-180
-27
-270
-140
L5
-350
5
-313
34
-230
50
-330
130
-6C
-140
-73
-140
-120
-15C
-120
-110
-27C
-€7
-22C
13
-420
20CN
t-OR:
7Sk LER:
-389
298
HOR:
-328
-238
5 0 k PER:
HOR:
25h VER:
HOP:
293
-310
Oh
LER:
IiCR:
1IN€
150N
STAT
275h V E R :
172
-352
LOOP
0
-120
-220
-65
-290
-323
15CN
I-CR:
2COk V E H :
15Ch
!-.OR:
175k bER:
-3’30
10
15011
HOR:
150k VER:
-430
55
-440
HOR :
-253
-418
13CN
150h
163
294
-372
302
-418
HOR:
250W VER:
HOR :
225k V E R :
-76
-55
-9 0
-32
-90
-4 5
-86
-68
-s5
-7 6
-45
-20
-11
-7
-5
-14
-18
-5
-4
-5
-22
-7
-5
-6
-3
-2
-2
-4
-2
-4
-2
-5
-
-140
-E2
-150
-6 8
- 13C
-5 8
-65
-2sc
-1GOk VER:
20CN
7
-9 5
2OON
200h
t
-11c
100
56
-357
181
-350
149
2COh
5
-140
-470
214
-413
285
200N
4
-1st
-140
-27C
157
-130
-14C
-16C
-190
-130
-24C
-13C
-25C
-08
-34C
-38
-380
a
3
2
-18
-42
-28
-45
-35
-45
-4s
-44
-59
-48
-70
-36
-8d
-30
E2
-30
-
-19c
-110
-8
- 140
-280
43
-244
101
-22c
80
-2C8
72
189
82
-
-215
53
-255
-77
-77
-a5
-105
-70
-130
-72
-140
-5 8
-19c
-28
-230
-3
23
-132
- 18
-‘2 c
-1 8
-20
-20
-20
-31
-12
-38
-11
-35
-14
-50
-2
-72
1c
-6 1
- 129
23
-75
40
-120
34
-12c
22
-59
9
-58
51
39
21
-133
39
144
-66
16
-
-34
-43
-38
-53
-36
-68
-34
-74
-28
-S8
-
10
- 1 LO
5
PAGE
-5E
-7
-7
-5
- 12
-1
- li
-4
-11
-7
-1
0
-2
1.0c
1.00
3
-2
0
-1
1.30
-3
-2
1.00
-4
.J
-1
1.00
G
3
3
1.00
-5
-1
1
-1
-7
-3
1.00
1030
-1
-4
-3
-1
1.0c
-23
1
-7
-1
1
-7
c1.98
-3
0m77
-5
-22
C
-41
7
-22
5
-L3
11
- 19
4
-29
-5
-16
-24
-14
-4
-7
-5
-12
-5
-15
a
-4
-4
-12
-15
-18
-22
GAIA
-6
-1
-4
0
-5
-1
1.00
-9
-7
C 067
-11
-a
-5
-18
C
-3
-12
-3
13
-11
305e
-13
-6
-
-6
-3
-2
-3
-2
-4
-2
-4
-2
-2
-32
- 14
-2
-9
-42
-4
-55
- 12
-4
-2
-5
-3
-4
-7
-18
3
-4
3.51
0 043
1.00
-1
-2
1.cc
-2
-1
1.30
-3
-3
-2
-1
-1
-4
0
1 .oil
1.CC
1.9G
RICHFIE10
COBRE E X P L O R A T I O N
CE,A&NEL
150N
1
12Sk VER:
HOF:
15Ch
l C C b LER:
HOR:
150N
150N
7 5 k VEG:
HOR:
SOW V E R t
HOR :
150N
25h VER:
15CN
hCR:
O k VER:
HGR:
i50N
150h
2 5 E \E!?:
HOR:
50E k E R :
HOR :
LlhE
1CON
lCCN
lCCN
lOON
lCON
STbT
1 CON
ldON
lCON
1 CCN
lCCN
lOON
lOON
LihE
5 1N
51
22
12
6
-280
-62
- 539
247
1CE
-426
-447
470
197
-394
235
-150
5c
-134
55
-123
41
-154
289
-44 1
i7C
-485
1-78
-4 10
151
-4 16
307
-4 10
343
-437
-354
200
-333
228
-375
LCCP
c
321
-446
3fl
FOR:
-5CO
25E PER:
468
FOR : -446
Oh V E R :
339
H O R : -452
25k V E R :
281
HOR : -484
5Ck VER:
293
-533
7 5 k LER:
150
bOG:
-55d
100 k , V E R :
120
HOR: -620
125W VER:
-13
H O R : -530
1 5 C k VER:
-73
-500
t--CF:
175k VER:
-150
HOR:
-410
2 C O k VER:
-190
HOP:
-3 10
225W V E R :
-16C
HOR:
-240
250k V E R :
-170
H O R : -180
5 C E VER:
HJR:
5
4
-440
130
50E V E R :
STAT
3
-530
HOR:
LCCh
2
PACE
25c
-388
276
-404
226
-415
171
-406
173
-4 13
SC
-420
38
-4EC
-52
-400
-110
-36C
-16C
-270
-1 90
-19c
-160
-140
-140
-101
LGCP
0
333
-461
-333
256
lC1
-2513
111
-25C
$4
-308
e5
-267
L c4
-229
106
-226
53
-240
22
-28C
-34
-230
-60
-190
-8C
140
-
-80
-1co
-74
-72
-6C
-52
GAIN
3
-23
4
-26
-1
a
-3
-2
-5
-1
-3
-5
-2
0
1.00
-1C
-3
4
-19
4
-26
17
7
-2E
-66
17
-76
15
-81
-18
5c
-133
46
-250
8
-75
25
-133
56
-245
90
7
39
115
152
-277
170
-255
12 8
-69
-159
75
38
-161
74
-138
-88
60
-132
39
-132
53
-130
27
-120
13
-13C
-12
-110
-25
-98
-3 5
-71
-3 5
-51
-32
-38
-28
-3
L
14&?
76
-235 -148
34
-68
22
-62
14
-65
24
-64
14
-56
5
-62
-4
-51
-8
-45
0
-10
-30
-3
-34
16
-2Z
12
-29
3
-22
1
-15
6
38
-17
-10
c
-17
-20
-25
-12
2
-16
4
-12
-1
-11
-4
-10
-I
-3
c.35
-2
6
(2-53
5-64
1
2
-2
0.75
2
1.00
-3
-3
-1
-1
-2
-4
-3
-2
-4
17
-38
0
-28
-15
-5
-4
-6
-4
0.47
-5
-3
-1
-2
-2
-e
0.36
-12
5
-2
-14
-3
-4
-2
c
3-32
0
-1
d
4
0-56
-12
-7
-25
-6
-2
-19
0-68
0.48
s
-1
-12
-7
76
-8
-8
1
c.
-7
-27
C
0 .d9
-10
-5
- A
-87
-11
-5
3
-1s
2
-12
-1 7
-10
-L3
-5
2
-2
-4
-7
- Li
-10
-24
-15
-32
-22
1
,
t
-144
-223
13 1
-271
22
-65
23
-59
19
6
-5
0
-3
-3
-2
-2
-6
-1
-2
1.OC
1.oc
1-00
1.co
1.oc
1.CG
1.00
0.39
t
R ICkf l E L O
COeRE EXPLORPTION
CHAFtNEl
51N
51N
25E V E R :
HOR:
OW V E R :
HCR:
5 lh
2 5 k VER:
HCR:
5 1N
5 C k LER:
5 1N
HOR:
75W V E R :
5 1N
HOR:
l O O W VER:
HOG:
5 1N
125w VER:
f 1N
BOR:
1 5 C k VER:
POR:
5 1N
i n k VER:
PCR:
5 1N
5 1M
5 IN
LIkE
Oh
Oh
CN
(3h
ON
ON
CN
cN
ON
2
- 1
200H VER:
HCR:
225k VER:
HOR:
25CW VER:
HOR:
I7Af
340
255
-276
254
-363
349
2 65
-46;) - 3 6 5
2E5
2 C7
-519
-369
276
19 1
-585 -446
85
32
-620 - 4 5 0
-22
-55
- 5 6 0 -420
-85 - 1 2 0
-540 - 3 a c
-180 - 1 8 0
-400 -28C
-200 -2CG
-370 - 2 4 0
-200 - 1 s c
-310 -180
-190 - 1 6 C
-240 -110
-382
363
-454
LCCP
275W V E R :
HOR:
25Gk VER:
FCR:
225k P E R :
I-OR:
200k bER:
HOR:
17Sk VER:
HOR:
-140
-52
-64
-15C
-10C
-180
-270
-130
-420
POR:
-C2C
ON
50k VER:
Ch
PCR:
2 5 k VER:
HCR:
-1C5
-16C
-150
-190
1 5 0 k VER:
HOB:
1251r tER:
FOR:
ICCW VER:
75W V E R :
PCIR:
-140
-3CO
-180
-440
-25
-620
91
230
-64C
410
-539
353
-343
4
76
157
-18s
172
-218
174
-102
e5
-125
-252
76
-125
129
-220
- 123
5
6
7
8
GAIN
36
-5 1
40
-6 1
29
4
-23
-8
-8
-10
13
c.47
c
-3
-10
cos5
-14
-7
-7
-11
-4
9.63
117
55
-148
15
-140
-LC
-110
-24
-58
-96
-34
-68
-36
-18C
-79
- 14C
-85
-1 10
s
-25
1
-i5
25
6
-14
-9
14
-1
-63
21
-67
5
-59
-3
-35
-20
3
-25
-3
-12
-6C
62
-276
24
-250
-2 7
-230
7
-
-
-5
1
(3.77
c.94
-2
-1
-23
-4
-2
-22
-E
1
-6
1.00
-49
-9
-42
-14
-3 1
-5
-3
-2
1.00
-13
-4
-4
0
0
-2
-1
0
-16
-25
-77
-8 2
-6 2
-55
-32
42
-25
-
-12
-18
-53
-28
-12
-44
-33
-18
-6
-9
c
-Ll
- E2
-8
-5
-4
-4
-4
-9
-2
-2
-2
-2
-2
100G
-1
-1
-2
-1
-2
-1
-3
-1
C
3
0
1.00
1occ
io00
1.00
0
-150
-150
-230
-150
-310
3
PAGE
-130
-280
-02
-440
37
-45C
190
-15
-62
-48
-70
-75
-79
-46
-87
-5CC
-3 0
-240
25
-27C
105
-280
254
-397
311
-217
172
-255
-194
152
-5
-11
-10
-16
-11
-20
12
-30
-34
-130
-62
-140
-25
-24
-3 0
-35
-32
-4 7
'
-68
-24
-92
-8
-120
17
-130
53
-140
50
-128
81
-101
-
-3
-2
-4
-3
-3
-6
-5
-6
-4
-9
-9
-4
-3
-11
-2
15
- 36
- 50
11
-56
22
-68
41
-61
32
-55
-
3
-18
3
-25
1c
-23
11
-2 1
-1
-2
-1
-1
-1
-1
-2
-1
-3
-1
- 3
4
-1
-6
-1
-lC
-2
-9
2
-2
-1
-9
-L
1.03
1000
0
0
1.00
-1
c
-1
1,oc
-1
1.oc
-1
9
1.00
C
0
-2
-A
1000
iooc
-4
-3
-4
3
-1
3
1
1.00
3.78
0.61
R ICHf I El0
CO f?R E EX FL 0R AT 10N
CHAhhEL
ON
Oh
ON
L1h.E
1GCS
1COS
1
C h VER:
lC0S
lCCE
357
-339
25E V E K :
HOR:
5 0 E VEQ:
HOP:
-387
355
-333
-285
244
LOOP
D
STAT
5CE VER:
HOR:
25E VER:
Oh
VER:
HCR:
2 5 k VER:
HOR:
5Ck V E R :
367
333
-435
333
-422
370
-401
327
-508
3 12
-700
75)r VER:
180
HOR : -690
LGOW V E P :
75
HQR:
-590
1 2 5 h VER:
-7
I-CR:
-490
iSOk VER:
-e7
HUA:
-480
1 7 5 k VER:
-160
HOR:
-3fC
200k VER:
-170
HQR: -340
2 2 5 k VER:
-180
HOR:
-3 10
zzck: VER:
190
!--OR:
-280
hOR:
100s
100s
1GOS
1CCS
100 s
100s
lC0S
100s
LI&€
2ccs
ZOOS
2ccs
2ccs
-
LCCP
STAT
200s
-267
265
-266
243
-333
266
-333
25s
-370
245
-393
225
-550
100
-550
12
-440
-5c
-36C
-13C
-340
-160
-25c
-16i3
-190
-17C
-170
-1 5 c
-11c
411
HOR:
25E VER:
HCR:
-411
40 0
-425
2 94
-352
3GC
-36 2
Oh VER:
392
3 04
WQR:
-434
2 5 k LER:
263
-369
254
POR:
75
5
6
7
8
GAIN
-1
-3
0.56
-LO
-8
-13
0.49
3 045
-178
-103
32
-50
5
-23
148
-200
142
-171
77
-110
34
-55
-18
-E
-6
06
-106
C
-13
-64
- 28
-6
-13
-11
-4
17
2
C
146
148
-223
155
-215
185
-222
155
-245
13 1
-337
57
-32C
7
-280
-28
-2 143
-72
180
-a7
- 14C
-85
-105
-8 1
-77
-72
-52
1.32
-26 1
15 C
-262
173
-260
145
-6G0
276
-527
5 C h VEP:
HOR:
7544 VEP:
-674
-5E4
-365
HOR:
-7c4
03
-6 3 6
21
-397
181
e
3
8
74
- 133
75
-126
a3
-133
78
-139
65
-1t2
30
-180
4
140
-
-11
-210
-3 2
-58
-4 2
-72
-30
-56
-36
-42
-34
-29
33
35
-61
33
-62
42
-6 8
4
- 12
-4
-15
-2
-20
-29
-1
-24
-7
-1
6
s
14
32
L.cI
-65
=-:L
31
-8C
14
5
-31
2
-27
-1
-74
2
-64
-2
-52
-14
-44
-17
-32
15
-24
-
-14
18
-14
-13
-
2
G
0.39
2.
0.45
-2
a
3.54
0m 6 1
-e
-8
C
-2
-6
0e80
0
1100
-5
2
-6
-4
-10
-1
1.GC
-1
-1
-4
-6
-2
-4
-3
-1
0
-2
-6
-2
-1
-1
1.00
-3
-3
-5
-1
-3
-2
LmGC
-2
3
1 I30
-2
-1
-4
-2
-4
-2
-2
-1
-2c
- 14
- 13
-4
14
- -4
-8
-4
-6
1 .oo
1.00
1m o o
0
50E L E R :
-
2cos
267
HUR:
HOR:
1OOS
2
PAGE
169
-309
95
70
-158
82
-155
93
-152
8C
-200
47
-200
9
-204
41
29
s
0
-a2
42
-23
-2
2
0
-75
45
-78
36
-11c
23
-98
-22
2t
-?I
12
-54
3
-96
25
- 20
2
-14
3
-3 2
0
0.34
0.4G
-10
a
0 046
-13
10
-iLl
-4
-1
0 -55
3-88
3
-6
-43
1
-12
C
3
-46
-12
-6
C.65
R I CHF I E L D
CCBRE E X P L O R A T I O N
Ct-AAhEL
1
200s
lCCk VER:
60
WR:
12Sk V E R :
-590
20cs
FOR:
2GCS
15Gk L E R :
HOR :
175U V E R :
HCR:
2CCk VER:
20cs
HGR:
2 2 5 h LER:
2coz
200s
HOR:
2GOE
200s
2CGS
LINE
3005
2 5 0 k VER:
HOR:
275w V E R :
HOP:
300k VER:
FOR:
STAT
L O O € VER:
HQR:
3005
3COS
3CCI
75E V E R :
HOR:
50E VER:
POR:
25E kER:
FOR:
300s
3005
-110
-430
-150
-393
-160
-310
170
-i70
-180
-
-1 1 C
-260
-160
-180
-170
-13c
-160
-2co
-140
-140
-13c
-70
LOOP
D
305
-443
409
-380
265
-413
375
-500
2i5
-110
2S6
-356
150W VER:
HOR:
32
-34
-480
-90
175k VER:
3ccs
-80
2CCh V E R :
-4CO
HOR:
-123
225k V E R :
HOR : -370
FIR:
-340
-
- 133
-110
-105
-110
-76
100
-5 7
-8C
-
-36
173
-286
19 2
-248
171
-328
-3c5
-447
-480
-80
-270
-96
-22c
120
-170
-12c
-472
-47c
HOR:
125W V E R :
HUR:
-3co
175
-259
17 2
-596
163
-557
98
288
-32
264
-428
243
-375
263
5 0 k UER:
FCR:
75k VER:
bCR:
l C C k VER:
30CS
30c 5
-37c
-15c
-310
227
-511
163
-519
45
-568
-6 1
3005
HOR:
25U V E R :
3C0E
-4 5
-4ec
HGR:
O h LER:
3ccz
- 540
-32
-490
-105
-450
-145
-437
416
-555
348
-581
3COS
3GCS
-7
2
2
-120
-430
-150
-4oc
-17C
-27C
-180
-2sc
-1130
-25c
4
-15
-160
-42
-140
-43
-120
-55
-98
-58
-76
-54
-57
-52
-42
-48
-31
-40
-22
95
-1e2
96
-104
85
-207
81
-175
91
-2co
81
146
-325
se
-346
8
-344
-7 7
-294
-110
-290
-130
-250
-140
160
-
-150
-160
-130
-14C
-220
4a
- 230
1
-213
-44
164
-6 1
-
PAGE
5
6
7
E
GAIN
-3
-2
-1
-4
-4
-2
1.00
1
-2
1.00
-6
-0
- 3
-1
-74
-26
-17
-68
-21
-5
-10
-56
-21
-4s
-22
-3
- ad
-23
-28
-21
---71c7
-5
-3
3
-18
-21
-15
-17
-6
-7
-5
-6
-1
-3
-2
-2
-1
-12
,c
52
-100
56
-76
46
-1G7
4c
-96
47
-94
46
-106
23
-115
1
-1cs
--89i a
-49
-a4
-165
0
-2
i
-1
-6
-55
-110
-2
-3
-7
-11
-ai
-e4
-7
-25
-6
-11
-36
-25
-82
-34
-74
-36
-52
-37
-48
-34
-150
-80
-140
9
-2
-1
0
3
1.oc
1.00
1.00
1.00
1.00
1.00
0
-2
-1
-2
-1
13
-13
3.23
-d
0
13
0.25
5
-4
-34
C
-4
-7
-25
3
-Sf
-31
a
-30
16
-24
10
-32
13
-33
9
- 32
-1
G
- 17
12
-28
-2
-11
-3.43
0e 5 2
0.61
- 15
-
-4
-1
-9
-32
-4
-25
-10
-28
-4
-15
12
-22
- 1c
- 15
0.36
-6
-6
- 10
0 e32
-23
13
-40
C
0 -28
-13
-2
-27
-17
-11
3
-4i
1.30
-7
a
0085
1.00
-12
0
-1
-8
-3
-5
-1
1.30
-6
-4
-1
-5
-1
-5
- 4a
-7
-4
-8
1
1 *oo
L .oc
-5
-2
-3
1.cc
CCBRE EXPLORATICN
1
CFAhAEL
3005
250k VER:
3ccs
hCP:
275h L E R :
HOR:
3COS
LIhE
150s
150s
lfCS
150s
150s
15cs
L5CS
1505
150s
3 C C k VER:
HOR:
STAT
1 5CS
15cz
1505
150s
15cs
LINE
25GS
2505
25CS
25CS
5
-116
-64
-190
-54
-61
-42
-25
LCLP
0
-110
-5 I
-5s
-25
-72
-31
-16
-1 3
-36
-42
-80
-60
-9 5
-25
-40
-32
-42
-13
-11
-17
-E5
-46
-1c5
-120
-99
-sa
-500
i 5 k VER:
le9
t--OR:
-652
5 C h VER:
+OR:
2 5 k kER:
3 C6
-693
3 50
Haft:
-614
O k VER:
392
HOR:
-49Q
25E VER:
400
HCR: -466
5CE LER :
333
BOR:
-46 1
LOCP
-
300h L E R :
HOR:
170
-15C
275k VER:
HtR:
-150
-1 8 0
2 5 G k VER:
-130
-220
-130
-330
HOR:
4
-LbC
-130
-
2 2 5 k VER:
3
-14C
1
-160
-120
-1tc
kOR:
-2 10
2 f C k VER:
-170
hOR: -220
225k P E R :
170
HOR:
-280
200w V E R :
170
PCG:
-3 50
175k VfR:
-120
HOP:
-390
1 5 C k VER : -87
HOR: -470
125k V E R :
-22
HOR:
-480
100w V E R :
59
HGR:
-200
-
-230
-
HCP:
2 7 5 M VER:
STAT
2
-160
~- L E C
-14C
-87
-150
-120
-1 50
-14C
-164
-210
-14C
-270
-130
-35c
-5 5
-3ec
- 140
-87
-2cc
-64
-22 c
-19
-15
-450
84
-536
200
-280
-586
-363
175
263
-5C8
3 13
-392
288
-400
243
-410
46
-326
12c
-315
196
-254
15 1
-244
146
-269
-80
-37
-32
-34
-59
-80
-29
-35
-47
-46
-e2
-44
-1C5
-32
-13C
-7
-140
25
178
58
- 173
a7
-184
94
- 147
97
-146
66
-148
LO
PAGE
-150
-110
-14c
-100
-130
-150
-240
3oow V E R:
HOR:
150s
F I C H f ? ELC
6
- 12’
- 14
-io
7
e
GAIlrt
-5
-8
-3
-6
1.00
-5
-1
-1
1.oc
1.oc
1
- 13
- 14
-12
-12
-4
-6
-1
-4
-2
-5
-4
-2
-3
-1
-2
1.CG
-2
1.00
-1
-2
-1
-2
-a
,a
-14
-6
-5
-1
-4
-3
-15
-22
-5
-7
-3
- 18
-2 6
-18
-3 a
-18
-4 7
-12
-58
-1
-67
14
-E6
26
-86
38
-85
41
-70
51
-75
30
.
-71
-6
-11
-6
-s
-6
-15
-4
-2L
-1
-22
2
2C
5
-
-2s
10
-21
s
-23
40
-EG
-2
-17
-3
-5
,E
c
-3
-5
-6
-e
-3
-5
C
-11
-3
-1c
1
-10
7
-12
-5
-17
44
-13
-15
-5
-2
-1
-6
-5
1.00
L.0C
1.0C
-1
0
-4
-3
1.33
-4
-2
0
-6
-2
1oGG
1.30
1.00
3.95
-4
4
0.75
-2
0
c.57
5
-7
-7
0.51
22
9.45
-4
-17
5
-1oc
-133
-18C
-1SC
Iy
-
0.39
1
D
-170
-E5
-15C
-105
Y
Y
-120
-42
-110
-60
-120
-78
-120
-120
-59
-26
-59
-39
-64
-46
-66
-68
-24
-14
-24
-19
-25
-0
-7
-e
-a
-4
-1
-3
-1
1.GC
- Id
-1
-1
1.00
-2
-5
-4
-2
1.00
-4
-29
-9
-10
-2
-1
1.00
-35
-12
-22
-4
-7
yI
I)
-2
lli
CCeRE EXPLCRATION
CbbhhEC
2 5cs
1
2CCh VER:
250s
HOP:
175k L E R :
. HOR:
1 5 0 k VER:
HOR:
125k LER:
25cs
HOR:
l C C k VER:
250 S
bOR:
75k V E R :
250s
HOR:
50W VER:
2scs
250s
- 130
-320
-1ld
-380
-110
-390
-17
-510
39
-500
25CS
369
.Oh VER:
HOP:
ZECS
256s
2 5 E PER:
HOR:
5 O E VER:
HOR:
LIhE
5 1N
5 1N
Slbl
3 G C U VER:
POR:
2 7 % VER:
HOR:
51h
51h
5 1N
5 1N
5 1N
51h
5IN
5 1N
51h
51N
2 5 0 h VER:
HOR:
225k V E R :
HCP:
2 C C k VER:
HCR:
1 7 % LER:
HOR:
150k VER:
HOR:
125W VER:
HCR:
lCCk VER:
kat?:
i 5 k VER:
FOR :
50h LE2:
HOR:
25w VER:
HOR :
-1 6C
-22c
-1 7 0
-2EC
-15C
-300
-120
-4 20
-74
-440
181
25W VER:
HCR:
'
31
304
-500
-586
4a4
-523
4c5
-432
424
-424
-452
324
-351
363
-393
LCCP
E
150
-314
32
-228
5
102
-306
86
-280
19
-240
3
-220
-13
-270
-72
-200
-110
-170
-120
-120
-1 30
-105
-130
-9 1
-59
-18
3
2
-532 - 4 5 4
27 1
145
-661
-576
HOR:
250s
RICHFIELD
3cs
-la1
-7
-17C
-2c
-120
-30
-1 10
-42
-110
-52
-s5
-6 2
-57
-55
-42
-50
-27
-45
-18
-20
-6
-12c
4
5
c
7
8
GAIh
-9
14
-5
-7
-3
1.00
-69
-82
-72
-9 8
-69
-110
-59
-2 8
-39
-32
-49
-24
-E
-140
-68
-3 5
-290
-150
0
-2
-168
-311
83
42
-355
-220
e4
156
-326 - 2 1 7
83
166
309 - 2 0 2
81
148
-267 - 1 7 5
15 1
72
-7c
-12
-81
1
-22
-5
-32
-3
-98
-37
-15
20
-101
-4c
-8
-8
-6
-130
-120
-160
- 12.3
-180
-110
-200
-
-29
-5 a
34
- 108
42
- 1cc
37
- €6
-284
-175
36
-84
4
-121
-i
-4
-6
-5 2
-12
-E2
-14
-6 5
-18
-5 2
-2 2
-4 7
-2 5
-3 7
-27
-22
-23
-16
-18
-10
-13
-7
-9
-3
-74
-6
11
PAGE
-42
-3
- 14
- 18
-E
-29
c
1c
-41
16
-32
4-
,c
-5
-4
-4
1.oc
-4
1&0
-12
-a
-4
-1c
-2
0
-1
-11
-1
-3
-10
5
-5
-1
-3
13
-6
1.00
(2.77
c.59
0.46
-4
-26
-4
-14
0.42
13
-2
-le
-e
-a
c.37
-37
6
-6
-18
3
2.33
-6
C
-2
0170
C
-I
0.6a
1.cc
-27
C
-7
-3
-- 1 C
-1
-4
-52
-10
-47
-9
-26
-- 1 9
-9
-4
- L
-3
-2
-23
-2
-.-.
-5
-4
2
2
-37
-11
-2 7
-12
-18
-6
-12
-5
-22
-8
-10
-4
-5
-2
-3
-3
-4
-4
-3
-4
-1
-k
1.cc
-3
-4
-3
-
1.CC
-7
-4
-5
-7
-2
-4
-5
-1
-3
-7
-4
-11
-5
' L
- E
-10
-8
-3
-2
-1
-2
-2
-1
d
3
c
lIC0
-1
-1
-2
-6
-6
-3
-2
-3
-3
-1
113c
-3
-1
0
-1
-1
-1
0
-25
-13
-2 0
-15
-12
- 14
-7
-5
-6
-9
-
-5
-4
-2
-1
1oGO
-4
-3
-1
1.00
-5
1
1.oc
-1
LOOC
-2
1-00
1.00
R I CHFI ELD
COBRE E X F L O R A T I O N
1
2
3
Ok V E R :
-32
HOR:
-7
-15
-4
CI-bhhEL
5 1N
LIhE
2005
LCOP
STPT
Ch VER:
1-OR:
200s
zoos
25k V f R :
HCR:
5 0 h VER:
HCR:
200 I
7 S k LEU:
hop:
l C C k VER:
2COS
125k
2ccz
200s
200s
2CCE
2co 5
zoos
150W
17%
2CCh
225h VEP:
164
POR : -258
2SOh VER:
206
275k VER:
HCR:
2ccs
3CCk P E R :
HOR:
2130 5
zoos
LIhE
STAT
3 5 C k VER:
250s
POR:
325k VER:
HOR:
25CS
25CS
250s
-3
-2
-1
-1
-15
-9
-7
-4
-1
-2
-1
-5
-76
-29
-15
-34
1
-2 2
-3 8
-34
-34
0
-1
1
-E5
-82
-11
-18
-21
-20
-25
-3
1
-4
-2
-4 7
-6
-6
-4
-4
E
-6 8
-3
E
-
73
-95
-5 8
-13c
-36
-150
-7
-1 50
11
-1oe
31
-16E
58
-1 79
-42
-32
-6C
-23
-6 8
- 10
-71
13
-0
- 64
5
-37
3
-13
-72
11
-73
-36
-5
-13
-1
-8
- 108
- 137
277
-241
177
-169
272
-2C4
143
-17C
41
47
-123
69
-150
96
-151
9
-76
16
-97
41
-110
-41
-5
C
5
-5C
2
-25
13
-4
-12C
-68
-2
-38
4
12C
-110
115
-177
7f
-106
3c
-62
-185
-102
-62
-1
-55
43
42
7
-41
16
-62
15
4
-36
1
-33
1
-32
-3
-32
-13
2
-22
C
-16
C
-lC
-4
-s
-11
-9
-4
-2
-10
-3
-E
1.00
1.00
-3
-2
-5
0.89
2
-3
(2.77
-5
-1
c147
-13
-1
0-58
3
1
-10
-
0
-2
-1
-1
13
-51
0
1.02
1. 1.30
-2
-3 L e 0 0
3
-2
1.00
C
-42
13
-11
1.00
3
-3
-14
-4
- 11
2
0
-29
0
-45
-5
-61
30
-77
-162
50
5
1
-6
3
-7
66
-136
52
240
-1€5
- 34
-lC
113
E
-11
-8
-22
0
-8 7
-215
13C
-1IE
LCCP
-5
-4
-7
-3
-3
-6
-5
-294
261
166
-4
-21
-0
-3
-7
-2
-11
-5
31
-186
-9
--38
-7
-14
-10
-25
-6
-6
-6
-4
-4
-22
-7
-33
-7
-I13
L72
-17
-33
-18
-38
-8
-3
-8
-11
-10
-13
-10
C
-43
-7
-51
-1
-6
-84
86
-211
-18
-200
220
-220
171
-257
148
-i71
HOR:
1.00
-5
-3
hOR:
2 7 5 k VER:
HOR:
25Ck PER:
225h VER:
-1
-1
-7
-2
300k V E R :
HOR:
-1
-1
6
-206
-226
GAIN
5
-293
254
325h VER:
305
HOR : -236
350W VER:
317
HGR:
-220
250s
250s
-
-220
-58
HOR:
-220
VER:
-1
HOR:
-310
VER:
45
HOA:
-260
S6
VER:
FOR:
-303
VER:
119
+OR : -272
HCR:
2ccs
-180
-110
-190
-250
120
E
7
4
-150
- 105
12
PAGE
-F
0.51
(2.42
-21
c
-2
6
C.36
3-29
-6
2
0.36
-2
0
0.44
-e
-4
c.5c
-12
-3
0
0.59
-2
0.7C
0
-5
-3
-1
-12
-8
c
0-81
R iCHFI E L D
CGeRE EXPLORATION
4
5
6
7
2
-6
-44
-4
-26
-3
-76
-9
- 14
-6
-4c
- 20
-4
-2
-7
-10
-34
-A3
-30
-11
-25
-16
-6
-17
-7
-2 0
-4
-6
-3
-7
-2
-2
-20
-10
-14
-6
-16
-7
-7
-3
3
2505
2aow VEP:
HOR:
25cs
25cs
2scs
2505
25cs
1i5h VER:
t- CR:
1 5 C k VER:
HCR:
12Sk L E R :
HOR:
l O O W VER:
HOR:
7 S k VER:
HCR:
25cs
5 C k VER:
25cs
kCR:
25k V E R :
HOR:
250s
LIhiE
OW V E R :
HOR:
22
-250
-24
-27c
-72
-260
-110
-200
2ccs
O h VER:
-66
2GCS
HCR:
25k VER:
-27
-130
72
20a2
200s
200s
50k VER:
HOR:
75W V E R :
HOR:
1CCh VER:
FOR:
-6 I
-32
-52
-22
-32
-28
-24
-37
-16
-2c
-10
-34
-14
-E
-7c
-64
- 13
-21
-52
-183
-72
-24
-33
-20
-39
-15
-48
-10
-64
2GGS
-176
228
I-CJR:
325h VER:
tOR:
-175
25 4
125k VER:
- 162
-14
-10
-8
-14
-a
-4
-11
f
GAIh
-2
Go89
-4
-3
3.95
1
-2
1.00
-3
-7
-1
-10
-3
-4
-2
-2
-2
-1
-3
,E
-e
-4
-4
-3
-2
-1
- 74
-2
-1
-1
-1
c
-1
0
-6
-9
-4
-6
-3
-
1.oc
1.6C
1.00
1.00
1.00
-7
-4
-1
-3
-2
C
-9
-5
-1
-2
-6
-3
-2
-2
.- 5
-1
-1
-4
-2
-1
1.GC
-2
-2
-1
-4
-6
-1
-2
-3
-4
10
-4
-L
-L
1.OC
-12
-8
-A
1.OC
0
E
-26
FOR:
3CCk V E A :
2ccs
-62
-73
-49
-30
-57
200s
2ccs
-21
-5C
-27
-55
-259
205
200s
-38
-12c
-55
-100
-58
-110
-160
-77
- 1 10
HOR:
275W VER:
200s
-73
-11
-20
-10
2GU5
2ccs
3
-147
-12
-130
-48
-24
-58
-3s
-120
-41
POR:
-220
150k V E R :
3
HfYR : -240
175k V E R :
50
HCR:
-260
200k L E R :
e9
HOR:
-250
2 2 5 k LER:
134
HOR:
-257
250k V E R :
172
2002
22
-1 57
-150
-180
-150
-e3
-100
-59
LCOP
STCT
FOR:
i
101
-258
68
-273
13
PACE
-38
-55
-2 1
-11c
-3
-130
17
-140
45
164
-
75
-1cc
1C7
-1 38
11s
-145
129
-149
-18
-15
C
-71
9
-83
24
-52
45
-85
50
-58
49
-101
-11
-7
-11
-11
-12
-14
-13
-18
-11
-23
-10
-27
-8
-33
-4
-42
0
-49
4
-53
17
-55
19
-56
9
-62
-3
-6
-5
-6
-9
-7
- 12
-7
-16
-6
-5
-E
-4
-11
-3
-
-
-1
-1
-14
-2
-1
-5
-14
-5
-18
-3
-23
-1
-26
-11
-a
-11
C
C
-a
-30
-11
-2
-7
-1
-22
-13
1
-33
5
-33
0
-2 5
-2
-3
-4
-7
-1
-7
-2
-5
1
4
1.ao
-1
-4
-4
1.30
-2
1.00
-2
-1
1.00
-3
0
-2
-4
-1
-1
1.oc
1.OG
1.00
- 74
-1
-5
-1
-3
0.97
-7
3.68
0.81
-1
C
-1
i)
0.57
-1s
-12
0
-7
-3
1
-7
3.51
C
-15
R ICHFI ELD
CCBRE EXPLORATION
1
Ct-AhhEL
2
PAGE
3
4
54
11
2
-66
-50
5
6
14
I
7
8
GAIh
-7
7
-2
-2
0.42
(
I
2c02
350h LER:
261
PER:
-195
130
-171
-1CS
4
-33
(
I
LINE
15CS
lSCS
LCCP
STbT
O k VER:
HCF:
150s
2 5 h VER:
bOR:
50k V E R :
150s
7SU VER:
HOR:
HOR
lfCS
2
l C O k VER:
FCR:
15CS
125h kER:
15C5
HOR:
l S U k LER:
-53
- 15
-14
-42
-120
-e0
100
-
-130
-82
-180
-52
-200
E
-22
-9
-8
-4
-92
15
-45
-2 7
-12
-L1
-48
-18
-58
-47
-20
-2 0
-27
-2 9
-
-66
HOR:
-230
-4c
86
-24
-1c5
150s
175k VER:
41
-8
2OOk
HOR:
VER:
-240
60
-1 2 0
150s
lS0Z
.HUR:
225h LER:
FOR:
25Ck VER:
-240
11C
-230
172
-252
1505
275W VER:
15CS
bOR:
HOR:
150s
300k V E R :
HOR:
15cs
325k LER:
HOP:
15cs
11 h f
100s
10 os
LCCS
lC0S
100s
LCOS
3SCW V E R :
hOR:
STAT
4OOW VER:
HOR:
375k VER:
bCR:
3 5 C k UER:
HOR:
325k VER:
HOR:
300k V E R :
HOR:
2 7 5 k VER:
FOR:
-10
180
-2C8
2 50
-216
272
-200
250
197
-
9
-120
-5
-16
-38
-15
-45
-1 1
-5 7
-3
-59
32
3
-7c
22
-13C
74
-ae
-1 t C
135
-175
-
142
-158
141
-1EC
LCCP
E
1.00
1.GO
0
-1
-1
-1
-1
-4
-7
-10
-12
-6
-6
-3
-3
-2
-1
-2
-2
-10
-6
-6
-7
-7
-3
-2
-3
-4
-2
-3
-3
-7
-4
-6
- 14
-1 1
-19
-1 1
-25
-9
-30
-5
-32
4
-12
-7
-2
1.00
-1
-2
-2
1.
-
-3
-4
-5
-2
-1
-2
-4
-1
-c
-5
-9
-2
-11
-2
-lC
4
-2
-18
-51
-32
-1
-4
-22
E
-8
-58
21
-03
25
-72
-5
- 34
-e
-15
-14
-1
-6
6
-8
-3
-5
-3
-1
-5
6
-18
-6
-54
-25
-6
5
-27
-1
-2
-1
-5
-20
-2
1-00
1.00
-13
5
ml
100c
3
0
-36
3
54
62
-1C8
2
-1
3
-4
-40
20
-94
1
-1
-1
-2
-8 3
-
C
-1
-5
-4
6
55
103
-2
-2
-3
-5
31
e3
-136
-6
-4
-7
-5
-9
-2
I
oc
I
t.03
1 .oo
-7
6
Y
I
1 .oo
C
-2
0
-4
0
-6
1
1
-7
14
-
0 e87
Y
0.72
0
9-60
0 055
I
c .4e
-8
I
I
333
194
-180
16 1
47
-200
E 50
-183
97
-116
83
-9 5
131
56
-191
-It4
13C
-1C8
50
-218
212
-1sc
-212
-166
-112
45
-9 3
5
72
18
-5 1
157
-236
58
-144
25
-90
2
-68
-191
2135
2 54
112
- LO5
35
-76
20
-70
-
2s
-E
-58
4
-71
-38
C
-11
--I
-54
4
-4
6
-a
-45
-20
-5
-45
-9
-23
-5
-19
4
-la
-6
-47
-6
-6
-4
-22
- 14
0
C
-10
0
-26
-13
-5
4
4
-52
-6
-3
7
-1d
-10
6
2
CCBRE E X F L C R A T I C N
C I-Ah N E L
lCCS
100 5
1
25Ck LER:
FOR:
225k V E F :
HOR:
100s
100s
lCCZ
lCOI
100s
100s
lCCI
100 5
ZOOS
LIAE
50s
5 cs
50s
5cs
c,cs
5cs
505
4c
7
-153
-74
ia
-12c
2
-72
-11
-240
-9
-1 30
18
-1 10
-3 E
-
-9 5
75h VER:
HCR:
5 C k LER:
POR:
25h VER:
HOH:
ow VER:
HOR:
O h VER:
HOR:
2 f k LER:
53k V E R :
lCOk
125h
150k
175W
-170
-130
-240
-89
-49
-6 0
-24
-25
-7
LCOP
STPT
75W
-100
HOR:
VER:
Haft:
VER:
HOR:
VER:
HOR:
LER:
H08:
VER:
HOR:
5 cs
HCR:
2 2 5 k PER:
).OR:
-2 8
-6
-59
-20
-95
-45
-110
-160
-110
-200
-85
-180
-49
-200
0
-220
35
-240
71
-260
250h V E 2 :
90
HOR : -i 30
2 7 5 k VER:
130
HCR:
-261
-62
-12
-52
-2
-45
-1
-2
-32
-2
-42
-la
-8
-32
-10
-13
-6
-7
- 12
6
7
C
-7
-3
-2
-5
-5
3
0.98
-6
2
-4
1
1
0
1.GC
- 10
-7
-6
-2
-2
-1
-2
1000
-3
-4
-3
1.oc
1.00
-5
-2
-7
-4
-3
-4
-6
-5
-2
-3
-7
-5
-2
-18
-13
-7
-9
-7
1ooc
-e
-1
-4
-2
-6
-4
3
-5
-1
-3
-4
-18
GAi&
i3
-4
-3
-7
-33
-20
-20
-22
-28
-1c
-14
-5
5
-12
-46
-40
-60
-60
-5 1
-35
-16
4
-25
-LO
15
PAGE
-23
-11
-16
-10
-13
-11
-11
-8
-18
-42
-€4
I
2COh PER:
505
122
40
-250
9
1 7 5 k VER:
-240
kCR:
-46
150k VER :
HOR:
-210
-80
125k V E R :
HOR:
-210
1COIj VER:
HOR:
3
-244
85
HOR:
5cs
505
2
200w VER:
HOR:
5cs
RICHFIELD
1.00
-6
-7
-7
-5
-1
-1
-5
-6
-2
-2
-1
-4
-3
-4
L.00
-A
-2
-4
-2
-1
-2
-1
-2
-1
-1
-2
C
-1
0
-1
1.00
-1
1.oc
-1
-1
-1
-2
0
-2
C
-1
-1
-2
-1
-1
3
-4
-2
-3
-2
-
c
3
-1
1.oc
E
- L2
-4
-2
-25
-11
-30
-10
-1 E
-5c
-38
-t2
-58
-49
-4
-12
-8
-18
-14
-21
-20
-19
-6
-4
-6
-6
-10
-10
-10
-12
-11
-14
-72
-40
-El
-25
-1 7
-23
-15
-50
-12
-61
-8
-10
-24
-7c
0
-7c
14
-89
-41
-105
-15
-1 20
5
-13c
22
-14C
41
-190
-38
-9
-20
-9
-27
-5
-4
-39
-1
-57
-4
-1
-2
-2
-3
-2
-5
-4
-6
-6
-7
-7
-7
-10
-1
0
-2
-2
-2
-3
-1
-3
-3
-1
-1
1.03
-1
-2
1.00
-1
-3
-4
-4
-3
-1 2
-4
-22
-4
-39
1oi)o
-1
-5
-7
10.30
-1
3
-1
-8
-15
-3
-21
-5
-1
-1
-4
-6
-2
-4
-2
-8
-4
- 17
-4
-2
-3
-6
-8
-2
-5
0
1.0c
3
-2
-1
1.OC
-1
-4
1OOC
-4
-1
1.00
-3
-2
1.00
-6
-1
-3
-4
-6
1
-15
1.00
z
3
-4
1.00
c.94
CCBRE E X P L C R A T I O N
RICHF I E L O
1
fl-AhhEL
2
7
d
PACE
lb
4
5
4
7
8
GAIh
7
-51
5
-70
-1
-27
-10
-2
-5
0.70
-17
- 5
-6
-2
-1
0.56
-16
&
-7
-5
10
0
I
50s
fCS
3CCk VER:
I-OR:
3 2 5 k WER:
HOR:
5CS
50s
50s
LIhE
ON
ON
Oh
Oh
CN
Oh
ON
ON
CN
OK
ON
ON
Ch!
ON
ON
ON
Ch
1E5
-27 1
224
-275
350k V E R :
260
HOR : - 2 a c
3 7 5 k VER:
HCP:
4 C 0 h VER:
285
-226
HOR:
STAT
O h VER:
I-as:
EC
-229
105
-206
120
-32c
16 1
25
-105
43
-117
52
16
-6
-3
-17
-4
-120
-70
33
-60
-24
-a5
39
-89
-59
-190
e3
-107
-200
166
-178
E4
-115
LCOP
E
289
-27
-12
-6
-3
-3
-1
-54
-20
-7
-7
-3
-30
-17
-4c
-64
-25
-130
POR: - 2 3 0
-59
125w V E R :
HCR : - 1 5 0
-58
150W VER:
HCR:
-180
175LJ VER:
-11
I-OR:
-190
2 C C k VEP:
22
HOR : -210
54
225h V E R :
HOR : -280
55
250W VER:
HCF:
-220
215k VER:
119
HOR:
-304
3CCk PER:
173
HOR:
-333
325k VER:
216
HOR : - 3 16
3 5 0 b VER:
254
H2R:
-333
375k VER:
3C9
-74
HOR:
LCCk W E R :
!-OR:
4CCW VER:
FOR:
-261
291
-263
-41
-2
-15
-60
-2
-52
-2
-28
C
C
-
8
-a
I
c.5c
-8
2
-7
0.42
-13
0.38
-2
*
Y
I
-12
-105
-43
-1C5
25W V E R :
b0R :
50w V E R :
HCR:
7 5 k VER:
-3
-55
-46
-60
-42
-72
-24
-55
-20
LC
45
-24C
83
-233
113
-235
154
-203
161
-2oc
-2
-1
-A
-1
-A
-1
-1
3
1.oc
1.oc
1.00
-1
-2
0
-1
1.00
-1
-L
-1
-1
- 12
-6
,a
-1
1.oc
-1
-2
i)
-20
-11
-7
- 4
-2
-13
- 10
-8
-6
-4
-4
-2
-4
-12
-4 5
-7
1.00
-28
-5
-10
-12
-1
-3
-2
-I
1.0c
-22
-17
-3 2
--
-2
-6
-68
-1S5
-1
-3
-2
C
-1
C
-1
-1
-3
-130
-9
-1
-2
-2
-3
-150
cc
-5
-3
-3
-4
-4
-4
-10
-7
-L3
-10
-2 3
-18
-14
-4 2
-11
-7c
-1
-4
-2
-e
-3
-88
6
-113
31
-121
47
-137
71
-123
75
-125
-6
-7
-8
-7
-1 1
-20
-11
-10
-25
-a
-40
-9
-7
-13
-9
-14
-7
-8
-
-a
-a
-la
-3
-6
-4
-24
-7
-2
-2
-7
-2
-1
-3
-8
-A
- 1
r)
4
-
-3
-4
-11
-34
-12
-4
-43
-3
-29
-5
-37
-3
-E6
-3
C
-2
-62
3
-
-8
-16
-1
'L
1
2
1.cc
L O O i
0
1.35
-2
0.92
- 10
-3
-5
-1
-5
-3
8
3
-1
-3
1.03
0.75
2
0.60
-71
13
-08
-41
5
-13
C
3
-74
-29
28
-76
4
-2
-59
3
-23
0.42
-47
-11
-4
-4
-2
-22
-13
-13
-a
0.36
-5
33
11
-83
-66
0.51
-7
I G eR
E EX FLCRAT ICN
200h
2GON
2CCN
200N
200h
200N
2CCb
200N
20Oh
2CON
2CCN
SOON
200k
LIhE
150N
3
4
5
t
7
e
S4Ih
-24
-2
-10
-7
-1
-.
-1
-110
-24
-35
-12
-7
-5
-2
-1
1.00
-2
-2
-1
C
-92
-16
-130
-52
-38
-5
-1
-15
-2
0
0
1.00
-5C
-17
-10
-e
-2
-1
-3
C
-3
C
-2
1.30
-3
-4
-2
-1
-A
-3
-160
-11
-3
-28
-15
-7
-4
-3
-3
-5
-16
-5
-22
-4
,a d
-8
-3
-10
-7
-4
-5
-3
-13
-5
-5
-6
-3
-2OC
-250
-68
-12
-73
-12
-45
-27
-1zC
-38
-13C
-3
-25
-3
-190
-52
-20
75k VER:
-180
-180
WOR:
-370
-123
-516
-189
-CC7
-164
-6 0 6
-1OC
-25f
-157
-227
-70
-30
-52
-2
-12
-8
-21
C
-6
-4
-10
-47
-96
-19
-177
-268
-223
-5e
-199
-77
-1s
-6
-5
LCCP
F
LCCP
STPT
150E V E 9 :
PCR:
125E V E R :
HCR:
l C C E PER:
FOR:
75E VER:
HOR:
5 0 E VER:
HOR:
2 f E VER:
FCR:
C k VER:
HSR:
25k V E R :
HOR:
5 0 h VER:
HOR:
1 C C k VCR:
HOR:
L25h VER:
HUR:
150k V E R :
h0R:
2T b l
i 5 c k VER:
HOR:
12fk LER:
HOR:
-49
-3
-LOO
-150
-54
-200
-120
-220
-lac
-390
F
-1zc
- 130
-a
-35
-a
-48
-14
-55
-52
-51
-9
-3
-13
-27
-12
-30
-16
-39
-32
-43
-30
-49
-40
-36
-28
-30
-160
-120
-1sio
2 5 k VER:
-130
-493
-180
-3E0
-240
-380
-240
-160
-'¶do
HCR:
-140
VER:
-180
-lCC
-140
-14
-33
HOR:
25E V E R :
-3c
-80
-2C
-5
-14
-4
HOR:
-45
-04
-12
150N
50E V E R :
-130
-52
1f C N
HOA:
7 5 E LER:
-25
-3
-21
-3
-15
-2
-12
-5
-10
-5
-1C
-3
15CN
150N
150A
LWN
1OOk V E R :
HOR:
75U VER:
HOR:
5 C k VER:
HCG:
15CA
15Ch
150h
17
PAGE
2
1
CkAhFiEL
LIhE
RICI-FIELC
Ob
FOR:
-54
-110
-40
-1zc
-150
-100
-12c
-48
-1CC
- 10
-4c
. -0
-70
-48
-40
-4C
-61
-30
-49
-18
-36
-23
-33
-26
-32
-17
-25
-LO
-18
-11
-6
-2
-6
-1
-6
-3
-18
-1s
-22
-28
-13
-16
-13
-11
-15
-13
-14
-10
-11
-3
-8
0
-e
-14
-4
-e
-2
-1
C
-1
-4
-4
-5
-3
-4
-2
-i
-3
-3
-2
-3
-1
-1
-1
0
-1
1.oc
Le03
1DOO
-a
-4
-6
-2
-3
-4
0
-2
-2
la00
-6
-2c
-5
-11
-1
-2
-7
-2
0
-4
-2
0.67
-3
-2
1eGO
- Y
-3
-2
-c
-
-3
-3
-3
-4
3
-2
-2
-3
-5
-4
-1
-4
-5
- 2d
-5
-1
-
' L
-4
-7
-7
-8
-8
-4
-7
-6
-3
-1
1
1.00
1.oc
Le30
~
a
c.79
-3
2
-1
-1
1.00
-4
-3
1DOC
-10
-5
-3
-2
-3
1.QC
-3
1.00
1.00
-2
-3
-2
-2
-3
-2
-2
-1
-2
-1
-1
- 3
-1
-2
-2
la00
-4
0
-2
3
1.33
-2
-1
1.00
-1
1.oc
9
RICWFIELD
CCBRE E X F L C R A T I O N
1
2
3
4
5
c
l O O E VER:
-71
-30
-4
-69
-12
-3
-14
-1
-8
-3
-6
-4
-2
-2
HOR:
125E VER:
HOK :
15CE VER:
-4
-2
CI-AhIUEL
150N
150h
150N
LCCN
1CON
lOON
tcap
STPT
15CE L E R :
-12
HOR:
125E V E R :
HOR :
l O O E VER:
Hap:
VER:
t-r3R :
-34
-3
-54
-5
75E
LCCh
-26
5 C E PER:
-105
kOR :
-3 1
-92
-
lCQN
25E V E R :
120
n m : -37
U k VER:
-160
HCR:
-89
Z 5 k VER:
-150
ACCN
HOR:
5Ck LER:
lCON
HOR:
lCON
1G0h
lOCN
lCCIV
LINE
75b V E R :
HOR :
1OOW V E R :
HOR :
1Z5k V E R :
FOQ:
1 5 C h VER:
HOR:
ETA1
5 1N
150k VER:
51N
HOK :
125W V E R :
H9R:
5 LN
Elh
1CCN VER:
FOR:
i5W V E P :
HOR:
5 1K
5Ck VEP:
5 1N
HOR:
25W V E R :
HGR:
-2
-la
-2
-74
-230
-130
-3 10
-400
-230
-290
-162
-554
-LO8
-10
-2
-5
-1
c
-3
-2
-1
-1
-1
-2
-1
-0
-1
-4
-2
-5
-2
-5
-7
-1
-8
-1
-1 1
-5
-3
-17
-3
-1
- 22
-2
-3c
-4
-44
-6
-53
-LC
-70
-1 3
-7c
-24
-12C
-43
-13C
-55
-15c
-11c
-152
-119
0
-2
-12
-1
-2
-17
-3
-2 1
-4
-26
-3
-3 0
-11
-4 3
-14
-53
-29
-56
-4 1
-67
-54
-59
-7 1
- 4 32
-124
-175
LCCP
F
-6 8
-537
-121
-187
-57
-7 1
-126
-573
-136
-6 8
-54
-240
-360
-300
-350
-29.3
-1SO
-180
-86
C
13
I
7
8
GAIh
-1
0
-1
0
-1
-1
-1
-1
0
1.oc
C
-L
-2
1eCC
1-00
F
-2
lOCN
LCOh
-26
-31
-2
t-CR:
LihE
PAGE
-147
-13c
-1cc
-120
-79
-120
-4 7
-80
-25
-5 7
-37
-49
-26
-4 3
-14
-2 s
-10
-9
-10
-4
-9
-3
-14
-3
-13
-9
-20
-a
-30
-18
-28
-24
-2
-i
-3
-1
-5
-1
-0
-1
-1
-4
-1
-2
-2
-1
-3
-1
-7
-6
-7
-5
-10
-3
-f
C
-2
-3
-2
-3
-5
0
-2
-2
3
-5
-6
-2
-4
3
-3
-1
-4
-2
-13
-13
-12
-11
-15
-7
-9
-4
-9
-4
-1
-2
-2
-2
-13
-21
-1
0
3
C
-4
-5
E
1
-4
-2
-3
-5
-2
-1
-11
-2
-2
-1
-6
-4
5
-1
-
-1
-10
-5
-2
-2
-1
2
-1
-e
C
4
1.oc
3
0
-1
-4
- 13
-1
-1
-3
3
- 14
- 10
-14
-1 7
-9
-14
-7
-i
-4
-1
-4
-5
-10
-26
-22
-27
-1 7
-21
-4
-6
-3
c
-11
-59
-39
-24
1
-2
-1
-1
-18
- 12
-3c
-23
-42
-3 7
-28
-1
C
-1
-1
1.00
1.03
1.00
1.00
1.oc
1.01:
1.00
1.00
1.oc
1.oc
0.92
3
3.74
~
3.95
-6
-t
-6
0
-3
-3
-7
-6
-2
-3
-4
-4
-5
-2
-3
-1
3
-2
1.GC
3
-2
L.00
-3
-4
-3
-3
'L
"
a
LOO0
1.oc
c
R I CF F i
CCBRE E X F L C R A T I C h
CF b b E L
1.
2
-t5
51N
O h VER:
- 130
-53
5 1N
HOR:
25E V E P :
- 12
-110
-32
VER:
-80
HOR:
-22
VER:
-67
HOP:
-18
kER:
-37
HCR:
-7
VER:
-25
FOR :
-5
-47
-11
-37
-7
-23
-5
-le
POR:
51N
5 1N
5 1N
5 1N
5 1N
LIhE
ON
CN
ON
50E
75E
lCCE
125E
150E VER:
HOR:
STjT
75E V E R :
Oh
HOR:
5CE VER:
I-CR:
CN
Oh
ON
CN
25E L E R :
Oh
25k
50k
75k
HOR:
VER:
HOR:
VER:
HUR:
VER:
HQR:
PER:
FOR:
CN
Oh
ON
LINE
100k V E R :
HOR:
12SW V E P :
HCR:
150k V E R :
kef?:
STAT
4
5
t
7
E
G Ih
-2 4
-4
-12
-5
-7
-6
-4
-5
2
-5
-A
1-00
-3
-19
-10
-4
-5
-2
-1
-2
-2
C
-2
-1
-4
-14
-3
-11
-2
-8
-1
-7
-1
-8
-3
-1
-2
-5
-4
-11
-1
-14
-3
-2
-2
-a
-4
-2
-4
-7
-3
-6
-2
-5
-3
-3
-2
-1
-3
-2
-2
-1
-2
-3
-5
-1
-2
-3
-3
-5
-3
-7
-3
-7
-4
-10
-4
-1 1
-6
-3
-2
-c
-1
-3
-11
-12
-2
-23
-3
-40
-20
-7
-4
-26
-55
-6
-4c
-10
-98
-30
-10
-55
10
-- e 5
-23
-12c
-6
-1
-6
-1
-10
-2
-10
-3
-15
-4
-20
-4
-3 0
-9
-45
-15
-6
-20
-2
-4
0
-3
-2
-5
-6
-6
-9
-3
-8
-4
-68
-1 10
-9C
-10
-23
-14
-25
-6 2
-53
-55
-6 9
-28
-25
-26
-17
12
-581
-130
-170
-116
-186
-34
-23
LOOP
F
-54
-73
-56
-55
-25
-14
-36
-20
-13
-15
-
-29
5 cs
15Ck V E R :
-4 1
505
FOR:
125k V E R :
-560
-110
HOR:
-480
1 .GC
1DCC
-1
-3
-1
-2
-1
-1
-2
-2
-1
-4
-2
-2
-1
-1
-1
-1
-1
-1
1e 3 3
-1
-1
-2
-2
-2
-1
-1
-1
1 .oo
-1
-1
-1
-1
-1
-2
-1
-2
-48
-11c
-1C3
-2C 7
-12G
-1 50
-18
-24
-26
-2
-1
-1
C
-3
C
-1
-15
-4 5
-24
-5 5
-33
-600
c
-1
0
-1
-2
-3
-1
-3
-1
-2
0
-1
1.00
1 .oa
1 .oo
-1
G
1-00
0
F
-4
-110
-36
-220
-100
-35.3
-260
-300
-290
-250
-440
100
19
PAGE
3
-14
-2
-2
15CE V E R :
Oh.
Chi
- 10
LCCP
HCR:
1 2 S E VFR:
POR :
1OOE V E R :
HOR :
- 24
E LC
-10
-5
LO
-12
-
-14
-
-7,
-e
-5
,a
4
-3
-1
-1
1-00
-1
100c
-1
-1
0
1000
-2
-L
1 moo
0
-1
-1
-8
-3
-2
C
0
,.
L4
1030
-1
3
1033
C
-A
1DO0
1000
-6
-L
-2
-4
..
-2
-4
-2
--1c7
-3
a
-8
-3
2
-1
-1
0
-L
-7
-6
-4
-11
-7
13
-- 6
-7
-2
-3
C
-1
-2
-4
-1
-5
1e0c
-*
1.0c
0 .d6
-2
c 092
-3
62
-1
1.3G
1
ChAhbEL
PAGE
PI CHf I ELC
C C B R E EXFLORATTCiN
2
5
20
6
7
f
GAIN
-6
-13
-4
-3
-1
1.00
-4
-4
-2
-3
1000
-2
-2
-3
-2
-2
-1
1oOG
-7
-2
- aa
3
4
-110
-d7
-50
-1lC
-73
-120
-5s
-8 1
-42
-25
-40
-25
-20
-22
-16
-19
-32
-11
-13
-10
-7
-9
-5
-16
-7
-6
-28
-10
-7
-3
-3
-62
-23
-5
-16
-13
-6
-8
-10
-6
-3
-6
-4
-8
-2
-4
-2
-2
-1
- 3d
-4
-5
12
-4
-12
-3
-13
-4
-7
-4
-1
-1
-3
-3
-1C
-3
-6
-3
-4
-3
-1
-2
-2
Y
I
505
l O O k VER:
HOE:
505
5 0s
75k
VER:
I-aR:
5Ck VER:
HOR:
50s
2 5 k LEP:
HOR:
50s
OW VER:
505
2%
HCR:
VER:
fCS
SCE V E R :
bOR:
75E V E R :
HCR:
5GS
50s
50s
HOR:
l O O E VER:
HCR:
12% VER:
MR:
CihE
100s
lGCS
1ccr
STAT
1 5 0 k VER:
HOR:
125k V E R :
HOR:
l C 0 k VER:
HOF:
75k \I€!?:
HOR:
100s
5ctJ VER:
).OR:
100s
100s
lCC5
HQR:
VER:
HUR:
iaas
lCC5
- 3 10
-27c
-320
-320
-27c
-200
-LOO
-140
-67
75E V E R :
HUR :
l O O E VJER:
HOR:
125E bER:
I-CIR:
-15
-57
-2 8
-4c
-6 3
15
-28
-7
-21
- 10
-
-49
-9
-26
-
-4
-11
-3
COOP
f
-51
-112
134
-381
-170
-130
-230
-280
-250
-310
-92
-2c5
-1 13
-134
-lCG
-
-
25W VER:
iao
HEIR :
-90
Oh VER:
-150
HCR:
-80
25E L E R :
-42
5CE
100s
-210
- 19
-73
- 1s
-53
-11
-2 5
-5
- 17
-3
-36
-1
-20
-3
-7
-4
-5
-LO
-5
-3
-1
-5
-6
-2
c
-1
-2
-1
L
-L
-3
-
4
*
-1
-2
C
-1
-3
-2
-2
-1
-1
.
I
-1
-1
-2
l.GC
-1
1.00
-1
0
-1
3
-2
rn
1.00
1.00
1.oc
i)
-1
LOO0
-1
-2
-1
1.00
I
ry
-96
-1LC
-eo
-120
-7c
-75
-30
-68
-18
-3 s
-9
-31
-7
-23
-5
- 14
-4
-1c
-3
4 8
-7s
-53
-54
-44
-37
-45
-28
-43
-24
-30
-25
-38
-23
-25
-23
-22
-21
-15
-21
-12
-25
-16
-3
-13
-7
-8
-15
-4
-1 2
-9
-4
-8
-3
-1 2
-3
-9
-3
-6
-3
-6
-3
-15
-16
-12
-14
-11
-15
-10
-9
-10
-5
-8
-3
-7
-6
-5
-3
-5
-2
- 10
- 14
-5
-6
-5
-4
-1
-6
-2
-2
-E
-5
-2
-7
-2
-3
-1
-4
-1
-3
-8
-2
C
-2
-1
-1
-1
-1
-1
-2
-7
-2
-3
-7
-3
-1
-a
-2
-2
-1
4
-2
C.78
c.97
1
-4
-4
-2
-3
-2
C
-6
-2
-7
-1
- 10
-3
-3
-3
d
-7
- It
-1
-2
-1
-2
-1
-1
-6
-4
-5
,c
lo03
I
1.00
1.00
1.oc
-2
-3
1.03
-2
1000
1
Y
-1
0
1.00
-1
1.00
-2
-1
-1
0
-1
-I
-1
-2
-1
-
1.03
1.00
R I C B F I EL D
CCEEE EXFLCRATICh
1
tl-AhhEL
LIhE
L
15CS
150s
15CS
1scs
1505
150s
150s
iccs
5TAT
LCCP
- 1s
-4
-2
-2
125E VER:
-32
-6
-2
-17
-5
-22
-3
-76
-33
lCOE
75E
50E
25E
Ck
HCR:
PER:
HOR:
VER:
HOR:
VER:
HOR :
VER:
HCE:
VER:
FOR:
25N V E R :
-6
-55
-23
-e
-90
-29
-100
-38
-12
-71
-4 5
-16
-95
-210
-2.2
-260
- 150
-LOG
-1CG
-310
-92
-i61
-37
-347
-12c
-E5
-13C
-53
-42
-65
-1 1 3
-39
-e5
LCCP
F
150k V E R :
I-CR:
125h V E R :
-32
-411
-41
-54
-36
-176
POR:
-312
104
-89
-4 1
-6 8
-56
HCR:
lCOk V E R :
HCR:
125k LER:
POR:
150k V E R :
HOR:
5lbf
-
2ccs
l C C k LER:
-364
2COS
HOR:
7 5 H VER:
HOR:
4 3 0
50k LER:
PQP:
-200
-170
25k LER:
-210
-2 10
-180
1oc
-150
-20
-a0
19
20cs
2ccs
POR:
2cos
Ck V E P :
200s
HOR:
2 5 E VER:
HOR:
200s
20cs
-26
-7
-35
-59
-110
FOR:
7544 V E R :
20cs
-6
-140
-189
150s
200s
-3
-1 c
-2
-14
-4
-15
-4
-20
- 1oc
-130
-2 19
LlhE
-s
-16
-41
5Cb bER:
15CS
-10
-48
-30
17C
-
5OE VER:
FCP:
75E VER:
HCR:
-160
-
-
-60
-14
4
5
-3
-3
-7
-3
-1
-1
-4
-2
-4
-2
c
7
E
GAlh
-1
-1
1.oc
-3
-1
-2
-2
-1
-1
1.00
-1
-i
-A
-2
-2
-2
-4
- 3d
-3
-3
C
-1
a
0
3
-3
1.oc
-2
-1
1.00
0
-2
1.00
F
-15
15CI
lfCS
3
4
150E L E R :
HOR :
P'OR:
15cs
2
21
PAGE
-4c
-El
-125
-1 0 4
-125
-100
-120
-lCC
-64
-SC
-5e
-84
-3c
-67
-9
-42
-46
-36
-45
-55
-52
-4 5
-4 5
-40
-23
-4 c
-2'3
-32
-6
u
-10
-5
-12
-5
-5
-.-
-2
-4
-3
-4
-7
-2
-4
-13
-7
-3
-7
-2
-9
-4
-L
-2
-1
-2
-9
-5
-5
-2c
-12
-24
-17
-1c
-6
-24
-27
-12
-14
-14
-1s
-13
-26
-2
-6
-12
-a
-1
-
-4
-5
-8
-6
-5
-4
-29
-23
-47
-13
-13
-lC
-26
-11
-20
-45
- 19
-13
-22
-37
-21
-2 1
23
-22
-2 1
-13
-2 1
-11
-17
-
-11
-2
-7
-5
2
-4
-2
1.00
-1
-I
-3
-7
-4
-a
-io
-E
-5
-6
-6
-5
-13
-11
10
-5
-10
-4
-1
4
-6
-i3
0
-10
-5
-6
-11
-5
-4
-3
-4
-15
-
-10
-10
-1c
-10
-9
-9
-5
-4
-11
-7
-2
1
-2
-a
-10
-1
-6
-7
-1
-4
-4
-3
-2
-4
-5'
-2
-1
-1
-4
-4
-2
-3c
-12
-5
0
-5
-1
-5
- 15
-1
1.0C
2
-5
-5
- 14
1 .cc
-4
-7
-
-1
-4
-4
0
1 .cc
-4
-18
-1C
il
1.00
1.00
-5
-3
10
-5
-9
-5
0
-2
-5
-29
-3
-18
-5
-a
-7
-3
-10
-4
-1
c .e4
C.65
3.68
3ed0
C.96
-5
-1
-7
3
-3
-4
-3
1oGG
1.03
1.00
-4
*i3
1.00
-3
-2
-1
-1
1.oc
-3
-2
1.00
1.OQ
R I C H f I ELD
C t E P E EXFLCIRATION
CbAhlUEL
22
PAGE
2
3
4
5
6
7
8
GAlK
-27
-5
-2 1
-4
-1 1
-i
-1
-6
-2
-2
-2
-3
-2
-A
0
-1
-1
0
1.00
-9
-4
-1
-3
-1
-2
-8
-3
1
I
I
2ccs
l C U E VER:
200s
125E VER:
HOR:
HOii :
LIhE
400s
40CS
4ccs
5CE VER:
FOR:
25E V E R :
H3R :
O h VER:
4005
25k VER:
4ccs
H CR:
50k L E R :
HCP:
7 5 k PEP:
POR:
4ccs
l 0 O k VEP:
400s
125W V E R ;
4ccs
HOR:
1 5 C k VER:
HOR :
HCR:
400s
175H VER:
hOR:
4005
20Gk P E R :
HOR:
225h VER:
4ccs
250b L E R :
4ccs
HCP:
HCR:
4CCE
275b PER:
FOR:
4CGS
-4
LCCP
STbT
HOR:
4ccs
-50
-8
-35
0
1802
-lC
-6
-3
-1
C
-4
-2
-2
-5
-2
-1
-2
c
-29
-33
-26
12
-39
-38
-45
- 16
-9
-7
-4
-1 1
-6
-6
-3
-17
-11
-6
-
-57
-3 1
-66
-95
-130
-62
-4 7
-34
-7E
-29
-96
-11
- 180
-12
-L70
45
79
-1
-240
1Oil
-222
1511
-246
2 03
-250
24 0
-203
250
-13C
22
-10
-2 0
-26
-18
-33
19
-4 2
-13
-10
-12
-13
-11
-17
-12
-20
-11
-
- 190 - 130
-54
-11
-6 2
-1
-82
-144
46
-164
9
78
-187
-9 5
25
1.33
31
130
-166
-
131
-I€i
56
-125
96
'
-9
-10
- 19
-6C
-43
-57
m
I
G
-1
-7
-1 5
-15
300h V E R :
HOR : - 2 1 1
0
-27
-10
-29
-4
-40
-2
-56
0
-62
7
-57
11
-75
-1
-4
-2
-4
-3
-5
-3
-7
-5
-7
C
C
-2
0
-1
C
-3
1
-4
-3
-4
0
-1
0
3
-1
-1
0
3
0
-1
n
a
0
1.00
1.oc
1.OC
-1
0
-2
C
-2
-2
-2
3
-2
-2
LOO
- 74
-A
1.oc
1.00
Y
-6
-3
-4
-2
-1
-8
-5
-2
-3
-4
-2
3
-5
-6
-3
-2
-2
1.00
-3
3
-2
089C
-14
-3
-26
-5
-4
-12
-2
-2
-2
C
-2
-13
-1
-5
-29
-6
3
-12
5
-22
-4
-43
-t
-4
-13
-18
-35
-3
-32
3
0
-12
-1
-3
1
1
-10
-5
-4
-6
-18
1~
1.oc
-a
- 1c
I
0
-5
-LO
-8
-13
-6
m
1.oc
1.00
y
I
0.73
0164
0.54
3.44
(
I
LCCP
LIhE
500s
5CCS
5CO:
500s
5005
3 2 5 k VER:
400
I-cii:
300C LER:
Hr3 R :
275k V E R :
-185
317
-204
224
hOR:
- 2 14
250k V E R :
HOR:
216
-216
225h VER:
194
HGP:
-250
G
220
-177
165
-182
1oc
37
-122
70
-121
-74
12
8
-31
-2
-78
118
48
6
-171
-1lC
33
-108
16
-71
3
-65
-1
-1c 9
-59
58
-133
72
-194
C
5
E
-313
-34
-4
-17
-14
-2
-40
-24
-22
-1
-1
-43
-25
-5
-3
-6
- cJ
-23
-e
-5
J
C
-E
-1
-6
-2
5
-4
-12
4
-8
-1i
0.3s
0.41
0.4'3
0.6d
-15
-1
-1
1
L
0.72
m
RICPFIELD
COBRE E X F L C R A T I O N
CI-AhNEL
5ccz
2 C C h tER:
97
-287
1756, V E 8 :
41
F O R : -220
15OW V E R :
4
HOR 2 -200
125k V E R :
-2 5
HCR:
-160
-56
l C O k PER:
HOP:
-160
75k V E R :
-74
HOR:
-1c5
50k VER:
-44
HOR:
-55
Pol?:
5CO 5
5005
5005
5cc5
5C05
5COS
500s
sccs
2 5 k VER:
HOR:
-30
C k PER:
-24
-25
hOR:
LIhE
9co5
900s
9ccs
9ccz
900 5
900s
900s
STAT
900 5
900s
2SE V E R :
9ccz
9005
9005
4
19
- 1 59
-2
-a7
-8
-46
-8
-66
-1GO
-42
-72
-39
-1 9
-42
-6E
-39
-43
-30
-20
-23
-27
FOR:
125E V E R :
MOR :
1 5 0 E VER:
HCR:
175E V E R :
-54
-
- 150
-7
-LO
-260
10
-2 10
2CCE V E R :
14
HOR:
225E V E R :
HOR:
250E V E R :
-270
275E VER:
HOR:
3 C C E VER:
HOR:
325E V E R :
HOR:
350E VER:
HCR:
30
-250
95
-250
130
-210
100
-155
90
-194
e5
-265
- 14
-55
-17
-30
-L8
-22
-15
-13
-13
-11
-40
-LO
-29
12
-21
-12
-17
-10
-11
-
-9
-10
5
c
7
8
GAIN
-7
- 11
-6
-7
-5
-5
-5
-2
0
-3
2
0.94
-5
-1
-7
-1
-26
-7
-2 1
-8
-14
-7
-14
-6
-L2
-5
-5
-5
-4
-6
-3
-11
-3
-1 c
-2
-3
L
-L
-3
-1
-7
-2
-6
-i
1
-2
-3
-2
-2
-2
-a
-5
-5
- ad
c
-6
-3
-2
-7
-5
-4
-3
-2
-2
-1
-1
-1
‘L
-2
-1
-2
-2
-a
-1
23
-2
-1
-2
1
-5
-2
LIOC
1.oc
1.00
1.00
-1
-2
0
-1
1-00
1.ao
-1
-2
-1
-1
1.00
1.00
-1
J
-13
-49
-18
-6 2
-22
-85
-20
-160
-1 2
-1 3c
-20
-1 30
-32
-5
HOR :
120
50E VER:
-17
HCR:
-130
-44
75E VER:
HCP:
-250
l C O E PER:
-32
H CR:
9ccs
3
-38
LCCP
FOR:
SCCS
2
1
PAGE
-22
I
-E6
-32
-120
-2c
-97
-27
-130
-18
-12c
10
-1 10
2c
-1G5
-2
-91
-23
-123
-39
-153
-5
-13
-4
-2
-6
-2
-7
-6
-5
-6
-3
-1
-3
-2
-14
-8
-23
-9
-8
-3
-5
-1
,a
-1c
-9
-1 1
-3
-1
-6
- 3-4
-3
-6
-1
-4
-5
-7
-5
-2
-10
-24
13
-
-26
-15
-3 5
-15
-33
-20
-4 0
-19
-46
-13
-46
-14
-43
-20
-33
-3 3
-4 1
-43
-54
-11
-14
-12
- 13
-15
-15
-16
-2 0
15
-18
16
-21
-20
-16
-29
-
-
-16
-34
-21
0
-2
4
-
-4
- a
L
-1
-3
-1
-2
-1
-2
-2
-3
-1
-2
-1
-1
0
-2
-1
-2
-1
-2
1.00
1.00
-1
-1
-6
-c
13
3
-6
-7
0
-3
3
-2
-4
-1
-6
-3
-4
-6
-11
c
-1
-4
-3
-5
-14
-12
-a
-14
-12
-22
-10
-2 1
-9
-e
- 16
-e
-15
-14
-6
-9
0
-1
-7
1.00
-i
-1
-5
-a
1.00
l*DC
-2
-
1.00
-1
0
-9
J
1-00
-1
-5
-12
-7
12
c
LmGC
-4
-1
-1
-3
1.00
loco
1-00
Om90
0.77
3.64
CGBRE EXPLORATION
1
CkAhhEL
LIAE
STAT
1cccs
4CCk VER:
lGCCE
HC2:
375b VER:
HOR:
1000s
locos
lCCCZ
1000s
1000s
1000s
locos
2CCk
LER:
nm:
3
4
5
6
7
-66
-57
-28
-12
-9
-5
-23
-7
-2
-3
-6
- 20
-3
-6
-3
-E
-10
-8
-4
LOOP
J
IO0
-240
13
-170
-ea
- 34
-3 8
-13c
-72
-200
-64
-5 2
-22
-38
-160
-72
-7 4
sa
350k VER:
130
HOR : -250
325k VER:
92
HOR:
-2 10
30CL LER:
56
).OR:
-i50
2 7 5 k VER:
58
t-OR : -150
250W VER:
1
HOR :
225k V E R :
HOR:
2
-47
-130
-35
-57
-66
-136
-6 5
-4 7
-6 6
-1 3C
-64
-6€
-52
-77
-74
79
-55
-55
14
-52
-150
-15
-
-€ 2
-16
24
PACE
RICHFIELD
*z
-12
-
-6
-4 7
8
-47
-24
-40
-13
-3 7
17
-34
-
-3
-26
-2
-24
0
-20
3
E
GAfN
-4
-2
1.00
- 3
-1
4
-2
-4
-14
-2
-5
-3
-6
-2
-3
-3
-6
-3
-3
-14
-3
-5
-4
-3
-2
-2
-2
-4
-L
-9
-4
-1
-16
-1
-10
0
-8
C
-
-4
-1
-4
-1
-e
-2
1.00
1.oc
1
1.00
-1
L.00
100c
-2
-1
-2
-1
-1
LIOO
‘L
-1
-2
1.00
C
rsl
1.00
-2
-2
i
m
s
1
LINE
7COS
STAT
LCCP
5SE V E R :
J
HCR:
21
-150
lG0E PER:
16
-6
-45
-3
-57
-8
I-CR:
-153
32
-160
0
-64
-4
-77
-21
HOR:
-30
-190
-74
-28
-87
-25
-14
-26
-16
-23
200E L E R :
hCR:
-78
-55
-26
-2 10
7ccs
225E LER:
-38
-47
-5C
7CCS
kOR:
250E VER:
-180
-85
-32
-26
-32
-17
HUR Z
700s
7GOS
7ccs
7CCE
700s
7cos
75E V E R :
125E LER:
#-ae:
150E P E R :
HOR:
175E VER:
HOR :
700s
275E V E 2 :
HOR :
7COS
LINE
8CCS
3 G O E PE9:
I-CR:
STAT
3CCE VER:
POR:
14
-140
- 160
-250
-46
-340
-168
-459
-90
-64
-13C
-68
-15c
-122
-244
LCOP
J
-70
-330
-175
-82
-6
-15
-4
-18
-7
-23
-7
-42
-39
-50
-61
-66
-45
-6 0
-5
-6
-3
-8
-6
-8
-7
-3
-3
-2
-3
-4
-2
-5
-LO
-10
-4
-11.
-4
-7
-4
-10
-5
-11
-11
-14
-13
-15
-13
-14
-1 7
-4
-LO
-7
-12
-6
-21
-12
-19
-27
-9
-9
-22
-7
-25
-14
-25
-9
-2
C
-1
-1
-1
-2
-2
-1
-1
r-
c
-1
-1
-1
- 1-
0
-1
3
1000
1.00
G
-1
1
1.30
.a
id
-1
-2
-2
-1
1
-2
3
-1
0
-6
-4
-2
C
-2
-4
-2
-4
-2
1.00
3
-2
1.00
0
-3
I.
-2
1.JC
-3
5
-2
i)
-2
-5
-3
-3
-1
-3
C
-4
C
-4
-2
-4
-1
-5
1
-5
-6
2
-2
-6
-3
- 4
1.00
1.oc
t.CG
1.30
1
6
1
0.98
1.oc
Iy
R I C H F I EL0
COBRE EXPLORATION
'
ChAAFtEL
8005
accs
ECCZ
8005
8005
aoos
ECCS
8005
8COS
800s
LIAE
27SE V E R :
h0R:
ZSCE VER:
PCR:
STPT
100 5
HOR:
3 5 0 k VER:
HOR:
375k V E R :
HCP:
4CCk VER:
POR:
lGC5
425h V E R :
HOR:
100s
450W V E R :
HOR:
100s
475W V E R :
lCCS
t-CR:
5G0k VER:
HCR:
LIN€
15CS
150s
15cs
--
.
..
-
-
POR:
325k V E R :
lCCS
-
-
3 C C M VER:
lCCS
2
160 - 1 l C
-310 - 1 5 0
-103
-E5
-130
-S6
225E LEI?:
11
-45
POR: -140
-s5
200E V E R :
30
-14
HOR:
170
-7e
175E V E R :
36
-8
HOR: -190
-80
1 5 0 E VER:
-12
-17
HGR:
-200
-90
125E V E R :
-2 c
-30
HOR:
-150
-75
lC0E VER:
-2 8
-24
t-OR :
140
-64
75E VER:
-17
-18
HOR:
-130
-68
5 G E VER:
-8
13
H3R:
-110
-47
100s
lC0S
1
:?AT
LCOP
H
- 1 10
-LOO
-110
-84
-520
-7 5
-250
-55
-230
-11
-2 50
-3 0
-180
20
-310
-43
-290
4
5
-46
-50
-38
-22
-21
-21
-10
-4
-1'3
-3
-26
-12
-17
-11
-25
-26
-14
-25
-13
-25
-17G
-1
-3
0
1.00
-5
C
-12
-9
-12
-4
-10
-11
-6
-5
-1
-3
-5
-2
-4
C
-2
-2
-2
-3
-4
-7
-8
-5
-7
-4
-2
-3
-1
-2
C
-2
-2
-2
-1
-4
-3
-2
-2
-1
-55
-14
-60
-3c
-65
-2c
-7
-1
-6
-2
-35
-6
-3
-22
-8
-25
-10
-30
-10
-34
-14
-3
-9
-2
-10
-3
-13
-5
-33
-10
-17
-9
-24
-19
-5
-86
-48
-30
-48
-31
-10
-14
-10
-114
-56
-lC
-3
-105
-40
-105
-35
-44
-25
-96
-80
-1CC
-56
-75
-
C
-10
-7
-5
H
-370
-47
-290
1.30
-L
-E
-26
-9
-22
-9
-17
-7
-15
-4
-12
LCCP
-13C
-228
-110
-25i
-13C
-4
-1
-3
-250
23
(3
-4
-6
-40
-78
-50
-80
-5C
-92
-78
-336
0
C
-6
-2
-44
-19
-19
0
-2
-15
-18
-11
GAIN
8
-4
-10
25
-3
-3
d
-s
-72
38
-11
-5
6
-10
-110
-1lC
-13C
-110
-115
-11d
-200
-110
-19c
-11C
-180
HOR:
FOR:
-110
-11c
-100
-110
7
3
-11C
550k L E R :
525W VER:
HOR:
5COk VER:
-68
PACE
c
-3
-I
-1
-4
L
-L
-3
-5
-0
-2
-5
-8
-3
-6
-7
-15
-1
-7
C
0
-1
-11
-10
-lC
0
-1
C
-1
-1
-2
-1
-2
-1
-1
3
1-00
1.00
1.3C
-1
-1
0
-1
0
-1
0
-1
1.00
1-30
1.00
1.30
-1
-1
-1
1.30
-1
-1
-1
0
-2
1.00
0
1.oc
-1
-I
-1
-3
-3
-2
-3
-3
-1
-2
-5
-4
-2
-5
C
-4
-1
1.3c
-2
3
-3
-3
-1
1.3a
-2
-4
-5
-2
1.00
1.90
1.30
4
-9
-2
-6
1.00
-1
15-92
1.00
C
-1
1
-1
-+
1.0J
-1
C
-5
-1
1.00
- t&
-3
R ICt- F I ECD
CCBRE EXFLORATION
1
ChAhhEL
150s
475H V E R :
HOR :
VEP:
15cs
45a4
150s
HOR 2
425U VER:
kCR:
15cs
4CCh
VfR:
HCR:
15cs
375k \ E R :
150s
t-OR :
3 5 0 U VER:
15cs
CI h E
2CCS
200s
200s
ZCCE
200s
3CCk
200s
2ccs
2ccz
-E45
-11C
-110
-11c
-150
-110
-123
-110
-77
-1c5
-70
LSCP
H
375h VER:
-140
HOR:
400H VER:
HOR:
425C VER:
HOR:
-220
-130
-200
-120
-120
-1lC
-12C
-115
STAT
4 5 C k VER:
FOR:
475k VER:
500W V E P :
HCF:
5 2 5 k VER:
FOR:
5 5 C k VER:
HOR:
5 7 5 c VER:
STAT
25cs
HOR:
450k L E R :
HOR :
2505
--b
PER:
2 50s
25cs
-180
-123
t-OR:
375W V E R :
HOR:
40Ck V E R :
F3R:
425H VER:
250s
-335
-74
-235
-40
-260
-1C8
-110
HQR:
LINE
-92
-6 7
-e6
-110
HOR:
200s
-120
-96
325k V E R :
HOR:
475k VER:
HCR:
+
2
d
-1EC
-130
-30
-200
-65
-225
-120
-130
-1co
HOR:
150s
2
-1lC
2
-78
-4 0
-7c
-40
-6 0
-3 1
-58
-27
-55
-14
-43
-1 3
-50
-2 5
-55
-320
-68
-2cc
-110
-200
-14C
-240
-141
-26C
-1co
-134
-254
-121
-141
-70
-340
-115
-110
-160
-20
-250
-75
-320
-39
-300
-L10
-1lC
-11C
-110
-14C
-110
-160
-110
-170
-8
19
-
-4
-15
-5
-2 c
-7
-20
-14
-40
-2 6
-35
-30
-170
H
- 18
-55
-9 2
-7 5
-280
-59
LCCP
-20
-33
-13
-28
-13
-22
-10
-10
-140
-110
-350
-73
-300
4
-347
46
-448
-34
-27
-6 3
-30
-6 7
-200
-95
-14C
-40
-21
-E5
-9
0
-55
-108
-119
-51
-26
-52
-25
-6 8
-45
-7 2
-57
-78
-6 2
-24
-8
-30
-44
-37
-4 7
PAGE
e
6
7
-10
-1
-5
-9
-14
-10
-7
- 13
-7
-12
0
-5
-1
-6
-0
5
-4
-7
-5
-7
26
GAIA
0
-5
-5
-1
-7
-2
-3
-1
-3
-1
1.00
-3
-4
-1
1
-1
-2
-1
1.00
C
-2
C
3
1.00
-2
-1
1.0c
0
-1
1.00
0
-4
-1
0
-2
-2
-2
-1
-5
-3
-2
-1
-1
-1
a
1*oo
-1
-15
- ad
-3
-1
-1
-1
-1
1.00
-3
-8
-4
-9
-9
-14
-4
-2
C
-15
-7
-10
-11
-15
-11
-14
-6
-7
14
-4
-i
-1
-
- 1c
-1
-2
-1
-3
-10
-2
,a
-3
i
-2
-t
-S
-2
-4
4
-5
10
-
-1
1
1.0c
-2
3
1o l l a
-1
-9
-4
-2
-3
1,.o 0
-3
-2
L-OC
-2
-5
-5
-6
-1
-6
-e
-4
-25
-46
-12
-11
12
-2
0
-It
-5
-2
-1
-1
-6
-19
12
-L
-2
0
-6
-2
-1
-2
-1
-1
-25
-12
-10
-6
-2
-4
-2
-28
-13
-3
-9
-3
-3
-7
-4
-1
-1
-1
-1
3
-1
-14
-3 0
-18
1.c5
0
-43
-5 8
-
1 .oc
C
C
-2
-
-1
-4
-2
1*0c
1 .oo
de92
C.78
-7
1t00
1.00
1 .oc
LeCJ
-3
-2
-6
-1
-3
1000
B
COBRE EXFCCRATICh
I
Ct-AhhEL
1
25CS
5 C O k LER:
25CS
HOR:
E2fk PER:
kOR:
25CS
550'W LJER:
2505
HOR:
575W VER:
HCR:
LIhE
30C5
300s
STAT
30CS
LIhE
-4
- 3
-4
-18
-2
-3
-4
-12
-13
-9
-5
4
-2
3
-3
0
-1
-100
-105
-100
-9 5
-112
-118
-45
-32
-44
-35
-49
-40
-20
d
0
-100
-76
-130
-64
-350
-130
-150
-140
-10
-140
-12c
-140
-5
-9
-1
-130
-260
-90
-4
10
-3
HOR:
-270
-11c
-160
-150
-29
-69
-38
-6 7
-37
-82
-46
-ea
-36
FCP:
-3 10
-105
-410
-14C
-55
-1 4 c
-24C
-€!e
-18
-36
375k V E R :
sccc VER:
525H VER:
HCR:
550k LER:
HOR:
51531 VER:
HOR:
6COk VER:
HOR:
ZTAT
-45
-210
-26
- 2 10
-36
-170
54
-280
-
- 110
-52
-46C
-5
-483
75
-594
LOOP
-130
-210
-65
HOR: -?30
450k V E R :
-70
FCR:
-270
4 7 5 k VER:
13
HGR:
-420
5CGk L E R :
17
I.03 : -360
525h VE2:
HOR:
a-
2
-5
-1
5COZ
5CCI
-6
-3
C
C
C
HOR:
425;k bER:
5CCS
-10
-5
-20
-7
4CCk L E R :
5GOS
-35
-25
-4
SGCS
500s
-4C
-83
-1
-3
-1
-4
-1
-7
3005
300s
-279
E
-a
HOR:
475W V E R :
3ccz
-134
7
-4
-9
-4
14
-5
-I9
-6
-23
3COI
3005
H
-29C
-150
-240
6
-13
-32
-17
-46
-21
HOR:
453k VER:
3005
LCCP
-14C
5
-2 8
3OGS
h
-11c
-200
4
-58
-82
HCR:
4COk LER:
HOR:
42fk L E R :
30CS
-30
-350
-4 5
-4 10
-45
-360
86
-4 19
a
4
-72
325k VER:
HOR:
350k V E R :
HOR:
3005
2
41
-390
-7c
-1 30
-33c
- 1 39
-365
-139
-455
27
PAGE
F I C H F I ELC
-a2
-96
-11c
- 102
-LO7
-1C7
-132
-
-24
-13
-3 1
-9
-30
-42
-33
-43
-37
-50
-39
-2
-7
-
-8
-12
-4
-2
0
-3
-3
-2
-4
-2
-4
-1
-3
0
-1
C
0
-1
-2
-2
-2
-2
-3
-2
0
-4
-2
GAIh
1
2
-4
-4
-2
-L
-5
0
3
-A
1.00
1.0c
1.60
0.93
1.00
1.00
0
3
1000
1
3
1.30
-1
-1
1.00
-1
c
1-00
-2
-1
2
-1
1.03
-3
3
1.00
1.0c
-15
-6
-12
-18
-3
-13
-2
-1r;
-3
-E
-7
-10
- 12
-5
-2
2
4
-2
0
0
1-00
-2
-3
-3
2
100a
6
-1e
-6
-16
-2
-7
-2
-4
-3
1.30
-8
-2
3
1.00
-3
1.oc
-4
-18
-7
-21
-12
1
-6
2
-3
-1
-4
C
2
-7
L O O C
-4
-2
3.93
1
3
0
9-79
I
-190
-70
-110
-240
-150
-110
-4 2
i
-45
-27C
-130
-220
-230
-1sc
-2co
-110
-4c
120
-32
- 120
-7
-48
0
-383
-2OC
-22
-160
-180
-74
-120
-340
-68
- 120
-17
1
-1
-130
-170
-173
-67
-36C
-2cc
-80
-23
3
-10
-6
-260
-160
-200
- 17
-57
-58
-14
-12
-2
-11
--
1
1.00
~
CHAhhEL
5005
5COS
5COS
1
550W V E R :
HCR:
5 i 5 k VER:
wa:
O C C k VER:
HOR
SCCC
500s
50CS
LIhE
180
-44 0
i20
-403
295
-431
625h L E R :
329
HOR : - 3 4 1
t50k V E R :
328
FCR:
-32 8
6 7 5 k VER:
275
HOR:
-468
STbT
LOOP
6CCS
O h VER:
6CCI
HOR:
25k V E R :
-2 e
-77
HOR:
-43
-96
6C0S
50b V E R :
6CCS
HCR:
75k LER:
occs
HCR:
l C C k VER:
H08 :
600s
6005
125k V E R :
HOR:
150k VER:
-
-2CO
-40
-220
12
&CCS
6605
bCOS
6CCS
6CCS
-230
1 7 f k PER:
71
FUR:
-231
2 C C k VEY:
125
I-OR : -269
225k V E R :
200
HOR: -i92
250h V E R :
245
HCR:
-30 1
2 7 5 k VER:
288
HOR:
-244
3eak ~ E R :
3c5
hOR:
-222
6
7
-130
-120
-13G
-100
-125
-125
- 73
- 30
-21
-1
-12
-26d
-102
-295
-134
-3c5
aa
-231
-111
-354
-276
-E4
-4il
-131
-13
-7
-16
-9
-0
-9
-5
-4
-10
-a
-5
-PO
-11
-11
-14
-15
-17
-21
15c
-562
-140
-270
5
4
3
-60
-450
-7
-41C
73
-454
73
-13C
-158
-121
-157
-156
-2C3
-78
24
-
-e a
-2 7
-57
f
GAIN
-1
1.3G
-30
- 14
-38
-28
-49
-50
-53
-16
-2 5
-70
-28
-55
-90
-4 2
-11c
-29
-38
-22
-130
-3
-23
-5 c
-18
-6 8
-12
-21c
-89
28
-166
67
-2CC
109
-2 26
146
-195
177
-154
- lb
-2 8
12
C
I
6
9
11
-15
-1
-12
-5
-19
-2
C.82
-3
-25
-7
0
-6
-7
Ce76
- 7 ~ -48
-12
-1c
-2s
0 064
- 18
-4
-52
-11
-28
-1
- 107
-3f
-32
-134
76
C
1000
0 .a8
-10
-
-35
-13
-43
-1
-10
-96
-51
-2
-2
-3
-2
2
0
-2
-5
-3
-8
-5
-4
-1
-2
1*00
-8
-7
-12
-2
-
-2
1
1
-1
1 .oc
-4
-4
-5
-9
-2
-2
1
1.00
-a
-
-7
-E
- 10
-5
-5
-
-8
-24
-11
-26
- 12
c
-6
a
-1
-5
-4
- 4
-
-1
-4
-1
-10
6
16
1
-116
37
-64
3
-1
-124
57
-120
-77
15
-71
27
-49
-6
-37
-5
-0
-11
-8
-80
-44
-27
-13
83
-127
1.00
-2
-1
-i
d
-
-1
15
-11
-35
-13
-3
-11
-e
-
0
-5
-5
I
I
-3
-2
-4
-3
-3
-17
8'
-20
-10
la
I
I
-32
-
28
c,
-77
HCR:
600s
2
-44
-57
-i33
73
PAGE
RICHFIELD
CCBRE EXFLORATION
'-
-
1.3C
I
I
1000
Iy
-4
-5
-5
4
100c
m
O 095
-6
3
0.76
y
-0
4
Om65
-1i)
-5
-5
0.53
-4
-17
-5
-2
0.45
I
0.36
I
LIhE
,
LCCP
G
247
-247
22c
-228
173
-233
7ccs
3 5 0 k kER:
700s
325k VER:
hCR:
390
-256
360
-243
300k t E R :
HOP:
300
-243
HDR:
7ccs
114
-200
108
-lad
8C
-153
38
-142
24
-124
10
-53
4
-71
8
-4
-47
-4
-28
-4
-68
-44
-6
-43
-6
-4
-3t
-6
-33
-3
-4
-38
3
-54
-16
-13
0.21
I
9.25
m
0-30
Y
Y
C G E P E EXFLORbTION
CHAhNEL
1
7005
2 7 5 k VER:
7COS
WR:
250k VER:
7ccs
FOR :
2 2 5 k LER:
'Ices
7cos
7005
rGR:
2COk PER:
FOR:
175h V E R :
HOR :
150W VER:
hQR:
700s
125W VER:
7ccs
HCR:
lOOk kER:
HOR:
7ccs
7CCI
700s
7ccs
LIlvE
8CCS
800s
7 5 k VER:
POR:
50h LER:
HOR:
25h VER:
HOR:
O h VER:
kOR :
STAT
Oh VEZ:
HOR:
2 5 k VER:
HOR:
8GCS
ECCf
8CC5
5Ck V E R :
HOR:
7 5 k PER:
FOR:
lOOk VER:
HOR:
8005
125W VER:
HOR:
800s
1S0k VER:
HCP:
8CCS
8COZ
8005
8005
'
1 7 5 k VER:
HOR:
2 C C k VER:
FOR:
225k V E R :
HDR :
250W VER:
HiJR:
287
-272
2
-304
145
-242
13C
-225
e4
-239
172
5E
-309
118
-328
80
-324
-236
275
-275
2C6
23
-21E
-1
-88
-290
-110
-1 s4
-46
-1 66
-6 e
-140
-79
-100
-140
-11c
-81
-9
-322
-8 2
-200
-140
-78
-53
-150
- 1co
-66
-83
-28
LCCP
G
-220
-100
-1C5
- 190
-230
-250
-170
-380
-120
-86
-143
-120
-115
- 2 10
-83
-348
-64 -125
-476 - 2 3 a
-78
1
-342
-232
53
2s
-329 -234
54
-3
-363 - 2 5 4
139
21
-
-320
RICHFIELD
-217
48
3
4
57
-157
50
-93
-140
-82
21
-139
9
-127
-4
-117
-
14
-103
-29
3
-6
-a2
-7
-72
-14
-6 2
16
-53
-
-18
-45
-66
-36
-35
-45
-3 7
-34
-20
-24
-
-54
-29
-62
-34
-6 5
-56
-74
-a2
-65
-1c2
-20
e3
27
-269
-161
G4I k
-12
- 18
-12
- 15
0.33
-45
-39
-12
-3
C
C
-25
-7
-12
-6
13
2
-7
-42
-10
-41
-7
-36
-12
-34
-18
-29
-E
-1
0e 5 5
-5
-25
-7
-14
-14
-6
-5
-6
-17
-11
-17
-12
-11
-22
-6
-7
-6
-9
-7
-7
-11
-19
-11
0m46
-
0
-7
-6
-5
0m77
i)
3-96
-7
1
-3
1
-3
-1
-3
-2
-4
-3
-1
-3
-2
-2
-1
-8
-5
-2
-7
-16
-a
-5
-6
-11
-8
-c
-3
-7
-4
-28
-14
-34
-22
-38
-30
-38
-36
-35
-13
-10
18
-7
-5c
- 72
-
-14
-24
- 17
-2 1
-17
-17
-26
-17
-20
-26
-46
-18
-36
-15
-43
- 14
-3 9
-25
-66
0
-2
-4
-4
c
-1
-E
- 14
-17
- 1c
-2
-11
-1 1
-4
-5
-11
-5
-5
-5
-s
-a
-e
-8
-18
-3 1
- 10
-io
-6
-26
-5
-9
-27
- G C
d d
-7
-2
0
-2c
- 17
-5
-1
-6
-2 1
-4
-26
-22
- 3c
0.64
-7
3
-19
- 12
-2
3.4c
-13
-10
- 19
-6
-2 1
-84
- 14
-92
-19
-100
-333
8
-8
-10
-1 7
-141
4
-163
7
-11
-34
-5 4
-37
-73
-2 7
-260
6
-20
-18
-19
-14
-54
-117
-4 0
-118
-2 7
-14s
158
-341
205
29
5
5
-85
-3 5
-34
-2 2
-29
14
PAGE
4
1moo
L eo0
1 .oc
L -30
1-00
1m0c
1.33
-4
-4
-3
1* d o
-3
0.95
-3
-3
-1
0
3
-2 3
-9
0
0
-4
-15
-4
-7
-11
-22
cma4
0.73
0.64
0.55
0 m46
3.41
0-36
R I C P F I ELD
CCERE EXFLCRATION
CkAFhEL
ECCZ
eccs
LIP€
8005
1
2 7 5 k \ER:
FOR:
3CCW VER:
HOR:
STAT
8005
300E VER:
HCR:
275E VER:
HCR:
250E VER:
).OR:
225E V E R :
8005
HOR:
2COE VER:
aces
8GOS
aocs
eccs
HOR:
175E VER:
IJCP:
15CE V E R :
HOR:
8C0 5
125E VER:
HOR:
8005
800s
l O O E VER:
75E
-338
330
-330
11s
-29c
180
-3C7
LCCP
I
303
-318
2cs
-333
177
-272
58
-282
52
265
-285
288
-288
266
-333
278
-455
275
-402
190
-410
VER:
170
-340
200
-373
180
-420
130
-45Q
80
-430
-20
5 C E VER:
tOR:
8005
25E V E R :
8005
HOR:
OW VER:
9C
-363
HdR:
HOR:
ecc5
2tl
2
-215
106
-73
-140
LCCP
I
7ccs
7CC5
-5
-2
-15
-12
-25
-4
-20
-2
-12
-18
-9
-72
4
-61
23
-65
2c
-59
20
-64
14
3
-29
1
-28
5
-23
6
-26
4
-25
2
-s
1
-15
E
0
-6
GAIh
-4
-10
0
-15
-12
-4
-8
-s
C
-1
-1
10
-11
-13
0
3
0
2
1
-5
-2
-1
c
-L
-2
1 eo0
-1
1
-5
-1
-A
3
-2
-1
1-00
-3
1.0c
1-00
-7
-2
-3
-2
0
-50
-17
-16
-4
-1
-1
-2
-66
-9
-42
-10
-30
0
-6
-2
-5
-39
-a9
-38
-190
-75
POP.:
50k LER:
HOR:
-410
-73
-250
-5
-4CO
-34
-9
-310
-14C
-23
-flC
-14
-10
-47
-5
-14
-4
-3
-17
-1
-61
-23
1 *oo
-2
-1
-uc
a7
-€
-1
-140
0e 7 9
-3
-3
-360
0.60
1.00
-1
-11
0-52
-1
-3
-7
-3
0.45
-1
-3
-4
-22
5
0 e44
c.
C
-5
-6C
-3
-63
0 039
-1
-1
0
- 12
1
- 1c
-1
-1
FOR:
75k k E R :
icck ER:
-7
-38
-11
-38
35
-120
45
-13G
47
-13G
-27c
-90
-210
d
-12
75
20
-300
-2 E
-25c
-66
-2tC
- 3
-15
-92
34
-140
HOR:
l O O k VER:
HOR:
~ C C S
-3
-9
78
-300
30
0.33
-5
-15
20
-74
14
-74
12
-140
13
-130
-8
-120
-2 5
-1cc
-28
0
-6
-2
-9
-39
54
-149
60
-300
0.2c
-9
-96
160
-2e7
-250
120
-27C
7
0
-7
-29
5
-29
-290
12c
0.31
-30
-03
67
3
-16
-7
-33
6
-126
0
-12
-65
-71
22
8CCE
STAT
-184
2
-179
4
-129
40
- 12
-:!
E
-58
-73
26
-380
LihE
30
-16
30
7
-112
7
-138
-140
70
-145
63
-164
HOR:
7 5 k \ER:
aoos
76
-211
-6
6
-4
-24
3
-34
10
eCCS
-47
41
-187
5
4
-22 €
153
-25C
15C
-25C
164
-34 1
HOR:
25k VER:
HCR:
5Ck VER:
800s
3
PACE
‘I
L
-3
-2
- Ea
-2
-E
-1
-6
0
-1
-1
-2
-2
-2
-3
-1
-2
3
d
-I
-1
-1
-1
1.00
1.00
1.0c
-1
1.00
-1
-1
1.00
-2
0
1.00
3
R ICHF 1 ELD
CCBRE E X P L O R A T I O N
Ct-AbhEL
1
25k VER:
PCP:
O h LE?:
HCR:
61
-510
140
7ccs
25E LER:
200
-470
7ccs
FOR:
50E VER:
700s
7ccs
POR:
7005
7cus
75E VER:
HCR:
lOOE VER:
)-OR:
7ccs
7ccs
7005
7ccs
7ccs
7cos
700s
7CGS
15
-3 30
6%
-:eo
-330
130
-33G
140
-27C
213
-410
14C
-29c
213
-400
155
-288
184
-289
140
-470
220
302
-394
265
HQR : - 2 9 6
175E V E R :
2 50
HCR:
-339
POOE t E R :
220
HGR:
-320
2 2 f E \ER:
2C9
HOR:
-217
250E V E R :
216
HOR : - 3 6 1
275E V E R :
232
HOR:
-354
3CCE VER:
155
I-OR:
-333
1 2 5 E PER:
HOR :
lS0E V E R :
2
-21e
125
-250
52
-260
97
-268
94
-2s1
104
-280
4e
-277
3
5
-140
-68
15
- 153
-72
58
24
-74
23
-67
25
-74
25
-75
30
-7 5
20
-7c
14
-15C
58
-13 C
63
-140
66
-133
72
-171
62
-135
57
-158
28
- 142
36
-158
38
-163
30
-164
11
- 162
-82
6
-72
4
-E5
0
83
-0
-93
-
-22
-96
GAIN
-1
-1
1-00
- a
-3
-3
1.00
7
3
-26
1
-6
4
-27
6
-27
0
-2
-9
-1
-8
-5
-1
-1
4
-27
7
-36
4
- 34
10
-30
4
-2 9
5
-37
12
-28
-7
-39
,c
-36
-12
-5 1
-22
-48
C
- 12
z
- 12
C
- 14
7
-14
-
-4
-4
-4
,c
10
-5
-5
-tC
-3
22
-9
- 14
-E
-11
16
-
-e
38
-If
-9
-12
-11
-5
-9
-11
-22
-11
-11
-3
- 2, -L
-1
1.00
-3
C
c
- 14
- 22
-a
-1c
-1
- A2
31
E
6
5
4
10
36
PACE
1
1.00
-6
-2
1.GC
2
-3
1
6
-6
-12
3.90
3.76
0.64
-3
-3
-5
26
14
-4
-11
-13
-
a-56
3-50
0.41
C.36
-a
-6
3-31
-6
-3
3
3.27
C C 8 A R E EXPLCRATION
CHANNEL
LINE
osos
oscs
050s
05CS
G50S
050s
050s
050s
05cs
LCGP
0
-3
HCR:
3COE VER:
HCR:
2 7 5 E VER:
HOR:
1
0
-3
0
-7
1
-14
-4
0
-8
1
250E bER:
2tSE
200E
175E
15CE
12%
HOR:
VER:
HGR t
VER:
HOR:
VER:
HCR:
VER:
hCR:
VER:
05CS
l O O E VER:
05cs
HaR:
75E VER:
-23
0
-39
0
-47
-3
-65
-8
-90
-17
-120
-42
50E VER:
-130
-24
-190
HCR:
-66
2 5 E VER:
HQR:
O O E VER:
HCR:.
25W VER:
HCR:
5 0 U VER:
-250
HOR:
osos
0
PAGE
3
4
5
-3
0
-3
-1
-2
0
-2
-1
-1
-2
-2
0
-3
-1
-4
-1
-3
-2
-6
0
-3
-10
1
-17
2
-22
3
-27
1
-34
0
-4 7
-3
-57
-7
-6 7
-b
-93
- 13
-3
0
-10
-1
-12
2
-13
1
-15
0
-2 0
-1
-1
-12
-4
-14
-2
-15
-4
-22
-11
-29
-8
-6
-5
-6
-571
-216
-64
05cs
150k VER:
-86
-45
-297
- 1 13
-320
-102
73
-133
-45
05cs
-108
-e75
-46
-159
HOR:
175W UER:
-56
-6
-88
-66
-140
-56
-1 52
-50
-170
-37
-22
-2 5
-34
hQR:
0505
200w VER:
HOR:
0505
0 50s
-600
14
-
- 209
- 314
HOA:
-481
39
-478
250W VER:
hop:
6C
-40
-460
-32 5
225W VER:
-52
-313
-9 5
-
-5
-2
-4
-3
-2
VER:
125k
-
-3
-2
-2
-4
-2
0
-6
-31
-12
-38
-23
-53
-34
-65
-33
-47
-26
-40
-66
-34
-78
-35
-75
2
-1
-2
-13
-17
-15
-6
- 19
-16
-4
-7
1
-8
-3
-16
-16
-29
-6
-6
-6
- LO
-13
-2 7
-35
-2 1
- 12
-37
- 11
-19
-29
-30
-13
-24
13
0
33
-37
-30
-69
-2
0
-3
-1
-4
-5
-3
-6
0
-2
-3
-5
-24
-3
-3 0
-4
-42
-6
-1
-1
-2
HOR:
05 o s
-270
1*00
-6
-10
l o c h VER:
hC R:
-1
-7
3
-9
-270
050s
-1
0
-1
-1
-2
-1
-833
-226
050s
HOR:
75k VER:
HOR:
-2
-6
-1
-413
-379
-229
cscs
GAIN
0
-7
-1 1
-65
-2 1
-86
-43
-127
-7 9
-100
05cs
8
-2
-1
-36
-166
-53
-250
145
-181
-348
-1 6 6
-483
-616
143
-072
7
-1
-1
-6
-47
-4
-5 8
050s
6
0
-4
1
-7
2
-7
-113
-2s
155
-127
-311
1
A
325E VER:
HCR:
05CS
2
1
STAT
RICHFIELD
-1
-3
-2
-3
-11
- 21
-65
-3 0
-30
-30
-25
-3
-2
1 .Od
1.00
1-00
1.00
1-00
1-00
-2
-1
-3
0
-2
-1
-3
-1
-1
-1
1- 3 0
-2
0
-3
1.00
-4
-5
1
-2
-7
1.00
0
-2
-5
2
-1
-4
-15
-4
-1
-1
1
1.00
1-00
0-sa
-6
-5
3
0- 77
-1
0-66
3
-5
0
0.60
-6
-8
-1
0.53
-3
5
3
-
0
-1
-1
-1
-1
-1
-1
-1
-2
-1
3
-8
-6
-12
-11
-8
-4
2
-8
-4
-10
-2
13
6
- 16
-7
3
0
7
-8
-26
-15
13
-
-2 1
-8
-15
10
0 m48
0m42
0-37
2
0-30
6
0.27
0-2 3
0-20
COBAR E EXPL C R A T I O N
0505
050s
0505
OSCS
LINE
L
05AN
Q
2 7 5 U VER:
HOR:
93
-450
3CCk V E R :
HCR:
157
-40 7
22 5
051N
A
233
-50 8
-450
051N
3 C Q W VER:
HGR:
275H V E R :
HOR:
051N
250H VER:
HGR:
051N
05 1N
051N
051N
O51N
051N
051N
05iN
051N
051N
g.
051N
051N
O51N
0 5 1N
225W VER:
HCR:
200w V E R :
HUR:
175W VER:
HOR:
150W V E R :
HOP:
125k VER:
HGR:
-522
42
-500
18
-477
-4
-460
-32
-500
-42
-666
-152
-605
-279
-581
i a o h VER:
-320
HOA:
-640
7Sk V E R :
-42 1
HUR : - 5 4 3
50W V E R :
-365
HOR:
-222
41
6
-426
-27
-416
-6 8
-368
-90
-340
104
-
30
-300
0
-283
-40
-280
-6 1
-211
-6 3
-iba
-77
-190
-84
-28
0
-21
-21
0.14
-92
-166
0
-190
-2s
-133
-46
-186
-50
-- 4942
-100
54
-95
-
-44
-60
-45
-39
-263
-9 2
-9 5
-34
-
244
-232
-240
-2142
-245
-154
- 174
-76
194
-86
-9 8
-68
-9 1
-4 9
-76
-26
-350
-419
-255
-6 1
-111
-133
-24
-230
-94
-47
-7
-38
-150
-18
-6
-
0.16
-18
-21
-35
-9 6
--85
Hoa:
-25
-37
-12 1
-89
-462
L O O € VER:
-18
-57
-45
-373
-1so
-25
-50
-128
. -85
-132
HOR:
O W VER:
HCR:
25E VER:
HOR:
5 C E VER:
-110
-160
72
-2 5
-56
-2 1
-288
-125
-307
-157
-333
-181
25W VER:
HOR:
75E VER:
HOR:
GAIN
-121
-8
tow
126
8
-200
8
-250
-400
-500
144
7
-31
-42 0
k0R:
6
-150
-21
HOR:
325Y LER:
5
-37
35
-328
- 185
-74
-2 8
-59
-14
-7 7
-11
-30
-5
-65
-6
-2 8
-2
2
4
-212
-14
75
-383
120
350W VER:
3
-12
-450
230
STAT
PAGE
-343
325h VER:
HCR:
350h VER:
HOP:
05 1 N
2
1
CHAhNEL
RICHFIELO
-39
-44
-30
-46
-30
-42
-26
-34
-11
-35
-13
-24
-4
-23
-16
-25
-100
-20
-58
-13
-110
20
-4 1
-8
-46
- 93
-23
-13
-20
-12
-2 1
-15
-15
-9
-20
-2
-23
-8
-12
-4
-2
-18
-3
-8
- 17
-3
-15
-2
0
-a
16
25
-66
-26
-a0
-33
8
-20
-46
-27
0.18
27
-15
-84
-27
-15
C.19
-13
-18
-9
0-22
-12
-4
0025
-6
o
-
-23
-15
-2
-10
0.12
10
-10
-33
-11
-83
83
-2 1
-21
-63 -105
-27
-18
-9
0
-32
-52
-25
-14
-24
-12
0
-16
-75
-20
-80
-24
-40
-18
-12
16
-16
0013
0.12
0.15
-36
-25
-3
-3
-21
- 18
- 15
-17
-25
-6
- 13
-6
-12
-2
2
0.38
-18
-9
-4
13
-2
2
0
2
0.43
-6
0
0050
6
-6
-2
10
-7
-7
-4
-0
-5
-7
-4
7
-11
1
-20
0
-2
-
-3
0
-2
-2
-3
-2
-1
-10
-2
-4
0
-18
-1
-18
0
-1
-4
3
-1
-5
-7
1
-3
-2
-3
0
-2
-2
2
-1
3
-6
-2
-1
-2
0
-1
-3
0
-1
0.28
Om33
0157
3-63
0067
3.81
0.90
1.00
1.00
1.00
COEAR E EXPLORATION
1
CHANNEL
RICHFI Et0
PAGE
3
2
3
4
5
6
7
8
GAiN
-46
-4
-3 4
-21
0
-1 5
1
-10
1
-7
4
-4
-1
-3
-2
1000
-10
2
-8
3
-6
-4
-3
1
-2
-3
-3
2
-3
8
-3
-1
1.00
3
-4
6
-3
3
-3
4
m
1
051N
125E VER:
0 5 1N
HOR:
1S0E VER:
hCR:
-120
0
-74
-11
OSLN
175E VER:
-6 1
-10
0S1N
HOR:
200E V E R :
HOR:
0SlN
225E V E R :
HCR:
05 1N
250E V E R :
G51N
275E UER:
051N
HOR:
3CCE VER:
HOR:
HOR:
t fhE
-42
-7
-32
-4
-15
1
-11
-1
-9
-4
LOOP
STAT
-3
-2 7
C
-18
4
-13
2
-1 c
0
1
-5
-1
-4
-4
-4
-2
1.00
-2
-1
0
1000
-1
1.09
-3
-2
0
-7
-2
-8
-4
-3
-6
-2
-5
-6
-5
-4
-6
-3
-1
-2
-2
0
-1
0
-2
-1
0
0
-4
-3
-1
-2
-2
-2
-1
-2
-1
-2
-3
-3
-1
-1
c
-3
-10
-5
1
-2
-3
0
-5
-4
1.0d
-4
-4
-2
1
-I
0
-1
-1
-6
1
-2
-2
-5
-5
0
-3
-6
-7
-2
1
-2
0
m
1
-1
1.00
0
-1
-1
1000
' 0
1000
0
0
0
1000
II
rr
A
YI
0CN
325E VEA:
CON
300f VER:
3
1
HOR:
G CN
OON
HCP:
27SE VER:
HOR:
250E VEA:
HOR:
OGN
CCN
00N
0CN
CCN
CON
CION
OON
OON
OCN
CCN
225f V E R :
HCR:
200E VER:
HCR :
175E VER:
HOR:
15CE VER:
12%
-2
1
a
C
-7
1
-10
-3
-27
-3
-3 7
-9
-2
-14
0
-19
0
-1
0
0
-47
-25
-6
-14
-2
-34
-12
-1
-16
0
-
HCR:
-02
-7
VER:
-84
0
-44
-244
-3
-54
-4
-64
-6
-89
-15
-116
HCR:
-111
-27
O O E VER:
hOR:
-294
-166
25b VER;
-405
-231
HOR:
-20
l O O E VER:
-110
HOR :
-28
75E VER:
-120
HOR:
-2 6
5 0 E UER:
-190
HCR:
-62
25E WER:
HCR:
-5
C
-5
-3
2
14
- 141
-4L
-188
-56
-7
0
-a
-20
0
-23
-3
-20
-4
-37
-1 2
-7
-46
0
-3
0
-4
0
-4
-1
-8
0
-10
-3
1
-3
0
-3
-2
-4
-1
-6
-1
-7
-1
0
-1
-2
-1
c
-1
-2
0
0
0
1
2
0
-2
-I
0
-1
1.30
0
0
1.33
-1
-3
-2
-3
-2
-4
3
-6
-1
1
0
0
-1
-1
0
0
0
-1
0
i
-1
-2
0
-11
-3
-6
-3
0
-3
-5
-5
-13
-3
-16
-7
-4
-9
-5
-1
-2
-1
-4
-2
-1
-2
-6
-2
-2
2
-5
-5
-1
-4
-2
(3
-57
-19
-26
0
-13
-2
-11
-11
-8
-69
-34
-17
-2 1
0
-23
-6
-a
-4
1
-5
-3
-6
-4
0
0
1
-1
0
0
-0
-4
0
1.00
1
1000
1.30
1.00
0
3
-5
-5
10clc
ry
-
1.00
1
1.0c
1003
1
0.30
0.78
0.69
Y
COSAR E E X P C C R A T I O N
OON
CCN
CCN
OGN
OCN
OON
OCN
OON
OCN
CCN
50k VER:
hCR:
75k VER:
HCP:
1 Q 0 k VER:
HCR:
L25k VER:
kOR:
150W VER:
HCR:
175W V E R :
HOR :
200w VER:
HCR:
225W VER:
HCR:
25au V E R :
HOF:
27Sk VER:
h0R:
C CN
CCN
GCN
LIhE
LOCN
~ E O W
VER:
kCRt
3 2 5 k VER:
HUR:
350h VER:
HOR:
STAT
300W V E R :
Hal?:
LOON
LOCN
lOON
lOON
275111 VER:
HCR:
250W VER:
HCR:
2 2 5 k VER:
HOR:
Z O O M VER:
HOR:
LOON
175W
lCCN
PCA:
LSCW VER:
VER:
HOP:
lCCN
137k VER:
HOR:
lGCN
125k P E R :
HOR:
10GN
a
1
CHAhhEL
l O O W VER:
HOR:
-523
1
-396
-620
-240
-720
-1 7 6
-46
-744
-162
RlCHFIEtD
-26L
-107
-241
- 162
-240
-220
-218
-279
-175
-270
-621
-61
-45 1
- 122
-18
-481
-
-17
-565
9
-523
77
-511
LOO
-24s
107
2%
-113
-347
-71
-
- 342
-50
-383
-3 1
-387
21
PAGE
3
4
-87
-3 2
-89
-44
-9 a
-70
-100
-106
-94
-110
-77
-93
-74
-133
-86
-17 3
-57
-166
-5 0
-20 0
-62
5
6
-38
-21
-21
-41
-17
-54
-36
-46
-1s
-2 5
- 12
-41
-45
-62
-41
-40
-37
-62
-34
-60
-33
-95
-27
-83
-50
-131
-2L
-12
-32
-20
-23
-16
-27
-24
-25
-45
-22
-29
-21
-8
-23
-7 1
-27
-16
-31
-100
4
- 13
-8
-6
-51
22
16
-2
-2
-4
-4
2
5
-
- 14
-8
-8
33
-
- 47
-27
- 38
-2 6
-9
-14
-42
-2 8
-4 a
-7
15
-4
-3
-2
-2
-13
-18
-6
-7
-7
-3
-3
-3
-20
-10
-4
-4
-5
-3
-250
-110
-3 LO
-105
-3 ao
-37
4 6 0
-4
-500
52
-550
140
-590
-19G
-9 0
-
- 140
-250
-110
-350
-79
-390
-52
-45 c
50
-470
-4 6
-60
-23
-9
-6 2
-28
-13
-72
-28
-42
-74
-120
-6 0
-170
-44
-2oc
-3 2
-240
24
-250
-30
-55
-22
-82
-18
-95
-8
-105
16
-120
-12
-18
-12
-25
-8
-37
-5
-410
-3
-45
5
-50
-10
-6
-35
-3
-3
0
21
-9
-9
-22
0
-50
6
-105
-120
130
140
-4
10
LGCP
-105
-4
-1 70
-40
-200
-
-6
-2s
-25
14
-42
-40
-6
-30
-110
-210
-110
-2 30
-110
0.65
-6
-27G
-61
-34
-94
-74
-3
-3
-
50
-55 0
-96
-1
0
640
-530
- 103
GAIN
5
1100
-290
-14
-71
8
-
-428
-171
7
-6
0
13
21)
-20
16
-9
-22 5
-2 1
-27 I
-487
150
-500
4
-68
0'
28
-1
0
-1
-1
-1
-1
-1
-1
-a
6
-3
-7
0
-8
0.18
0.16
-25
-7
-7
0.10
0
-1
-1
-1
-1
-1
-i
1.00
-2
-3
-1
-3
-3
-2
-2
-3
-1
-3
0.14
0
-70
-15
-2
- lb
9-23
-5
-5
-3
0027
-22
-6
-2
-2
0
-20
-1
0.31
0.21
-2
-5
-1
- 18
0.37
-9
-4
- 14
-3
0.43
0
-1
-1
-4
0.50
0
-1
-1
-1
-8
0.58
1030
1-30
1.30
1.00
1.00
1.00
1.00
1.30
-3
1
3
1.3d
RICHFIELO
COBARE E X P C O R A T I O N
CHANNEL
lOGN
7 5 k VER:
1a0N
HOR:
50U VER:
301
-5t9
320
HCR : -480
lOON
1OGN
LOON
lOCN
LOCN
25W VER:
Hag:
GOh VEA:
HOR :
25E UER:
HCR:
5 G E VER:
HCR:
75E VER:
HOR:
lOCN
l O O E bER:
lUCN
HOR:
l t 5 E VER:
HOR:
lOON
lO0N
200E V E R t
225E VER:
lOON
25CE WER:
10CN
HOF:
275E VER:
LINE
lCtN
HOR:
3 G C E VER:
HOR:
STAT
lOON
2 7 5 6 VER:
HUR :
250E VERt
HOR:
lOGN
lO0N
lOON
lCCN
225E V E R :
HOR:
2GCE VER:
HCR:
175E VER:
HCR:
15GE VER:
HOR:
2ca
-400
222
-380
254
-392
250
-357
270
-351
272
-303
296
-3GC
272
-312
245
-336
270
-290
188
-344
22s
-285
3 22
-333
343
-350
385
-307
3 50
-316
250
-2 5 G
233
-300
170
-26C
coc P
A
30GE VER:
HOR:
lOCN
392
-324
3 54
HOP:
1CGN
404
-476
405
-378
393
-333
407
-318
-331
400
175E VER:
204
-494
352
-450
HGR:
HOA:
1OON
317
-460
1 5 0 E VER:
HCR:
lOON
2
1.
-2
1
-101
-16
-3
-27
-7
-33
-2
54
-15
-09
12
-
-337
i71
-321
-3
0
-7
1
-10
0
-12
-2
-18
2
-2 5
-1
-35
-2
3
92
-258
a9
-213
100
-206
117
-215
13 5
-233
148
-23 5
is4
-20 6
155
-192
I+ 0
-196
127
-21 8
120
-19 0
66
-216
81
-212
114
-228
100
-22 5
90
-210
-1
-1
-4
0
-5
0
-5
-2
4
5
43
11
-123
42
-50
-L 10
49
-122
58
-137
69
-135
13
-53
14
-60
19
-74
26
-69
75
29
-121
-59
18
-60
66
-115
59
-1 03
63
-1 0 4
63
-3
-5s
-4
-60
13
4
I
8
GAIN
-1
-4
-4
-5
-3
0.93
- 12
0
- 17
1
- 20
-2
-3
-7
- 27
1
-17
7
2
3
- 23 - 14
8
10
--918 - 103
- La
- 37
-18
-16
- 28
13
-9
-33
-11
-a
-8
13
-4
-4
-6
4
-6
1
-7
0.37
-16
-21
-9
-33
-3
0
22
-66
0
-5
-22
-27
-5
5
-33
-1 1 6
-25
- 11
6
-125
-12
-8 i
-2 1
-28
- 57
-25
-25
-28
-2 5
21
-1 58
60
-163
-107
8
-116
40
-130
0
0
-1
-2
0
-2
-2
-1
-3
-3
a
-1
8
- 75
30
-1 10
0
-2
-1
0
-2
-1
-2
-1
-2
-1
-5
-21
8
-41
30
-60
-21
9-20
0.18
0.16
Om14
-7
-25
0012
-16
-40
-40
0
-1
00 10
1.00
1.00
0
-1
1-30
-1
-1
-1
1.30
0
1.013
-4
-2
-4
1.00
3
0
-1
-3
-3
1
-1 1
-1
-1 5
1
-7
-1
-1
-6
-2
0
-1
-2
-1
-1
-1
-3
-a
0.22
-6
-1
-3
L
0.25
0
0
-2
-4
-7
-2
0-27
-9
-I
0
-1
-1
0
0.33
-4
5
-90
-11
-142
33
0.51
0-42
-115
11
-33
-18
37
0-63
-9
-5
-40
-5
0*75
-1
-7
-68
-122
60
-3
-8
5
PAGE
-1
0
-1
-2
1 Do0
Y
R ICHF I EL0
COBARE E X P t C R A T l O N
-100
-29
-130
-40
lGCN
125E VER:
HCP:
l C C E VER:
hOR:
75E kER:
-70
lCCN
HGR:
5OE L E A :
LOON
lCCN
HGR:
lCGN
1OCN
25E VER:
HGR:
O O E VER:
HOR:
25W V E R :
ICON
HCR:
f O k VER:
lO0N
LOON
lGCN
lOCN
lCGN
lCCN
lGON
lOON
1OCN
LOON
1OCN
lCCN
10CN
LINE
lCCS
100s
HGR:
75U VER:
I-GR:
LCOk VEq:
HUB:
1 2 5 k LER:
HOP:
150k VER:
HOR:
-220
-220
-140
-235
-317
-294
-307
-217
-405
-42
-3
-5E
-4
-a4
-11
-100
-le
-117
-34
-166
-41
-188
-81
4
-2 0
-1
-2 4
-1
-9
0
-34
-4
-3 9
-7
-5 1
-4
-6 1
-15
-71
-2 6
-262
-409
-213
-98
-8 8
-172
-490
-290
-114
-255
-234
-116
-4s
-2C2
-600
-226
-3 A
-112
-6
a
-2C9
-100
-219
-177
-257
-163
-76
-9 7
-1 0 0
-110
HOR:
-633
2 O O W PER:
-15
HOR : -461
225W VER:
-13
-478
HOR:
25Ch VER:
55
HCR:
-550
275W VER:
100
HCF: - 5 1 1
3COb VER:
266
HOR:
-546
3 2 5 k VEP:
291
HOR:
-533
320
350k VER:
.HOR:
-540
-35G
-123
-257
-140
-88
1 7 5 k VER:
STAT
LOCP
GG h VER:
-301
HCR : -410
12W V E A : . - 2 7 1
25bi V E R :
HOG:
-414
-97
-462
-113
-308
-LCO
-41G
-50
-416
-115
-86
-L60
-90
-2G 5
-72
-21 1
33
-46
-506
108
-466
160
-28 0
0
-266
30
-51C
-11
3
-16
-2
- 19
-4
-23
0
-28
- 12
8
GAX
-7
-4
-2
-5
-1
-1
0
1
-2
1000
-1
1
-2
1000
0
0
0
-2
1.30
-7
3
-1
0.85
-7
-2
-9
1
-10
-2
-9
2
-14
-7
-17
-17
-42
-13
-1 1
-2 1
-47
-56
-73
-
53
-41
52
-104
-45
-1 10
-61
-94
-46
-160
-3
-23
-14
-3 1
-27
-2 3
-30
-25
-57
-20
-26
-38
-57
-34
-86
-2 5
-70
-50
-44
-40
-16
-93
-33
-133
-10
-170
-116
-30
-150
-6 8
-35
-20
-2 4
-8 1
-27
-89
-4 0
-10
-30 0
N
7
-33
-21
-55
-38
-47
-3s
-45
-68
6
6
5
3
-571
-L48
-514
-70
HOR:
130s
2
1
CkANNEt
PAGE
-4
-4
1
-4
-2
-1
-2
-
-6
0
10
0
-8
-3
-9
- 14
- 17
1
-2
-1
0
-3
-1
11
-6
-3
-2
-2
-4
-1
-3
-5
-12
-8
16
-23
-14
-4
-4
-8
0
-45
-
- 17
0
10
- 19
-26
-21
39
-
0
- 15
-22
- 55
-6
- 33
0
6
-16
-1
0.69
-4
0
0.61
-1
0
0-55
i:
-4
8
-2
8
-5
-3
-26
i2
3
lt)
0
-20
-33
-8
0.35
0.30
C* 2 b
0-23
-4
10
0 -20
5
11
-44
0.18
-6
0.15
c
0
40
-120
-9
2
10
0
7
0
-2
8
4
- 30
0.42
-4
50
-30
90
-100
0 -47
-L1
C
-25
-27
0.78
-L
-11
-17
-26
1000
0.12
16
0010
30
a
-178
-53
-214
-44
-283
-138
-2s
-11
-35
-13
-2
-4
-4
-20
1
0
1
-7
-13
8
2
-1
-1
2
0-73
0-70
0067
CHANNEL
1
1ocs
37k UER:
100s
HGA:
VER:
HGR:
100s
lCOS
sow
100s
lees
100s
100s
-116
HCR:
-666
lOOW
V E R : -117
12Sk VER:
HUA:
15CW VEA:
HOR:
175k UER:
HOA:
200k V E R :
HOR:
225W V E R :
100s
HOR:
250W VEP:
HCR:
275h VER:
100s
HOR:
3 a o b VER:
lCCS
HOR:
325k VER:
lOGS
100s
LiME
175N
175N
STAT
8 C E VER:
HOR:
7GE VER:
6OE PER:
S O E VER:
17SN
HOA:
40E VER:
HOA:
3 0 E VER:
17%
BCR:
20E LER:
175N
175N
17%
214
-392
241
LOOP
HOR:
i 7%
-787
-117
-846
-132
-705
-42
-535
24
-520
72
--4 54
147
-489
125
-393
HaP:
-375
350k VER :
220
HOA:
-420
HCR:
175N
-6OC
75 w V E R :
HCP:
100s
-222
-523
-2 50
HOP:
1OE L E R :
HOR:
2
-253
-158
-266
166
-296
-222
-E55
-3 19
-230
-359
-
- 173
-323
-103
-285
-76
-320
-22
-313
.
o
-351
18
-312
92
-342
116
-316
70
-380
321
-300
326
-260
387
-281
400
-277
4
5
-93
-41
-36
-96
-4 1
-10 5
-59
-110
-17
-20
-17
-26
-1 1
-22
-7
-23
-3 1
-28
-20
-2 9
-3 5
-2 1
-2 8
-28
-44
-27
-123
-75
-12 5
-64
-144
-40
-159
-2 1
-200
-12
-193
14
-23 5
16
-19 1
-10
-280
-45
-15
44
-20
-51
-51
-46
-58
-50
-79
-46
53
-40
-64
36
-72
-21
-131
-
-
-
-6
-118
0
-142
-16
-83
-20
-100
7
8
GAIN
-3
0
-6
0
-1
-1
3.63
1
-3
1
6
-34
-2 1
-100
-12
-6 8
-2 1
--911
- 13
-8
-9
- 12
-6
-2
-23
-2
- 17
-35
10
-35
20
-32
-27
50
-26
-57
12
-
-
5
2
23
-7
-7
-11
-3 8
-14
-
14
-8
-8
-22
13
-
0
-36
6
6
-21
50
-50
-25
14
- 107 - 71
-50
-41
-50
- 66 Lb
-10
-lC
10
20
-8
-9 1
-25
-33
0
-25
15
-30
21
-28
14
-21
33
46
10
120
-11
1
-2
-6
-5
-5
2
-11
-28
0.60
0.54
0.47
0.39
0.34
0.28
-7
0
16
-4
-13
-10
-2 L
0.25
0.22
0.19
-6
0.16
0
-14
-64
0.14
-41
Om12
-25
30
-10
Om10
e
275
166
-216 -233
266
166
-59 1 -3C8
276
169
-292 -307
314
214
-285
3
-95
-107
-12 8
-100
7
PAGE
R ICHF I E L 0
COBAR E EXPLCRATION
-300
214
-314
24G
-266
281
-287
305
O O E PER:
383
-288
300
HOP:
-322
-333
50
-166
58
-216
.
16
-116
33
-133
8
-9 1
69
38
G
-215
100
-185
107
-207
113
-193
15C
-212
155
-194
-130
42
-107
35
-1 14
-6 9
-125
66
-111
-6 1
166
77
-138
-88
-233
33
-113
81
14
-64
0
-64
-20
-60
12
-75
0
27
-
-
a
-16
-16
-25
0
-38
0
14
-7
0
-40
-13
0
0
0
-25
-23
-30
-23
21
-21
7
-26
-13
0
-6
-6
-75
-11
-25
-16
5
-16
-25
- 33
- 11
-44
-16
11
0.12
0.12
0-13
0014
0.14
0.15
0.14
0.ld
11
-16
-16
0018
I
R ICHFIELD
COBAR E E X P L C R A T I O N
1
CHANNEL
LINE
0CN
CCN
OCN
OON
-50
-12
-21
HGR:
-82
VER:
-130
-2 1
-27
HOR:
225W VER:
HOR:
2ooW V E R :
HOR:
-240
-130
-13C
-150
-39
-65
-62
-83
-85
-92
-120
-100
-29
-34
-40
-52
-40
-150
-75
-79
-240
-32
-1 10
275k VER:
250k
OCh
hCR:
l O O k VER:
HOR:
75k V E R :
I-OR:
50k V E R :
HOR:
25W V E R :
HUR:
OOW V E R :
HCR:
OCN
OCN
CCN
25E V E R :
HCR:
50E VER:
HCR:
7 5 E VER:
HGA:
CCN
C CN
-17C
-380
-250
-110
-440
-25
-560
32
-620
170
-670
300
-675
426
-524
450
-372
400
-355
414
-317
444
-305
400
-350
-180
-310
-140
-440
-44
-500
80
330
HOR:
-365
341
-358
350
-327
125E V E R :
UGN
150E VER:
OON
HOR:
175E VER:
C CN
HOR:
200E VER:
HCR:
OCN
-120
-300
-120
LCOE VER:
HCR:
OON
-2
-2
-2
-2
-3
-4
-3
-4
-15
-25
HCR:
125k V E R :
OON
-6
-6
-40
OON
C CN
6
-84
-55
-105
HGR:
1 5 0 U VER:
CCN
5
-100
-120
-110
-160
3 G C k VER:
175W VER:
OCN
4
8
OON
CON
3
LUCP
STPT
hOR:
OON
2
225E VER:
HOR:
250E VER:
HOR:
370
-345
405
-364
380
-386
342
-342
-170
-27
-270
-37
-9
-130
-8
-10
-10
-14
-12
-17
14
-2 1
-15
-32
-12
-46
-7
-58
-
44
26
11
-550
225
-300
125
-64
-575
-325
-140
57
-162
98
-132
101
360
213
-426
372
-245
235
-205
-313
311
-311
317
-252
233
-291
326
-333
234
-338
237
-329
227
-330
260
-34C
294
-382
266
-380
214
-357
155
-200
151
-190
161
-169
153
-196
123
-215
120
-216
109
-213
135
-230
164
-264
126
8
PAGE
-1 0 1
80
-120
80
-1 14
75
-88
63
-106
57
-123
50
-116
50
-118
65
-12s
a2
-147
-266
92
66
-1 5 3
28
-250
- 1 57
20
-68
39
-65
43
-50
31
-3
-8
-5
-8
-4
12
-5
-26
3
24
-
-
1
-2s
4
-18
9
-29
17
7
8
GAIN
-1
-1
1.00
-1
-1
-1
0
0
1.00
-1
1.00
-2
-1
-1
-1
2
-7
-1
0
1
-6
0
0
8
e
2
-17
-1 1
-11
3
-6s
4
-79
4
-95
10
-95
17
-88
0
-9 3
0
- 107
0
-45
4
-72
5
-55
5
- 29
0
- 46
- 14
- 57
1030
-2
-5
1
-5
- 24
-6
1000
0
-1
-4
- 14
21
-5 1
13
- 13
-3
- 19
-1
-1
1
-3
-33
-8
1.00
-3
-2
-4
-33
- 13
C
-2
-2
-1
0
-2
-66
-33
1c
-46
0
-6
- 16
1000
1.00
-3
0.80
1
0
-4
0-61
-1
0.51
-7
6
-11
4
-4
5
0-45
3-41
0.36
5
0
0.30
3
-11
-3
-23
0
-41
0
9
-63
5
-50
11
1-33
0.26
4
-4
31
-9
0.24
15
-5
0.20
0
0-22
c.17
-11
-5
0
-13
-14
-21
-6
0.15
-26
-21
-42
0.14
coem E
CHANNEL
2756 VER:
0ON
HOR:
30GE VER:
HCG:
oaN
OON
2
1
OON
trhE
R I C H F I ELD
EXPLCRATION
STAT
5 Q E VER:
PCR:
25E VER:
HOR:
390
-418
380
-350
-380
LCCP
C
-7
4
-13
0
254
-41 0
260
-10
0 CN
HCR:
7 5 k VER:
HCR:
190k VER:
-33
-105
-120
-40
-2 8
-52
HCR:
-120
-35
1 2 5 X VER:
-90
-170
-51
OON
OQN
OON
HCR:
OUN
CCN
0 ON
CCIU
1sow L E R :
-58
HCR:
-210
-9
175& VER:
HOR:
200k VER:
kOR:
250k V E R :
-200
35
-240
35
-213
67
HGR:
-233
225k VER:
HCR:
C CN
OON
0 ON
OUN
275k VER:
113
HOR:
-256
300k V E R :
HCR:
3 2 5 k VER:
HOR:
OON
OCN
OCN
-84
139
-278
17(3
-26iJ
35aw V E R :
200
IiitR:
375k U E R :
HCR:
400k V E R :
-261
HGR:
234
-234
327
-241
GAIN
-18
0
-10
10
-18
-18
-10
0.11
-70
-18
-45
-10
-20
-10
1
-3
-10
0
-3
-8
0
-1
-2
-2
-2
-5
-3
-3
-2
-1
-5
-1
-2
-4
-1
-2
-2
-6
-2
-7
-5
-2
-5
-7
-6
-1
-3
-1
-3
-3
-9
-5
-3
-6
-9
-11
-9
-4
-6
-1
-3
-14
-7
-2
109
-290
36
-172
130
-30 0
-180
-2
-1 4
HUR:
50k V E R :
-81
8
-5
-33
-12
CGN
HOR :
2 5 k VER:
-20
-2
-48
7
-11
C C E VE8:
-70
-4 5
-89
-3 0
-92
-17
-120
-13
- 120
0
-133
18
-162
39
-196
70
-210
95
-214
124
-22s
2oc
-234
9
6
4
3
-11
1
-7
-2
-12
-2
-2 L
aoN
PAGE
1
-5
-2
-0
-5
-1 5
-13
-18
-1 3
-2 1
-2 0
-2 2
-3 5
-1 7
-3 8
-12
-54
-1 1
-57
-6
-7 c
-2
-83
6
-106
20
-108
38
-119
57
-126
103
-151
40
-16
-9
-11
-10
-25
-5
-32
-7
-37
-5
-50
1
-55
4
-56
23
-64
5
0
-109
10
-6
-9
-7
-3
-e
-3
-6
-4
0
-1
0
-1
-1
-1
0
-1
-1
-1
0
-1
0
0
-L
-1
-1
-1
-1
-1
0
-1
-2
0
-1
-5
0
1
-3
0.10
0
1-00
1-00
1.oo
1.00
1.00
1* d o
1- aa
-1
0
-1
1e00
-1
1
1-3q
0
-5
1 .DO
2
-3
c
-1 1
-9
-11
-6
-9
1 .oo
-5
-25
-10
-2 1
-8
-37
-5
-1
-8
-2
-5
2
-4
1
-10
-6
-4
- 14
-1
16
-4
-2
-9
28
-7
-3
3
0-90
-4
-2
-12
-1
0
0.74
-9
-3
-27
-6
-30
4
-40
34
7
-68
4a
-ab
-42
13
-4a
-
3
1 .oo
1
0-61
0-50
4
-6
-2
-6
4
-2
0-42
2
-5
0-38
0
-16
-4
2
--5
7
- 23 - 5
- 10 13
- 2 4 - 17
2
-10
3
0.29
w
I
I
400 W
300W
Ioow
2oow
00
I
I
0-
100-
..
n
W
E
\
.
z
In
w
P
200-
.
300-
-
CHANNEL 1
CliANNtL 2CHANNEL 3-
I,
w/.- i!-w.fi
”..d&-,
CHINNEL 4
/u.4,.*..f
>
*...
/fv
I em a 25 Yotrav
CHANNEL
CHANNDL
CHANNEL
CHANNEL
COBRE
EX PLORAT I 0N
RICHFIELD
PROPERTY
PULSE EL~CTROMAGNETOMETER
-VECTOR
SECTIONLINE 250 N -LOOP ‘6
5
S
7
8
~
-IN$T~UYENT
8
ClONE P.E.M.-
NOV‘I
ma 11
~
LOOP E
P IOOf
100-
300-
i
1.
%./
(r
=.&
CHANNEL
CHANNEL
CHANNEL
CHANNEL
I
2
S
4
-
,y l,-/....Jl.,
-.*.d /04
I em x 25 MetrOS
,
COBRE
EXP LORAT I0N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
LINE
250 NSECTION- L O O P 'E'
CHANNEL
CHANNEL
CHANNEL
CHANNEL
-INSTRUMENT
I
5
6
7
6
CRONE P.E.M.-
YOV'7I
FIQ. II
LOO? 0
I
I
I
'
.do
w
zoow
so0 w
100 w
00
0-
100-
?
ul
W
L
c
W
I
I
t
n
W
0
200-
300-
LOOP
1I
CHANNEL I
CHINNEL 2
CHANNEL 1
COBRE
EXPLORATION
RICHFIELD
PROPERTY
CHANNEL 5
CHANNEL S
CHANNEL 7
-
CHANNEL
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION-
-
-
NOV'I
I
0-
100-
-
200-
300-
CHANNEL 1.
CHANNEL 2
CHANNEL 3
Y*.-Y H.0.
w-e-h-,
-
CHANNEL 4
p~4,.--/
....re-
9
/0/
I em s 25 Melrev
,
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EX P LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION;
,
LINE 2 0 0 N -LOOP E
-INSTRUMENT
: CRONE
5
C
7
I
P.E.M.
-
YOV'71
FIQ. I?
~~
I
LOOP
D
1
I
100-
I
In.
W
n
200-
.
300-
LOOP
1 L
CHANNEL 1
CHANNEL'Z
CHANNEL 3
1
CHANNEL 4
-
- .
COBRE
EXP LORAT I O N
RICHFIELD
PROPERTY
PUI-SE
ELECTROMAGNETOMETER
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
6
7
0
I
LOOP E
I IOE
I
I
I
0-
100-
-r
n
W
E
-
I
t
n
W
0
200-
300-
I
%*.- Y H.b
7
CHANNEL 4
,.jl,.-/"'.-//..,
/I/
1 em 8 25 Matria
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
LINE
150 N -LOOP 'E'
-
--INSTRUMENT
2
CRONE P.E.M.-
NQY'I
FIG. It
I = - - ~ = = = = - - = = - = = D m D
. .
-
100-
n
w
e
W
I
1
E
b
w
D
200-
300-
c
X L Yr%r
#+4,u/rrJ&,
".A?
drc
CHANNEL
CHANNEL
CHANNEL
CHANNEL
I
2
-
34
I cm * ZS Yotroa
1.'
'~
COBRE . EXPLORATION
RICHFIELD-- PROPERTY
--
-
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION;
L I N E 1 0 0 N -LOOP
,
B
..
-
CHANNEL
CHANNEL
CHANNEL
CHANNEL
S
6
7
8
-IN~TRUYENT I CRONE P.E.Y-
,
FI6. I6
LOOP
D
I
I
I
0-
100-
c
m
e
w
t3l
200-
CHANNEL 1
CHANNEL 2
CHANNEL S
X L if M.&
*...I
-
CHANNEL 4
wd,e-/Wd&-/
W.
/0/
I em * 25 Metrmr
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
E XP LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMLTER
-VECTOR SECTION;
,
LINE 1 0 0 N -LOOP D
-
5
6
7
0
nov’r
-lWSTRWENT
8
CRONE RE.N.-
FIO. I;
7
LOO? L
'O0f
I
'
0-
100-
200-
#/.-
*
"'.&.-,
Y W.h
p+,...-/
9
. /M
"
.
I
.
&
CHANNEL
CHANNEL
CHANNEL
CHANNEL
I em
= 25
12
S
-
-
4
Y.lras
CHANNEL
CHANNEL
CMANNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR SECTION. LINE 100111 -LOOP 'E'
-INSTRUYENT
1
5
6
7
D
CRONE P.E.M.-
NOV'TI
FlS. I#
. .
300w
I
D
0-
2OOW
10.0 w
100 E
0.0
l
100-
I
c
n
w
0
200-
300-
CHANNEL 1
CHANNEL 2-
-
-..-..._--s--
CYAYYCI
!
#
/
.
e
/"r.d,-/
YH
.
8
0
-..4
-
CHANNEL 4
""Jh.,
&I. I em
25 Yalraa
,
CHANNEL
CHANNEL
CHANNEL
CHANNEL
EXP LORAT I0N
RICHFIELD
PROPERTY
COBRE
PULSE ELpCTROMAGNETOMETER
-VECTOR
SECTION;
L I N E . 51 N ' - L O O P D
,
.
.
-lNSTRUYENT
1
S
6
7
8
CRONE P.E.Y.-
NOV'T
F16. I1
E
I'
,.
L
L
I
0-
IOO-
c
In
w
e
t-
w
I
I
I
I-
o
w
P
200-
.-
I
300-
LOOP
I I L
CHANNEL I
CHANNEL 2
CHANNEL
S
-....._
..
-
__
sa.(r m..rc
/.#,"../
-
CHANNEL 4
n-o/2.-,
n
A /f/
I em = 25 Yetrms
.
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXP LORAT I O N
RICHFIELD
PROPERTV
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE
51- N -LOOP *E'
. -INSTRUMENT:
5
6
7
0
NOV'71
CRONE P.E.M.-
FIO. 2(
L-m-0
I
0-
100-
S
t
L
w
n
200-
300-
LOOP
lt%
i.
Y W.&
,yl,u”/..L4.,
. &.A 4w
v
4
.
.
-
CHAWNEL
CHANNEL
CHANNEL
CHANNEL
I CI
c
I
2
3
4
. .
-.-
-
.
- -RICH-F IE L L-
21 M t r r
CHANNEL 5
P ROPE RTF
ELECTROYAGNETOYLTER
PULSE
-VECTOR
LIME
___
SECTION-
0 0 W -LOOP
‘A’
-
C H._._
AYULL 6
-..-.----r
CHANNEL
3--
~
CHANNEL I.
-
c
*
n
--IW4TRUYENT
I
FIQ. 91
CRONE. P . E . Y s
t
-
I
I .
I
c
L
w
n
.
LOOP
--It%
CHANNEL 1CHANNEL ZCHANNEL S
-
#/. ifW.6
+
,
.
...
CHANNEL 4
4,""/""4...,
9
M
/h(
I em rn 25 Uotras
CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL
COBRE
EXPLORAT I O N
- RICHFIELD-- PROPERTYPULSE kLECTROMAGNETOMETER
-VECTOR
SECTIONLINE
0 0 N - L O O P '8'
-INSTRUYENT
1
CRONE P.E.Y.F
..
FIO. 2
'qoW
I
I
so
I
-
1
100-
I
c
a
w
n
200-
300-
.
-
CHANNEL I
CHANNEL 2
CHANNEL 3 -'
!&..Y w.8,-.&-,
CHANNEL 4
,+,ad
-A
/&?
'
-.
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE . EXPLORATION
R I C H F I E L D - - PROPERTYPULSE ELECTROMAGNETOMETER
-VECTOR SECTIONLINE
0 0 N LOOP 'C'
-
.
--INSTIUYENT
I
8
6
T
8
CRONE P.E.Y.y
FIG. 2
I
LOOP
D
0-
1
I
100-
Y)
w
E
t-
Y
I
200
-
300-
,...
-..A
-
!#/.
Y. W.C.
p./l
I
b
CHANNEL
CHANNEL
CHANNEL
CHANNEL
1
2
3
4
-
-
'
/
"
.
.
.
/
h
,
/&
I em
* 2S
Ua1r.r
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
E X P LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
LINE
O O N - L O O P 'D'
-
5
6
7
8
NOV'I1
-INSTRUMENT
: CRONE
P.E.U.-
FIO. 24
400W
I
I
300 W
zoow
00
IOOW
"OF
0-
100-
c
m
W
.
:
I-
W
L
I
c
0
w
0
200-
MO-
CHANNEL I
CHANNEL 2
CHANNEL S
Y w.80
r~',-/"dJfi-,
%/.-
....-.
9 /d
-
CHANNEL 4
I em
= 25
Metres
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXP LORAT I O N
RICHFIELD
PROPERTY
PULSE ELfCTROMAGNETOMETER
-VECTOR
SECTIONLINE
0 0 N - L O O P 'E'
5
I
I
0
- .
-INSTRUMENT
8
CRONE P.L.M..-
NQVI'
F1Q.Z
I
LOOP
D
0-
1
100 E
I
I
100-
M
w
a
W
L
I
I
In
w
0
200-
300-
I
LOOP
1tL
I -
,.#v/.-,....Y
L......
%.I.
CHANNEL
CHANNEL 2
CHANNEL 3
COBRE
EXPLORAT I O N
PROPE R T Y
RICH FI E LD
CHANNEL 4
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE
5 0 s -LOOP 'D'
I"..J#.-,
9
/I/
I cn
25 Metrm
.
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
6
7
6
NOV'II
-INSTRUMENT.
CRONE P.E Y . -
f10.24
I'
I
I
400 W
300 W
zoow
IOOW
LOOP E
@ IOOE
O0
I
0-
100-
u)
W
K
c
W
E
I
n
I-
W
P
200-
300-
LOOP
1.
I%
CHANNEL'I
CHANNEL 2
CHANNEL
-. .. .- - 3
z
,.*
m.8.
l,... - f
!f& (r
....A
7
-
CHANNEL 4
-*.&#.-,
/t4
I em = 25 Metrer
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
E X P LO RAT ION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE
5 0 s -LOOP 'E'
-INSTRUMENT
i
5
6
7
B
CRONE P.E.M.-
NOV'7
FIG. 2
E
300 W
100-
Y)
W
a
t-
-
W
P
I
kw
0
200-
300-
CHANNEL 1
CHANNEL 2
CHANNEL 3
. it vi,,.
..,v/.&..../...../#..,
.......
. r .
9 /r/
r
-
CHANNEL 4
CHANNEL 5
CHANNEL (I
CHANNEL 7
CHANNEL II
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONL I N E 100s - L O O P 'D'
NOV'TI
~
I ern :25 Melrms
D
-INSTRUMENT
: CRONE
P.E.M.-
FIG. 21
LOOP E
I
I
0-
100-
I
I-
P
W
a
20G-
300-
LOOP
lk
if
/.,$/.........
Iyi.4.
CHANNEL 1
CHANNEL 2
C
-.H..A..N..N.E
-L
- 3-
-
CHANNEL 4
4/"" /u-.r/r.-,
9 /td
I cm
= 25
Melrer
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONL I N E 100s -LOOP 'E'
Y
5
6
7
8
Novel
-INSTRUMENT
:
CRONE PE.M.-
FIG. 2
LOOP
0
0-
I
J
100 E
I
100-
c
u,
W
a
iw
I
I
c
P
W
n
200-
300-
CHANNEL I
CHANNEL 2
CHANNEL 3
g/..&f%.#.
,.&,....J
-
CHANNEL 4
/"-.&#..,
..-._e
/d
I em
= 25
MeIran
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE EL,ECTROMAGNETOMETER
-VECTOR
SECTIONLINE
150s -LOOP'D'
-INSTRUMENT
j
5
6
7
8
CRONE P.E M.-
NOV'7<
FIG. 3
r
LOOP E
W IOOE
I
I
I
0-
100-
c
u)
-
W
E
t
W
I
r
.t
P
W
0
zoo-
I
300-
CHANNEL 1
CHANNEL 2
CHANNEL 3
%-
w.8.
/
.......
p . 4a,.~..
-
-
CHANNEL 4
-eJ0.-p
9 01
I em
:25
Yehr
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
E XP LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE
150s - L O O P 'E'
-INSTRUMENT
: CRONE
5
6
7
E
P.E M.-
NOV'7
FIG. 3
LOOP
D
0-
I
1
300 W
200w
IOOW
100 E
I
I
I
I
1
100-
I
I-
n
W
0
200-
300-
I
!&.Y %,.
,
+
/
CHANNEL 1
CHANNEL 2
CHANNEL S
,..'. ...../,.
CHANNEL 4
e
.
.
I cm
.9
/#/
5
-
-
25 Milrms
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION-
LINE
2 0 0 s -LOOP 'D'
5
6
7
0
NOV'71
-INSTRUMENT
: CRONE
PE M . -
FIG. 31
LOO
P E
_.
IOOE
I
I
0-
I
I
+_-,
/T;r
IOO-
b
w
0
200-
300-
LOOP
l ! L
I CHAMEL
CHANNEL 2
CHANNEL
-.. . . .- - 3.
I_
CHANNEL 4
E XP LO RAT I O N
RICHFIELD
PROPERTY
COBRE
PIII SF
FI ECTROMAGNETOMETER
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
S
7
8
I
LOOP
D
I
1
100 E
I
I
0-
100-
ul
W
E
i
I
c
P
W
0
200-
300-
CHANNEL I
CHANNEL 2
CHANNEL 3
,.. .....&.,
.......
Y/.-ir w.,.
p#d
-
CHANNEL 4
/
J
/e/
I em
25 Malres
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONL I N E 2 5 0 5 - L O O P 'D'
5
6
T
8
NOV'7i
-INSTRUMENT
: CRONE
P E M.-
FIG.
34
400W
I
I
IOOE
.
I
0-
100-
.
I
I-
n
Y
0
200-
300-
-..-....-- - -
CHANNEL I
CHANNEL 2
CYANYFI
%/.- (r !a%*.
,..+
,.".
"....../*/
3
CHANNEL 4
/ ".-.Jt..-,
9
I em c 25 Ymtrrl
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONL I N E 250
-LOOP 'E'
.
s
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
.
6
T
8
NOV'7
-INSTRUMENT. CRONE P E
u.-
FIG 3
I
LOOP
0
0-
1
I
200 w
300 W
'00 E
100 w
I
-4
100-
c
In
W
P
IW
I
I
I-
n
W
0
200-
300-
CHANNEL 1
CHANNEL 2
CHANNEL
_. . -_ 3-
v/..,..Y m....
.,&
..,
,.+
........
*/
9
/#/
-
CHANNEL 4
I em
= 25 Matrar
CHANNEL 5
CHANNEL 8
CHANNEL 7
CHANNEL e
COBRE
E XP LORAT IO N
RICHFIELD
PROPERTY
.
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE 300s - L O O P ' D '
-INSTRUHE#T
: CRONE
P E H.
-
NOV'71
FIG. 31
LOOP E
400 W
I
I
I
IOOW
200w
300 W
I
I
I
I
I
0-
100-
I
I-
n
W
n
200-
300-
CHANNEL 1
CHANNEL 2
CHANNEL 3
s..if =.a
,.* '...*....
/'.../9 .....m./
/t4
-
CHANNEL 4
I em
= 25
Yelres
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXP LO RAT I O M
RICHFIELD
-P R O P E R T Y
PULSE ELECTROMAGNETOMETEA
-VECTOR
SECTION
L I N E 3 0 0 8 -LOOP'E'
-
5
6
7
0
NOV'7f
-INSTRUMENT
: CRONE
PE.M.-
FIG. 3;
100-
I
u)
W
e
I-
-
W
5
I
t-
a.
W
p
I
200-
300-
I
LOOP
CHANNEL I
CHANNEL 2
CHANNEL S
w/.4r w.,.
/...'/
....
,..,I
...-....
J
/
,
/
-
CHANNEL 4
/
#
.
.
,
I em z 25 Milr*s
m
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EX P LO RAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
L I N E 400s - L O O P 'G'
-
*
5
6
7
8
NOV'7fi
-INSTRUMENT
:
CRONE P E M . -
FIG. 31
-
LOOP 6
I
I
I
400W
2oow
300 W
I
I
I
I
I
I
b 150E
00
IOOW
I
I
I
0-
100-
c
u)
W
a
Y
I
I
c
P
W
0
200-
300-
LOOP
1tt
T
L
CliANNEL I
CHANNEL 2
CHANNEL 3
.,.
,.!#.,'.../....-kf w.....
/
....r
9 /#d
-
CHANNEL 4
/
&
,
I cm :25 Me1r.s
COBRE
EXP LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONLINE 5 0 0
-LOOP '0'
s
.
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
6
7
8
NOV'71
-INSTRUMENT :CRONE PE.M.-
FIG. 3'
I
I
I
800
I
w
I
70,O W
60,O W
sop w
40.0 W
I
1 Yr
0-
100-
I
I-
a
W
n
200-
300-
LOOP
1 k
-
1.
,..,'
v/.,........
.."/..-.'
tf P3.h
/#.-,
9
/#/
CHANNEL 1
CHANNEL 2
CHANNEL 3
COBRE
EXPLORATION
RICHFIELD
PRQPERTY
CHANNEL 4
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
LINE 5 0 0 s -LOOP'I'
I em s 25 Matras
-
CHANNEL 5
CHANNEL 6
CHANNEL 7
NOV'II
-INSTRUMENT
:
CRONE PE.M.-
FIQ. 4
I
300 W
I
I
eoow
I
I
100 w
I
6-
I
00
n
I
100 E
L
I
100-
I
I-
e.
w
a
200-
300-
LOOP
1 k
CHANNEL I
CHANNEL 2
CHANNEL 3
!e.- Y !vi4
,+p.-/
..udl.y
e. . . . . . .
?
J
/f/
-
CHANNEL 4
I e n = 25 Molrmr
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
E XP LORAT I O N
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
LINE 6 0 0 s . -LOOP'G'
-
-INSTRUYENT
: CRONE
3
6
7
8
PE.Y.-
NOV'70
FIG.41
I
I
0-
400 W
300 W
2oow
too w
00
I
I
I50 E
I
100-
200-
3OG-
LOOP;
1I +
CHANNEL I
CHANNEL 2
CHANNEL
..
_ _ 3-
w/.p - p d,
IF %..a
........
CHANNEL 4
/ uw J 8 . 7
9
/8d
-
I em
= 25
Metre8
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PROPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR SECTION
LINE 7 0 0 9 - L O O P 'G'
-
5
6
7
8
NOV'TI
-INSTRUMENT
: CRONE
P.E.M.-
FIG. 4:
I
I
100 w
L.OOP I
'0.0 E
200 E
0-
100-
I
IP
W
0
200-
300-
LOOP
1 t L
CHANNEL I
CHANNEL 2
CHANNEL 3
Y/..i!r w.,.
........
,.+',..d"..JI..,
9
/0/
-
CHANNEL 4
I cm = 25 M i l r i a
CHANNEL
CHANNEL
CHANNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PROPERTY
P U L S E ELECTROMAGNETOMETER
-VECTOR
LINE
6
T
8
NOV'79
SECTION-
7008 -LOOP'('
&
5
-INSTRUMENT
8
CRONE P.E.M.-
F10.43
LOOP J
I
I
0-
100-
h
w
D
200-
300-
I
nnr,
CHANNEL I
CHANNEL 2
CHANNEL 3
,.+
w/..,....K H.,.
,...$
-
CHANNEL 4
/ mrJl..,
/#/
I em = ZS Mclrw
.
CHANNEL 5
CHANNEL 6
CHANNEL 7
COBRE
EXP LO RAT I0 N
RICHFIELD
PROPERTY
PULSE ELECTROMAONETOMETER
-VECTOR
SECTIONL I N E 7 0 0 8 - L O O P 'J'
-INSTRUMENT
:
CRONE PE.M.-
NOV'71
FlG.44
300 W
200 w
I 0.0 w
00
I
c
I
I
0-
100-
I
In
W
a
c
W
I
I
c
n
W
n
200-
300-
LOOP-
I!%
%./
,../I
Y/!"-a.ohh-,
CHANNEL 1
CHANNEL 2
CHANNEL 3
EXPLORATION
COBRE
PROPERTY
RICHFIE D
CHANNEL 4
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTIONL I N E 8 0 0 s - L O O P 'Q'
p...
,..
....r
9 /w
I em
z 25 Me1r.s
* A
*
CHANNEL 5
P
Y I Y U C l
",,"....LL
1
"
CHANNEL I
CHANNEL 8
NOV'7
-INSTRUMENT
: CRONE
P.E.M.-
FIG. 4!
.-=I
I
I
IOOW
00
too E
I
290 E
I
0-
100-
I
v)
W
a
t-
w
L
I
I-
P
W
200-
0
300-
LOOP
1tL
-
1.
v/,.-....
&fIYi.,.
,.+
........
CHANNEL 1
CHANNEL 2
CHhNNEL 3
E X P LO RAT I 0 N
COBRE
PROPERTY
RICH F I E D
CHANNEL 4
PUL S E ELECT R 0 M A G N E TOM E T E R
/ u-.J#.-,
9
/#/
I em :25 Metres
-VECTOR
SECTIONLINE 8 0 0 s - L O O P ' I '
CHANNEL
CHANNEL
CHANNEL
CHANNEL
5
6
7
8
NOV'7f
-INSTRUMENT
: CRONE
P.E.M.-
FlG.46
J- .
00
I
I
I
0-
100-
YI
W
U
+
W
I
I
c
P
W
0
200-
300-
LOOP
lk
CHANNEL I
CHANNEL 2
CHANNEL 3
4r H.#.
%Ap+ ,
.
.
.
'
/
.
.
.
.
d
8
,
-e..
9
,
/8/
-
CHANNEL 4
I em x 25 Yelfrr
,
CHANNEL
CHANNEL
CH4NNEL
CHANNEL
COBRE
EXPLORATION
RICHFIELD
PRQPERTY
PULSE ELECTROMAGNETOMETER
-VECTOR
SECTION
LINE 8 0 0 s -LOOP'J'
-
5
6
7
8
NOV'71
-INSTRUMENT
CRONE P.E.H.-
. FIG. 4'
c
LOOP
I
I
0-
100-
Y)
W
P
I-
W
E
I
I-
n
W
0
200-
300-
CHANNEL 1
CHANNEL 2
CHANNEL S
~
93.8.
,.,%./+,..#&r
./.
.*..
../
3
.
.
.
.
.
+
I
/#J
-
CHANNEL 4
I em
* 25
Yelros
,
CHANNEL S
CHANNEL 6
CHANNEL 7
CHANNEL 8
COBRE
E XP LO RAT I O N
RICHFIELD
PRQPERTY
P U L S E EL.ECTROMAGNETOMETER
-VECTOR
SECTIONLINE 9 0 0 S -LOOP 'J'
-
NOV'71
-INSTRUMENT
: CRONE
PE.N.-
FIG. 41
I
I
I
LOOP J
5 9 0' W
40.0 W
30,O W
I
I
-
I
0p W
0-
100-
300-
LOOP
1tL
t
%/.- ifm.89
,./',.."/""'9/#.-,
.
.
.
*
.
.
I
/#/
.
CHANNEL
CHANNEL
CHANNEL
CHANNEL
I em
= 23
1
2
3
4
-
Melrrr
,
COBRE
E X PLO R A T IO N
RICHFIELD
PRQPERTY
PULSE EL.ECTROMAGNETOMETER
-VECTOR
SECTION
CINE 100 o s
.
- LOOP-'J'
CHANNEL
CHANNEL
CH4NNEL
CHANNEL
5
6
7
8
NOV'l!
--INSTRUMENT: CRONE PE.M.-
FIG. 4'
5
\
-
'/
/
I
CODP D
I
t
I
4
3
I
c
MINERAL RESOURCES BRANCH
I
I
t
ASSESSMZiiV REPORT
COBRE EXPLDRRJJON
RlCHFJELO PROPERTY
rmP.P.K.
VECTOR PULSE ELECTROMRGNETOMETER
HORIZONTAL COMP3NENT
LlNE
250N
D
SGLE
G,LEN E . WHITE
METRES
f
NUYBER
IN
THE L r x
= CHFINNFIL
Numm
JNSTRUMENTI CRONE P.E.fl.
GEOPHYSICRL CONSULTING
iL SERVJCES LJD.
N. T .S. 93-LI9IJ
CRfE 20 v m C R 1819
ffG.NU;
50
I
COOP D
I
4
3
2
m
COBRE
aa
-
EXPLORRTION
RICHFJELD 'PRDPERTY
P .P.K.
SCALE
ELECTROMRGNETOMETER
VERTJCAL COMPONENT
D
25GN
LJNE
VEQTOR
PULSE
I
I
1
I
J
C
0
50
1DD
I
I
150
1
200
METRES
NUMBER f N THE LINE
=
CHANNEL NUNSER
JNSTRUMENTr CRONE P.E.fl.
GLEN E . WHITE
GEOPHYSICRL CONSULTING
I& SERVICES LTD.
. .
N T .S
93-ClW
DRfC 2n YdyEtaER 1879
FIG.NUr
5'
I
/
I
i
I
rrl
t
1
LOOPE
E
f
I
I
I
I
I
I
COBRE EXPLDRRTJON
I
*I
RICHFJELD PRWERTY
*ORP.P.K.
!xfu
J
A
ELECTROMAGNETOMETER
HORIZONTRL COMPONENT
25ON
E
LINE
VECTOR PULSE
GLENE . WHITE
NETRES
GEOPHYSICRL
CONSULTING
---.
& SERVICES LTD-.
N.T.S.
93-L/9k/
D f i K 20 LaVfft3ER 1879
~
t
NUMBER JN THE LIME = CHRNNEL NUM3ER
JNSlRUMENTt
CRONE
P.E.M.
fIG.NOt
52
a
j
I
I
f
I
I
LODPE
I
I
I
C
I
I
f
I
T
a
SCIILE
f
EXPLDRRTION
RfCHFJELD PROPERTY
-
P.P.K.
I
t
COBRE
t
0
,t
sa
t
L
1OD
r
J
1%
200
I
METRES
NUMBER JN THE CrNE = CHWNEL NUHDER
VECTOR PULSE ELECTROMRGNETOMETER
VERTKRL COMPONENT
E
LlNE
250N
GLEN E . WHITE
GEOPHYSJCRL CONSULTING
INSTRUMENTt CRONE P.E.M.
& SERVICES
CTD.
N.T.3,
93-L/9~
DATE ul IbvWER W?3
FIG.NOt 5 3
I
/
6
Y
W
J
b
3
2
COBRE EXPLORRTSON
RICHFJELD PROPERTY
vmP.P.K.
VECTOR PULSE ELECTROMAGNETOMETER
HOR I ZON TAL COMPONEN T
SCFLE
LINE
0
SO
100
1so-
200
93-L/9J
u) a m w in9
N.T.S.
METRES
NUMBER J N THE LINE = CHRNNO, NUMBER
D
200N
JNSTRWLNTt
CRONE P.E.fl.
GEOPHYSI CRL 'CONSULTING
& SERVICES LJD.
OAK
fK.NO;
54
I
I
1
LOOPD
1
c
I
I
I
,
I
i
I
!
I
,
I
!
,
1
CDBRE EXPLORRTIDN
RICHFJELD P R W E R T Y
*a3.P.K.
SWt
t
f
I
r
t
I
0
SO
1
I
100
r
1
1
150
200
METRES
NUMBER JN THE LINE
=
CHRNNR, NUHBER
JNSTRUMENTt CRONE P.E.fl.
GLEN E . WHITE
GEOPHYSI CRL CONSULTING
& SERVICES LTD.
. .
N T .S 93-L/9H/
OAKa aavEnsm 1379
FfG.NOt
55
c
.
.
,
5.
,
I
1
LOOPE
COBRE
EXPLORRTJON
RICHFJELD PROPERTY
tmP.P.K.
VECTOR PULSE ELECTROMfiGNETOMETER
HOR I ZON T R L CUMPON EN T
200N
E
' LINE
SMLE
t
0
J
so
GLEN E . WHI TE
METRES
NUMBER JN THE LINE = CHRMNR, NUflBER
JNSTRU-IENTt
CRONE P.E.fl.
GEOPHYSICRL C O N S U L T I N G
& SERVICES L T D .
I
N.T.S. 9
3
-
D N E 20 14VCNKJl f879
FIG.NC11
56
~
I
I
u
\\\
u
1
LODPE
\1
\
\ \
-.
RlCHFJELO P W E R T Y
tmP.P.K.
SWE
1
0
.
I
so
1
c
100
I
J
1so
1
200
HETRES
8
NUMBER I N THE C r t c = CHRNNEL NUMBEX
JNSTRUMENTt CRONE P.E.H.
VECTOR PULSE ELECTROMRGNETOMETER
VERTICAL COMPONENT
E
200N
LINE
GLEN E . WHITE
GEOPHYSICRL CONSULTING
& SERVICES LTD.
I
N.T.S.
93-L/9w
DRfE 20 lOvMBER 1919
fIG.NOt
57
I
LOOP F
/’
a
CCJBRE EXPLORRTJON
RICHFIELD PRWERTY
/
-
F
;
o
METRES
o
1
NUMBER JN THE LINE
= CHRNMEL NUMBER
JNSTRUMENTa
CRONE P.E.fl.
GLEN
E.
WHITE
GEOPHYSlCRL CONSULTING
& SERVICES LTD.
N.T.S. 93-uqd
mTE 28 u m m 1979
FIG.NO$
58
I
6
K
a
R
R
a
R
d
5
3
I
i
1
t
0
I
I
so
I
I
1ua
r
I
150
NUMBER
JN THE L f N E = CHRNNEL NUNBUi
COBRE EXPLORRTION
RICHFJ€LD .PROPERTY
.'
. .
I
, 1
VECTOR PULSE ELECTROMAGNETOMETER
VERT i CRL COMPONENT
1
200
METRl3
JNSTRVMENTi CRONE P.E.H.
1
I
J.
'
mrE 20
GEOPHYSICRL CONSULTING
& SERVICES LTD.
I
N ~ V Q I B C Rigls
fIG,NOr
59
r
I
t
I
I
I
I
I
I
I
I
a
4
3 9
\I_t
H
,.
?
1
COBRE
1
EXPLORRTJON
RICHFJELD P W E R T Y
I
t
I
t
0
l
t
.
*
t
I
1
L
so---Jdv-
150
P
1
200
METRES
NUMBER
J H THE LrNE = CHRNNEL NUMKR
-
JNSTRUMENTi
CRONE
P.E.H.
VECTOR PULSE ELECTROMRGNETOMETER
HOR I ZON TRL COMPON EN T
LINE
GLEN
E.
D
150N
WHT TE
& SERVICES LTD.
I
N.T.S. 9 3 - ~ / w
I
-
LDDPD
I
1
COBRE
EXPLORRTJON
RICHFSELO PRWERTY
tmP.P.K.
SCiQE
-- VECTOR
I
t
I
0
so
1
1
1OD
1t
150
LINE
1
200
GLEN E .
METRES
NUMBER JN THE LINE
=
CHRNNEL EaVHBER
JNSTRUMWT:
PULSE ELECTROMRGNETOMETER
VERTICRL COMPONENT
CRONE
P.E.fl;
1SON
WHITE
GEOPHYSICRL CONSULTING
& SERVlCES LTD.
D
N. T .S.
CRTE 20
93-L/9k/
awmuz
fZG.NOt
61
1979
f
i
n
I
-1
LOOP E
I
I
I
I
t
/
I
I
COBRE EXPLORRTION
I
I
I
I
RlCHFJELO PROPERTY
1
c
0
r
J
50
1
I
r
1
100
150
1
VECTOR PULSE ELECTROMRGNETOMETER
HOR IZON TRL COMPONENT
LINE
E
200
tws.
METRES
NUMBER JN THE LINE = CHRNNR. NUMBER
JNSTRUMENTr CRONE P,E.fl.
GEOPHY S ICRL CONSULT I NG
& SERVICES LTD.
93-~/91,,
mrc 20 novvtnem ~ 8 1 9
FIG.NDx
62
I
I
LOOP E
I
,
I
I
I
CDBRE EXPLORRTION
RICHFIELD PROPERTY
+ORP. P K'.
SCPLE:
.
VECTOR PULSE ELECTROMRGNETOMETER
r
t
J
0
5c
1
1
1ob
r
J
150
VERTJCRL COMPONENT
3 SON
E
LINE
1
200
9
.
..
~-
METRES
NUMBER J N THE CINE
= CHR~NEL NU~IBF~I
JNSTRLRENT:
CRONE
P.E.fl.
GLEN E . WHT TE
GEOPHYSICRL CONSULTING
& SERVICES L T D .
I
N.T.S.
93-~/9k
MTE 26 IavvErBER 1379
FIG.NOt
63
I
I'
1
LOOPF
-.-
MINERAL RES%3sU?,CESBRANCH
*mP.P.U.
Sc4LE.
C 3BRE
/j
RICHFJELD PRUf'ERTY
1
1
L
J
100
150
3
200
METR,ES
NUMBER JN THE LINE
=
CHRNNEL NuE13ER
EXPLORRTJON
JNSTRLMENTt CRONE P.€.Jl.
GLEN E . WHITE
GEOPHYSICRL CONSULTJNG
& SERVICES LTD.
N
.T .S .
934191J
can 20 ~ m t ims
x
F K N Dt
64
I
I
LOOPF
5
3
CDBRE
RICHFJELD PRWUiTl
tmP.P.X.
9WE
1
EXPLDRRTJDN
VECTOR PULSE ELECTROMAGNEYOMETER
t
O
I
1
I
r
'
SO
1OP
f
1
150
VERTlCRL COMPONENT
LINE
1 SON
F
1
200
N.T.S.
METRES
NUMBER JN THE LINE = W N N E L NUMBER
JNSTRUMWTt
CRONE P.E.H.
GEOPHYSICRL CONSULTJNG
& SERVICES LTD.
ORlC 20
93-L/qd
umww
FfG.NDI
65
1379
_-
CO@?,EJ
-3
EXPLORRTION
.
!?I€WIELU PROP€RTY
VECTOR PULSE ECECTROMfGNETOMETER
HORlZONTAL COHPON€NT
LINE:
1OON
F1
GEOPHYSICFIL CONSULTING
& SERVICES LTD
N.T.S. q 3 L / 9 N
a o m m ~m
F'fC.NO:
66
I
t
1
LOOeR
*OR-
P.Q.L.
VECTOR ?ULSE ELECTROMRGNETOHETER
VERTICAL COMPONENT
1 OON
9
SrdlE
..
(
1
N.T.S.
*?RES
N M E R I N THE
LlNL = THANNU N
m
IHSTRiT;
CROHf
P.E.N.
CEOPHYSICRL CONSULTING
& SERVICES LTD
93LhrJ
W E 9-1979
FIG.NO;
67
e
LWB
I
I
‘t
3
\-
RICHFIELD PRlPfRTY
3
3
t
LINE
I
0
fl€TRES
NUMBER IN THE LINE = C
H
m
E
1 NLJHBER
3NSTRU.tENT:
CRONE P.E.N.
ROMRGHETOMETER
OMPONENT
B
100N
.
GLEN E . WHITE
N T .S . 9 f k/q*
GEOPHYSI
CRL C@@3JliTI NG
-_
& SERVICES LTD.
ORTE O m l r n S
8
7
6
5
4
-1
F
I
/
COBRE - EXPLORRT I ON
+OR-
P .P .1(.
VECTOR PULSE ELECTROMAGNETBMETER
VERTICRL COMPONENTB
LINE
1OON
SCRLE
GLEN E . WHI TE
NUHB€R I N TH€ LINE = CHiWKL
-
INSTRUIENT;
CRONE
P.E.H.
GEOPHYSICRL CONSULTING
&
LTD.
- SERVICES
--
1 N.T.S.
I
I
~
/
LWE 8-1979
FIG.Nl3;
69
9
&
!
i
t
j
i
j
j
i
I
i
I
I
I
j
,
1
!
I!
r
I
I
f
I
I
i
r
CDBRE
EXPLDRRTJON
RlCHFJECD PRWERTY
1
j VECTOR PULSE ELECTROMRGNETOMETER
HOR I ZON TkL COMPONEN T
LINE
1OON
D
i
r
i
t
GLEN E . WHITE
Ii GEOPH'fSICN
CONSULTING
& SERVICES
LTD.
1
1
I
I
I
93-L/91~ 1I
N.T.S.
DBTE 20
I
IldYf?3S 1379
flG.NClt
70
j
I
LOCPD
1
I
!1
a
i
i
I
I
i
t
i
7,,
!
6
;
I
!
I
j
j
I
i
!
I
I
I
t
I
iI
I
,
i
~
I
!
i
I
COBRE
i
RICHFJELD PRCF’ERTY
I
I
i
!
i
i
C
li
I
r
50
1
L
100
tETRES
I
I
1
i.
EXPLDRRTJON
r
f
15n
200
1
VECTOR PULSE ELECTRDMRGNETOMETER
VE2T.ICRL COHPONENT
LINE
I OON
GLEN E . WHITE
GEOPHYSICRL CONSULTING
& SEYUCES LTD.
-
I
j
I
I
!
I
LOOP E
1
1
4
I
II
i
I
ii
1
ii
I
I
1
j
- 0
I
i
- 13
I
!
j
1
I
!
i
i
I
i
I
i
I
I
I
I
-
58
P.P.K.
S2%C
0
if
so
1
100
r
1
150
200
V E C T 3 R P U L S E ELECTROMRGNETOMETER
HOR I ZDN TRL COMPONEN T
LINE
lCON
E
II
!
N U X I~N THE
= CHRNNF,
MJ.IBER
GLEN E . WHI TE
1
N.T.S. 9 3 - ~ / 9 w
!
METRES
I
EXPLORRTJON
RICHF JELD PROPER T Y
c
I
COBRE
INSTRLYENT:
CRONE
P.E.M.
1
GEOPHYSJCqL C O N S U L T I N G
,& SERVJCES LTD.
DRTE 20 NCWY3CR
FIG.NOt
72
1879
I
i
1
I
f
1
!
COJP E
I
!
i
i
8
1
I
i
7
!
j
6
i
I
5
1
I
4
!
I
1
!
,
!
L?
!
i
\
-23
1
!
j
I
I
,
I
i
i
I
i
I
!
COBRE EXPLORRTfON
RICHFJELD FRDPERTY
VECTOR PULSE ELECTROMRGNETOMETER
I
!
I
I
!
i
VERTlCRL
t
0
I
53
_.
1
100
METRES
-
r
159
J
LIVE
COMPONENT
1 OON
E
200
N.
CRIET .S.
20 YdvWOz
33-L/qW
1879
GEOPHYsI CRL CONSULTI N G
& SERUCES L T G .
1
fIG.NO;
73
I
I
LOOPF
7
*
.
6
4
/
P
A
7
3
A
A
A
#b
I
3
-24
COBRE
EXPLORRTION
R I CHFl EL0 PROPERTY
VECTOR PULSE ELECTROMRGNETOMETER
HOR I ZON TRL COMPONENT
LINE
lOON
F
-~
GLEN E . WHI TE
METRES
NUMBER
JN THE LINE = CHFiNNEL NUf4BER
. .
I NSTRUMWT i CRONE P E. H
GEOPHYSICRL CONSULTING
& SERVICES LTD.
N.T.s., 93-u9w
rnlE 20 a m a t 1973
FIG.NOi
74
I
79
LLlOPF
I
7
7
COBRE EXPLORRTION
RICHFJELD PRWERTY
t
r
0
so
,
1
L
100
r
>
150
200
VECTOR PULSE ECECTROMAGNETOMETER
VERT I CRL COMPON EN T
LINE
F
N. T.S.
METRES
NUMBER I N THE CINE = CHRNNEL NUMSEFI
INSTRUMENTi CRON€ P.E.R.
G E O P H Y S I C A L CONSULTJNG
& SERVICES LTD.
car€ 20
93-Lf9g
Y ~ B m
Wg
j
I
fIG.NOt
75
t
E
t
r
I
LWFl
I
I
f
I
t
.-
P
I
E
t
i
. .
*
-
I
+OR-
?.?.*.
SCBLE
‘ECTOR PULSE EL€CTROMRGNETOHETER
HOR I ZON TgL COMPONENT
os1N
FI
t
c
I
HifflBER I N THE
LINE = CHFIWEL NLBER
GEOPHYSICRC CONSULTING
3NSTRLMNT;
CRONE. P.E.H.
& SERVICES LTD
N.T.S. 1 3 c / i i
llrR aocTm3 1979
FIC.Nl3;
-76
COBRE EXPLORRTION
*
-
+mP.P.E.
VECTOR PULSE EC&CTROMAGNETOl‘@!?ER
VERTfCRt COMPONENT
!kcw
iJ
..
3NSTRtMfHT; CRONE P.&.H.
NE
OS1N
GEOPHYSf CRL CONSULTING
& SERVICES LTD. ’
R
O
R
E S a m ltt0
FIG.NO;
77
E
I
UlOPD
1
\
\
U
U
I
COBRE EXPLDRRTJON
*m-
RICHFIELD FiWERTI
P.P.K.
Sax€
VECTOR
PULSE ELEC TRCYIRGH ETOME TER
HOR I ZON TRL COlYPON EN T
LINE
ESEThE?
51t4
GLEN E . WHIJE
GEOPHYSI CRL CONSULTING
& SERVICES LTD.
FIG.Ni3t
78
I
WOPD
I
5
4
3
A
i
COBRE EXPLORRTJON
I
1
RICHFJELD PROPUiTY
t
0
I
J
so
1
I
100
1
I
1S
VECTOR PULSE ELECTRDMRGNETOMETER
VERTJCRL COMPONEN J
LINE
51N
D
1
200
METRES
NUBEER JN THE LINE = CHnNNEL NU:"13C31
JNSTJUWTt
i
!
!
CRONE P.E.fl.
1
GLEN E . WHITE
GEOPHYS I CRL CONSULTJ N G
&
SERVICES LID.
I N.
T.S
.
93-L/q~
DRtE 29 l m E R 1979
fIt.NClt
79
8
7
1
.
9
-2n
COBRE EXPLDRRTlON
RICHFIELD PROPERTY
*ElP.P.K.
VECTOR PULSE ELECTROMRGNETOMETER
HORlZONTRL COMPONENT
SCLE
LINE
METRES
SIN
GLEN E . WHITE
GEOPHYSICRL CONSULTJNG
& SERVICES LTD,
I
- .
I
I
LOOPE
"
6
I
I
I
1
i
I
I
I
'
,
I
!
'
j
,
I
i
!
i
t
I
1
I
RICHFJELO PRWERTY
rM-
P.P.K.
0
r
1
so
3
L
100
METRES
r
1
1%
J
2DD
LINE
SJN
GLEN E . WHITE
GEOPHYSICRL CONSULTING
L SERVlCES LTD.
II
I
VECTOR PULSE ELECTROMRGNETOMETER
VERTICRL COMPONENT
TdLt
t
I
COBRE EXPLDRRTJ Ob1
E
I
i
I
--
n
I-?
7
-3
2
,2 /'
L .:,
i
COBRE EXPLORRTJON
RlCHFJELD PROPERTY
traP.P.L.
VECTOR PULSE ELEC.TROMRGNE-TOMETER
HDRJZONTRL COMPONENT
LINE
51 N
F
St,2tt
d b
t
I
NUMBER
1
I
100
I
I
150
3
200
GLEN E . WHITE
METRES
JN THE LINE = CHRNNO, MJ?@Ui
GEOPHYSICRL CONSULTING
JNSTRLMWTt
CRPNE P.E.H.
& SERVICES
LTD,
I
i
N.T.S. 9 3 - L f q ~
MTE 20 u m m 1878
FIG.NOt
82
I
t
1
LOOPf
I
1
I
E
I
I
I
I
I
,
I
I
ea
-
I
COBRE EXPLDRRTJDN
RICHFJELD PRWERT'I
P .P.K.
SCXE
I
I
r
I
t
I
L
0
50
100
I
I
150
1
209
METRES
NUMBER I N THE LINE = CHRWO- NUFtBER
JNSTRLlMWT: 'CRONE P.E.H.
VECTOR PULSE ELECTRUMRGNETOMETER
VERTJCAL COMPONENT
F
51N
LINE
GLEN E . WHI TE
GEOPHYSJCRL CONSULTJNG
8, SERVICES LTD.
I
N . T . S . 93-uq
DClTE 20 #ovulsER 1979
FIG,NOt
83
RlCHFlELO PRP€RTY
*OR-
P.P.R.
!mu?
VEGTO!? PilLSE ELECTROMRGNET3METER
HORI ZONTRL COMPONENT
LINE
OON
f3
HETRES
GLEN E . WHI TE
GESPHYSICRi
& SERVICES
CONSULTJNG
LTD.
I
I
N . T . S . 931/915
OREoamm 1979
FfG.NOt 84
*maP.P.E.
VECTO!? PiJLSE ELECTROMRGNETOMETER
VERTICRL COMPONENT
LINE
OON
R
zcivf
..
GLEN E . WHITE
INSTR’LHENT:
CRONf
P.E.Y.
GEOPHYSJCRL CSNSULTING
& SERVICES LTD.
I
N.T.S. 9 W 9 W
D
A
B a acrm s
m
FfG.NB:
85
I
LOOPB
_.
1. .
c
8
7
6
5
4
3
3
\
U
H
1
1
COBR E EXPLORRT i ON
I
4mQ.P.L.
aRLL
Ri
ERfY
VECTOR PULSE ELEC?ROMFK;N€TOMETER
COMPONENT
N
6
GLEN E . WHITE
GEOPHYSICAL CONSULTING
& SERVICES LTO.
~ N . T . s . 43~/9cJ
mln: P OCtoaFR 1979
I
FCG.MO;
86
I
LWPB
8
7
6
5
4
3
COEVRE EXPLORRTION
tis-
P.P.I.
SUYE
VECTO!? PULSE ELECTROMRGNETONETER
VERTlCRL COMPONENT
F
LJNE
METttES
GLEN E . MHITE
GEOPHYSICAL CrnSULTING
& SERVICES LTD
s
H.T.S. Q3kl9w
~ T aafollolmm
E
fiC.NU:
87
I
I
'
I
iJ)pJpc
R
'I
C0B.R E EXPLORRT I O N
./
*a-
9 iCHf I €LO PROPERTY
P.P.6.
VECTOR PULSE ECECTROHRGNET9METER
HORTZONTRL COMPONENT
SCRCL
c
METRES
. -
NUHER I N THE LINE
.
&
= CHRNNU NUHBIFR
lF(S?RUH&.N';
CRONE P . E . N .
GEOPHYSJCRL CONSULTING
k SERVICES LTD
*
OREa OCTWER sa10
FIG.NO:
88
I
!
F
I
'
U)LIPC
1
I
L
I
I
I
I
..-
+aP.P.K.
E
I
SrALCc
VECTOR PULSE ELECTROMRGNETOMETER
V E R T I C X COMPONEWT
c
LINE
DON
GECPHYSJCAL CONSULTING
& SERVICES LTD.
WTE %3rXm?.$ia78
FTG.NO;
89
j
7
7-=
=
=
?-
U
I
H
1
I
F
I
-e
5
--Lo H
-
!
I
I
f
I
I
i
I
t
t
t
I
I
COSRE
I
1 VECTOR
EXPLDRRTJON
RIC!iFlELD PTIWERTY
PULSE ELECTRDMRGKETCEETER
HD[iiZOt\r TRC COHF’CNER T
D
I
I
N.T.S.
1 GEOPMYS I CRL
CONSULT I NG
93-L/qU
DRTE 20 P C V P 3 9 1379
j
I
umn
I
3
COBRE EXPLORRTJON
RICHFJELD PRWERTI
.atP.P.K.
ELECTRDMRGNETOMETER
VERT I CRL COMPON EN T
LlNE
ON
D
VECTOR PULSE
CCXE
I
1
t
i
0
50
1
I
I
1
100
150
.
l
200
GLEN E . WHI T Z ,
METRES
N U M E 1 9 I N THE LfNE = CHRNNEL EUI'ISEf?
1
I
I
i
i
S.T.S.
2 3 - ~ / 9 ui
1373
i
GEOPHYSICRL CONSULTING 1 r m 3 ~~iwxa
L SERVJCES LTD.
I FIG.NO1 91
i
L
JNSTRlMENTt
CRONE
P .E.fl.
I
i
i
i
!
i
I
I
LOOP E
I
I
!
!
j
I
i
I
!
i
i
i
!
1
i
i
i
I1
I
I
i
i
I1
i
!
\
1
i
i
!
iI
I
f
!
i
i
!
I
1
!
!
i
i
i
!
I
I
i
!
!
I1
I
I
j
1
1
I
!
I
i
t
0
r
so
1
I
100
METRES
i
r
1 9
f
290
i
1
1
I
d
COBRE EXPLDRRTJ ON
!
'
'
RICHFJEU P W E R T Y
VECTOR PULSE ELECTRDMRGNETOMETER
HDR I ZON TRL COMPON EN T
LINE
ON
E:
GLEN E . WHITE
GEOPHYS I CRL CONSULT I NG
& SERVICES LTD.
!
I
1
I
I ~ . ~93-v9yJ
. ~ .1
O A K 2r3 IlOYE%Xft 18/9
frG.Nm
92
i
c
8
7
6
i
5
4
I
3
I
I
F
2
f
1
I
v
m
P.P.%.
-
HETRES
MUMSER J N THE CINE = CHRNNEC hiJfiX2
4
I
jI
szxt
t
I
COBRE
I!JSTRLVG!T:
CRONE P.E.M.
1
EXPLDRRTJON
RI CHFI EU) PRCPUiT Y
PULSE ELECTROMRGNETOMETER
VERTJCRL COHPONENT
LINE
ON
* E
VESTOR
GLEN
E. WHI TE
& SERVKES LTD.
I
N.T.S.
FIG.HDt
93-~4d
93
I
LUOPF
1
I
t
I
- 0
r
I
I
COBRE EXPLORRTION
*m-
RICHFJEU) PRWERTY
P.P.A.
S
W
I
50
1
I
100
I
I
150
VECTOR PULSE ELECTROMRGNETOMETER
HORIZONTRL CONPONENT
F
LINE
ON
t
200
GLEN E . WHITE
METRES
NUMBER J N THE LrNE = CHRNNEL W ~ E R
JNSTRLPlENTr
CRONE P.E.H.
GEOPHYSICRL CONSULTING
a x w r m LTD.
. .
N T .S 93-VqJ
mrE 20 I m m 1918
FIG .NO t 94
I
LUOPf
6
I
I
I
I
_.-----
I
I
I
I
I
COBRE
EXPLORRTION
RICHFJELO PRWERTY
+cRP.P.K.
ScRLt-
1
0
r
1
so
1
C
1OD
I
1
150
VECTOR PULSE ELECTRCMRGNETOMETER
VERTICRL COMPONENT
LINE
ON
F
J
200
GLEN E .
METRES
NUP18ER JN THE LlNE = CHFiNNEL NUHSER
JNSTRIAENT:
CRDNE P.E.19.
WHI TE
GEOPHYSICRL CONSULTING
& SERVICES LTD.
1
N.T.S.
I
WE
93-wqj
a 1rm%3mla73
fIG.NOt
95
ILcRpFl
I
I
\
--
i
I
RICHFIELD PROPERTY
VECTOR PULSE U,IXTROMAGNETOMETER
HOR IZOMTW**
COMPONENT
A
050s
LINE
GLEN
METRES
NUHBER I N
THE L I N E = CHRNNEL NUHBER
COB-RE EXPLClRRT ION
INSTRUIENT;
CRBNE P.E.H.
E. WHITE IN.T.L
GEOPHYSICAL CONSULT1NG
& SERVICES LTD.
I
#ITE
QWQW
QacraeaRLQ?4l
FIG.NOt
96
-.
I
LMPR
COB RE EXPLORRTION
RICHFIELD P R R P T Y
VECTOR PULSE ELECTROMAGNETOMETER
HETRfS
NUHBER I N THE LINE
= CHWN€L NuHB€f?
k
IHSTRUIWT; CRW€ P.€.H.
I
,
t
V
e
I
A
3
/
L 10
-2n
I
---
CDBRE
*mP“..K.
SWE
I_
t
EXPLORRTIDN
RICHFJELD PRWERTY
VECTOR PULSE ELECTROMRGNETOMETER
HDR I ZON TAL COMPON EN T
LINE
50s
D
.
N T .S. 93-L/gid
GEOPHYSICRL COHSULTING
E SERVICES LTD.
DATE 2D YVEAXR 1979
ffG.NOr
98
1
LOOP D
I
1
I
1
!
i!
i
i
I
i1
COBRE EXPLORRTJON
RICHFIELD P R P E R T ' I
*ORP.P.K.
SWLE
VECTOR PULSE ELECTROMRGNETOMETER
VERTICRL COMPONENT
t
a
r
1
so
1
&
1OD
r
1
150
200
1
LINE
SGS
N. T .5.
METRES
NUMBER JN THE LINE = CHRNNR NUrlBm
G
JNSTRUXENT: CRONE P.E.M.
GEOQHYSICRL CONSULTING
& SERVICES LTD.
93-L/qid
a1
P.P.A.
COBRE EXPLDRRTION
-
SCALE
R I CHFJ ELD P R P f R T Y
VECTOR PULSE ELECTROMRGNETOMETER
HORIZON TRL COMPON EN T
1
¶
t
0
I
I
so
i
C
1nn
t
3
150
200
I
LINE
GLEN E . WHITE
NETRES
NUMSER IN THE LINE = CHRNNQ NUHBER
JMSTRUI'.IEWTI
CRONE
P.E.H.
E
50s
GEOPHYSJCRL CONSULTING
8, SERVICES LTD.
H
.T .S .
&Vi
93-U9~
23 P C W R 1878
-24
I
CDBRE
EXPLDRRTJDN
RICHF J E U P W E R T Y
tmP.P.K.
SCRLE
ELECTROMRGNETOMETER
VERTKRL COMPONENT
LINE
50s
E
VECTOR PULSE
I
t
1
0
50
1
L
1OD
r
1
13
200
I
GLEN
PIETRES
N U H I ~N THE LINE = c w m mp.;sm
JNSTSLYIENT:
CRONE P.E.H.
E. WHI TE
GEOPHYSICRL CONSULTING
& SERVICES LTD,
1 narc a
N.T.S. 9 3 - u q N
ZDVW
1873
~
m.m
101
1
1
1
I
I
1
ii
I
LOOPf
1
I
ii
I
1
I
II
I
I
t
ji
t
i
!
j1
1
1
1
I
t
- 0
ii
I
i
1
I
1
I
I
teaP.P.L.
VECTOR W L S E ELECTROMfiGNETOfiETER
HOR I ZON TRL COMPONENT
F
LINE
50s
SCIYL.
GLEN E . WHITE
HETXS
N U Y E R JN THE LINE
=
CHSNN2 h'UYd3ER
JNSIRL:*LNT; CRONE P.E.H.
GEOPHYSJCRL CONSULTING
& SERVICES LTD.
i
1
1
1
1
I
I
LOOPf
I
1
I
S
r
I
- 0
- 10
L
2
1
I
I
1
I
1
1
\‘
I
9
OR
-
COBRE
EXPLORRTION
RICHFIELD PROPERTY
P.P.K.
SCRLC
r
t
1
0
50
1
L
100
r
1
150
2ao
I
GLEN E . WHITE
METRES
NUKBER J N THE LrNE
= CHRNNEL
NLJHBER
JNSTRUirlENTr
CRONE
P .C.H.
GEOPHYSICAL CONSULTING
& SERVICES LTD.
.
N i.S.
CATC 20
93-L/gd
abmam a
FIG.NO;
103
I
I
d
COBR E €XPLORRT I ON
RICHFIELO PRUPUTY
VECTOR PULSE ELECTROMKNETOMETER
HORfZ3NTFIL COMPONENT
iINE
100s
R
GEOPHYSJCRL CONSULTING
& SER‘4KES LTO .
I
~ T aE a
FfG.NO;
m m~
104
1
I
I
I
I
1
1
I
COBRE EXPLORRTION
RICHfl€:i3 PROPERTY
VECTOR PULSE ELECTROMFIGNETOMETER
VERTICRL100s
COMPON .NT
R
LINE
..
GLEN E . WHITE
I NSTRUWENT: CRONE. P .E. N .
GEOPHYSKRL COHSULTJNG
k SERVICES LTO.
,
1
1
1
,
i
i
I
I
UDPD
I
1
t
I!
f
I
I
ii
i
J
t
i!
1
1
1
I
1
u
I I
\
I
H
5
!
I
I
!
I
i
I
1
1
1
1
I
COBRE EXPLORRTION
R I CHF 3 ELD P Z?E,? T‘I
*OR-
P.P.K.
sac
VECTOR PULSE ELECTR3EFiSNETOMETER
HD3 I ZDN T2L COMPONEN I
100s
LlNE
D
N. T .S. 23-L/9d
NUi43E9 JN THE LINE
=
CHAMEL hVi.li3ER
JEISTRUWT:
CRWE
P.E.H.
GEOPHYSICRL CONSULTING
& SERVICES LTD.
arc a
Y~WSCR la79
F1G.W;
106
1
1
1
I
I
I
I
8
7
I
6
5
4
P
3
2
1
I
1
I
1
I
I
1
1
COBRE EXPLDRRTION
t
G?
-
P.P.L.
SCaE
VECTOR PULSE ELECTRDM,~G~ETOMETER,I
VER T I CRL COKPON EN T
i
LJNE
100s
D
r
I
C
r
0
50
1
L
100
HETRES
t
I
I
1 9
200
GLEN E . !JHITE
GEOPHYSICFlL CONSULTJNG
& SERVICES LTD.
1
1
I
I
I
I
1
7/\7/v
LmP E
1
7
I
I
I
I
I
I
1
I
tmP.P.K.
SBLE
J
¶
r
t
1
0
SO
1
I
1no
r
I
1%
I
LlNE
E
103s
200
HETRES
GEOPHYSl CRL CONSULTING
8, SERVICES LTD.
&%:E
a
I”YE;CcE( 1879
fIG.KOI
‘08
t
1
1
1
\\
1
4\
2
_-------- I
.
\
H
I---
I
KJC:-
.. .
.-
.
.
~
.
..
j
_..
.
I
I
I
1
I
I
1
I
CDBRE
EXPLORRTION
RICHFJEU PRi?ERTY
r
r
J
0
SD
1
C
100
I
J
19
3
2D0
HETi3ES
&
SERVJCES LTD.
fIG.NO:
103
1
1
1
I
I
I
I
I
I
I
LOCPf
I1
1
j
1
ii
1
i
I
i
i
I
I
i!
I
t
!
1
r
I
I
I
I
1
I
I
I
I
1
1
COBRE
VECTOR
t
0
r
so
1
3
L
ion
KETRES
1
150
I
200
EXPLURRTION
PULSE ELECTR3iGGNETOMfTER
HGRIZONTRL COXPCNENT
LINE
F
100s
1
GLEN E . WHI TE
GEOPHYS I CRL CONSULT I N G
1 Ncartzo
.T.S.
i
~cmisirna
93-ucd
I
I
1
1
I
I
I
I
I
LODPf
!
1
!
6
fi
6
"
1
- 0
- 19
2i Ci-!if; ELD P i?P&?Tl
.ER-
P.P.%.
Scirtc
f
0
I
J
so
1
I
IDS
HETRfZ.5
I
150
1
200
VECTOR PULSE ELECTROMAGNETGflETE2
VERT I-CRL CCYPONENT
303s
F
LINE
GLEN E . WHITE
SEOPHYSJCRL CONSL'LTJNG
1 N.T.S.
CdTE
93-L4'4
Iu"IEIwRL Jn3
i
I
I
I
I
1
I
I
I
I
8
-
I
I
I
I
I
I
J
COBRE E X P L O R R T l G N
RICYIF J ELD P r i 2 UTI
r
t
1
n
50
I
c
1EO
r
J
150
-I
2co
VECTOR PULSE ELECTROKAGNETOMETER
HC8 IZ0N E L COMPON W T
LlNE
i 00s
H
GLEN E . WHI TE
GEOPHYSICfiL COKSL'LTING
& SERVICES L T D .
1 N.T.S.
I
I
I
i
I
93-UQu 1i
MfE 20 IEVCGO 1870
FiG.!tCt
112
I
1
c
LOOPH
1
a
8
"
4
3
1
-
10
I
1
1
I
I
J
I
I
COBRE EXPLORRTlON
VECTOR PULSE ELECTROKRGNETOKETER
VERTJCRL COMPCNENT
LINE
100s
H
GLEN E
I
\ W I TE 1 H . T . S .
93-uqd
GEOPHYSICRL CONSLILTING '1 &E; Y lcmn 1379
& SERVICES LTD.
F l t . K Z : 113
;
1
i
I
1
1
i
I
!
I
LOQPD
Ij
1
I
I
1
I
I
I
i
;
!
!
!
I
I
!
H
”
I
i
- 0
I
i
II
:
!
!
j
I
I
f
I
I
i
I
i
1
*aP.P.K.
SC&E
VECTOR PULSE ELECTRCMRGNETOHETER
HOR I ZfiS TGL COHPOiVCNT
LINE
150s
D
GLEN E . WHI TE
GEOPHYSJCRL CONSULTING
& SERVICES LTD.
1~
I
N.T.S.
93-~/0,,,
ma
i 2;c KWW
f;J.Ht:
114
1
1
1
LDOPD
1
i
I
I
I
I
I
I
I
1
1
1 1
tatP.P.K.
s a i
t
0
r
I
sa
--
.L
!dJ
2
:a
MET :E5
--
2”O
1
I
I
i
i
1
i!
I
I
L03P E
ii
1 1
1 i
1 I
I
I
I
I
!
I
I
i
I
!
!
I
i
\
I
1
I f
I
I I
I 1
I
1
i
!
,
!
I
I
t
03
-
IEL2
P 11". cii -I 11
P.P.K.
SCKE
!
i
1
1
I
i
t
n
r
I
50
L
103
METRES
r
I
1.5a
J
200
GLEN E . \JH I T E
i
I N.T.S.
33-UgU
L
I
I
!
fin-*
P.P.K.
SWE
C
0
r
I
SO
L
1oil
METRES
r
l
I50
29a
J
1
1
1
1
I
I
I
LbopP
I
8
1
I
1
I
I
{
1
1
I
I
-J
1
1
9..
.
-
COBRE EXPLORRTION
RIWJEU) PRWERIY
VECTOR PULSE ELECTROMAGNETOMETER
HORIZONTAL COMPONENT
LINE
150s
F
GLEN E . WHITE
GEOPHYSICAL CONSULTING
& SERVICES LTD.
1tt.i.s.
9wqd
MtL%16110#111rn
I
Sd
LOOPF
1
5
b
-_-
-a
4
.8
I
f
..: -
I
/'
COBRE EXPLORATJON
Rf C W J E L D PRWCRTY
TmP.P.U.
St5iL
r
0
r
4
d
+
I
so
100
VECTOR PULSE ELECTRDMAGNETOMETER
VERTJCRL COMPONENT
LINE
150s
150
200
GLEN E . WHITE
METRES
NUMBER JN THE LINE = CHRPINEL
rJUMf3ER
JNSTRWEtJTs
CRONE P.E.N.
GEOPHYSICAL CONSULTING
b SERVICES LTD.
I
!
i
i
Ii
I
!
i
I
I
e
i
I
i
,
n
5
7 3
1
1
I!
i
i!
j
i
1
I
2
iI
!
I
i
i
1
i
i
i
I!
1
j
!
i
tat-
P.P.R.
SCRLE
i
1
i
i
t
I1
ti
50
1
C
100
NEVRES
r
1
1 3
200
I
UOPH
1
1
1
I
I
r
I
1
1
1
I
I
1
LOOPH
8
<-
Y
I
i
I
I
1
I
1
I
I
RI WF I EL3 P i i P S T I
V EC T 0R
t
0
r
J
SD
L
1no
METRES
r
I
1 3
1
2~0
S r;I E. T 0 :<C T E2
VERT I CFiL C6::PONEfd T
PULS E ELEC T?.C ;.E'
LINE
3 5CS
H
1
GLEN E .
GEOPHYS I CfiL COfL' SUL T I [I G
& SERVICES LTi3.
1 FIC.NO:
Chit "9 ELSZX=l id73
I
1
121
h
I
1
1
I
1
1
I
I
t
I
!I
iI
I
i
1!
1
i
I
i
j
I i i
!
..n
H
a
H
\;H A
\
i
H
i
/
/
i
,
I
i
!
f
* M -
P.P.K.
SCFilE
!
r
I
I
i
I
!
UJPD
,
I
i
i
I
I
-J
i!
6
i
7
I
!
1
G
!
5
i
I
I
i
i
i
2
I
!
A
-
I!
I
I
I
!
!
!
I
1
I
I
I
!I
GLEN E . WHI TE
i
I
I
HEXES
/N.T.s.
I
3v9w
GEOPHYSJCRL CONSULTING I u Y
& SERVJCES LTD.
1 fIG.t;3:
-
--
3'L.-L4
.-
123
1x3
f
i
I
I
I
1
1
I
LOOP E
I
I
I
I
-
10
m
I
1
1
I
1
1
1
COBRE EXPLORRTION
R f CHF JELD PPQERTf
em-
P.P.K.
scat
VECTOR PULSE ELECTROMRGNETOMETER
HOR IZDN TRL COMPONEN T
L
a
r
I
50
f
I
1OD
ME IRES
r
3
1%
200
I
I
1
LINE
GLEN E .
200s
I
WHI TE
GEWHYS Z CRL COKSULT IN G
5,
SERVICES LTD.
.
E
N . T . S . 93-t/~&
DATE 23 Y3VCJ@W 1879
flG.h'D:
124
1-
I:
r
i
j
1
!
1
I
I
I
i
u33P E
1
i
1
1
c
1I
!
i
!
,
I
i
!
I
I
1
-2J
!
i
Ii
1
i
I
I
I
!
I
1
1
1
I
i
LINE
GLEN E ,
&
2ms
WHZ TE
SERVICES L T D .
E
1 LTS.
33-14,,,
1
1
I
1
I
I
1
1
I
!
I
I
I
i
LODPF
I
!
!
1
j
!
i
6
S
I
I
4
'1.
i
I
I
i
I
!
t
I
i
I
I
i
1
1
I
i
i
1
I
I
1
I
I
* G -
i!
P.P .I;.
SCALE
!
I
CROE: E
P.E.)?.
1
1
1
!
!
I
I
i
LOOPF
i
I
i1
!
8
i
w
I
L
6i
c
I
F
~fL
c
i
E
I
S
t
I
!
4
t
3
H
q
q
I
5
T
A
1
n
-
t-
I
I
I
i
!
\H
I
I-
1
i
I
I
i
1
4
!
I
CR
i
I
I
I
!
I
!
-
P.P.K.
swc
1i
1
1
I
I
I
\
i
!
j
I!i
I
I
i
usti
i
I
!
1
I
I
i
3
!
I
i!
i
I
t
1
- 0
iI
j
!
!
1
i
i
I
t
f
i
!
I
!
!
,
!
a
SO
1OD
HETRES
150
200
1
LINE.
GLEN E .
209s
\ M ITE
H
i
N.T.S.
s3-~/qg,
1!
1!
1I
1
i
1
1
1
1
i
i
I
1
I
LCWH
I
I
!
I
4
6
i
j
sa,
fi-
.
.
j
i
i
I
I
I
I
i
1
i
I
i
i
I
I
1
1
J
I
1
I
!
I
!
I
I
I
i
!
1
COBRE
I
I
EX?LORSTIGN
i
em-
I
f.PA
SCCTC
VECTOR
i
L
n
I
J
sn
I
L
1OD
HETRES
r
i
150
i
200
PULS E
EL EC TZC XFi G h! E 7 0;/IF, TCR
VERTICLL CZPP3NENT
LJNE
GLEN E .
200s
H
\/!HITE 1 N.T.S.
,
s~-L/~+J
1i
1
1
1j
1f
1
11
1I
1 Ii
I
1
I
I
LOOPD
I
i
I
G
G
I
n\
V
n
5
H
n
H v
4
!
I
I
i
j
I
Ii
- JO
!
I
I
!
I
1
!
!
I
I
I
1
1i
1
1
1!
1
1
I
i
!
M
I
P.P.K.
i
-
SCAE
,
I
GLEN E . WHITE
N. T.S. 53-L/ccJ
i
i
I
I
I
!
LOOP0
1
!
1
i
1
I
1
I
!
I
1
I
4
I
iI
i
I
3
1
I
2
i
I
i
!
!
1
iI
I
I
1
I
I
I
!
!
i
!
C03RE EX?LU22TIDN
I
i
I
i
.m-
RZCHFJELD P W E X T Y
P.P.K.
SCALE
!
iI
I
!
1
i
t
r
0
50
1
100
flETRES
I
1%
200
VECTOR PULSE ELECTRW8S::ETCr,CTER
VER I CRL COlYPON EN ?LJNE
250s
C
r
I
GLEN E . WHT TE
S . T . S . S ~ - L / ~ iIJ
GEOPHYSJCRL CONSULTING
8, SERVICES LTD.
,
I
a r c 2~ g w s m 1913
!
FIG.Ni3: 131
11
1
1
1 ii
9
r
!
!
I
i
UWP E
1
I
,
i
I
i
!I
1
!
1
j
I
i
1i
t
I
!
I
i
I
!
!
-2J
I
j
I
f
rLINE
i
253s
E
....
1
1
I
I
I
I
I
I
I
WPE
i
I!
1
I
1
I
I
I
I
I
7
i
i
j
I
I
i
!
I
I
4
3
2
1I
I
I
I
I
J
,.
I '!*
I
r
-
i
1
I
i
I
!
i
I
I
I
I
I
1
I
i
i
i1
i
i
1
1!
I
1
I
i
I
I
i
METRES
1
1
I
I
1
L W H
1
I
I
8
3
6
4
.--
4
1'
COBRE EXPLORRTION
I
I
1
I
.at-
RICHFJELO PROPfRTY
P.P.K.
SCFLL
VECTOR PULSE ELECTROMAGNETOMETER
'
HOR I ZON TAL COMPONENT
LrNE
250s
H
,
0
50
100
150
200
GLEN E . WHITE
METRES
NUMBER IN THE LINE
= CHANNEL. EtUMBEJ?
JNSTRlMWTi
CRONE P.E.H.
GEOPHYSlCAL CONSULTING
& SERVICES LTD.
~ H . T . S . 93-vw
I
21 8 W W R
ffC.NDi
t6i.
134
I
Lawn
1
I
I
I
COBRE EXPLORRTJON
1
.m?.PA
SGU
I
1
I
t
t
I
0
50
1
I
100
r
J
1 3
VECTOR PULSE ELECTROMRGNETOMETER
VERTJCRL COMPONENT
250s
LJNE
H
1
200
- GLEN E . WHITE
METRES
!
NUfli3ER
JN THE LINE = CHRNNEL
GEOPHYSlCRL CONSULTJNG
hVflt3EX
JNSTRUMWTi
CRONE P.E.H.
&, SERVICES LTD.
IN.T.s.
9 3 - v ~ ~
OCITE 21 IOVU'W3 W 8
FIG.NDt
135
1
1
I
I
I
I
LOOPD
1
Y
U
1
I
I
H
3
-0
-\
H
I
I
1
I
I
I
COBRE
EXPLORATION
RICHFJEU) PROPERTY
*aP.P.K.
S%lE
1-
-
VECTOR PULSE ELECTROMRGNETOMETER
HORJZDNTRL COMPONENT
300s
0
LINE
r
i
GLEN E . WHI TE
METRES
NUMBER
IN
THE LINE
= CHRNNQ N U H X R
JNSTRUICNT;
CRONE
P.E.N.
GEOPHYSICRL CONSULTING
I SERVICES LTD.
I
I
N.T.S.
93-v9u/
MrC2u ‘mR’*d
flt.NUt
136
1
I
1
1
LCCPD
I
I
I
I
I
1
H
H
4
II
I
I
I
I
1
COBRE EXPLORRTJON
RICHFJELD PRaPUZTY
VECTOR PULSE ELECTROMRGNETOMETER
VERT1 CRL COMPONENT
300s
0
LINE
N.T.S.
HETRES
GEOPHYSICRL
NUMBER
IN
THE LfNE
=
CHRNNO, hWMBER
CONSULTING
L SERVlCES LTD,
JNSTRWWT; CRONE P.E.H.
.
93-uqrJ
ORTE 20 UOVWfX tsls
fIG.NOt
. .
137
~.
1
1
1
1
1
1
..
I
nJ
-
__+_-.-.
.
?
E-..
,
.
. . .
. d'
I
WPH
*'
I
COBRE EXPLORRTION
RICHFJEUI PRCKRTY
+utP.P.R.
SCrrE
VECTOR PULSE ELECTROMAGNETOMETER
HOR I ZCJNTAL COMPONEN I'
LINE
300s
H
I
200
GLEN E . WHITE
HETRES
NWER
JN THE LINE
C W N N E L NUNBER
JNSTRWWTt
CRONE P.E.H.
GEOPHYSJCAL CONSULTING
& SERVICES LTD.
N.T.S.
93-uqv
mrt a
II~VWIUL 1978
'fIG .NOt
13
*
I
I
1
UOPH
i
!
I
t
!
I
1
1
6u
56
:
iI
45
.
I
i
3
I
I
1
I
I
I
1
COBRE EXPLORRJJON
tat-
Rf CHFJELD PRWERTY
P.P.K.
SMU.
t
?
I
0
50
1
c
1on
t
I
150
J
200
METRES
NVMBER JN THE LINE = CHRNNEL NUIIBER
JNSTRLKNTs CRONE P.E.M.
VEZTOR PULSE ELECTROMAGNETOMETER
VERTJZAL COMPONENT
L JNE
300s
H
1
GEOPHYSJCRL CONSULTJNG
GLEN E . WHT TE
& SERVICES L T D .
N.T.S.
93-~/9u
c4vmtR
f I C .ND t
139
I
I
I
1
I
I
I
I
1
COBRE EXPLORATlON
RICWJEU) PRWERTY
ta-
P.P.K.
VECTOR PULSE ELECTROMAGNETOMETER
HORIZONTRL COMPONENT
LINE
400s
G
3-
GLEN E . WHITE
METRES
GEOPHYSICRL CONSULTING
NUMBER JN THE LINE = CHRNNEL NUMBER
JNSTRUMWTI
CRONE P.E.H.
& SERVICES LTD.
1
W.T.S.
93-V9~
WE a IavcnBER 1819
FIG.NO1
140
1
1
1
1
1
I
I
I
LOOP C
1
5
4
3
- 0
I
*aP.P.K.
ScaE
t
0
I
1
J
t
t
I
so
too
150
NUMBER JN THE LINE
= C H R N N E NUHBER
I
1i GLEN E . WHI TE
J
200
JNSTRLNWTi
RfWJELD PROPERTY
VECTOR PULSE ELECTROMRGNETOMETER
VERTICAL COMPONENT
LJNE
400s
G
METRES
i
COBRE EXPLORATION
CRONE P.E.N.
GEOPHYSICRL CONSULTJNG
& SERVICES LTD.
I
N.T.S.
mlf
93-v9V
1 UbVMBcR 1819
f iG .NO t
14 I
I
COBRE EXPLORRTlON
*a-
RICHFJELD P W E R T Y
P.P.K.
sc3LE
I
t
I
0
50
1
r
100
t
I
150
VECTOR PULSE ELECTROMAGNETOMETER
HORIZONTAL COMPONENT
G
LINE
500s
J
I1 GEOPHYSICRL
GLEN E . WHITE
CONSULTING
200
HETRES
I
NUMBER IN THE LrNE =
wtwa
NUNBER
JNSTRUMWTt
CRONE
P.E.H.
I
&
SERVICES L T D .
~N.T.S.
I mfE a0
muqw
BQVOMR 1m
fIG.NO1
142
1
1
1
!
I
i
I
LOOPG
[
iI
I1
!
Ii
!
i
I
i
I
1I
- 0
I
I
I
I
1
1
(I
COBRE
*
EXPLORRTlON
RICHFJELD PROPERTY
I
0
I
I
so
I
c
100
I
1
190
200
I
VECTOR PULSE ELECTROMRGNETOMETER
V E R T I C R L COMPONENT
G
LINE
500s
GLEN E . WHI TE
METRES
NUMBER
I
IN
THE LINE
= CHRNNEL rWHEER
1NSTRWWTt
CRONE P.E.fl.
GEOPHYSlCRL CONSULTING
9, SERVICES L T D .
I
I
N . T . S . 9341911
OAK U #8VEhBm Jm9
fIG.NOt
143
1
1
I
i
LOOP J
I
i
i
I
I
11
I
1 i
1
1
iI
1
i
- 0
H
j
tl/
/
!
i
A
-20
I
i
i
i
I
d
I
!
I
!
!
,I
II
+ eR
-
COBRE
EXPLORRTION
RICHFIELD PRWfRTY
P.P.K.
fPAL
VECTOR PULSE ELECTROMAGNETOMETER
HOR 1ZON TRL COMPONENT
LINE
500s
I
,.
D
50
1OD
150
200
1
GLEN E . WHITE
METRES
NUMBER
IN THE LINE = CHANNfL N U H X R
JNSTRLlMENTt
CRDNE P .E.H.
GEOPHYSICAL CONSULT1N.G mrt 20 I
FIG.NO8
& SERVICES LTD.
~
E
R
in8
I44
I'
1
1
1
1
c
I
LOOPJ
8
I
7
6
1
1
.*-.
5
4
3
2
I
1
I
1
1
1
1
t
COBRE EXPLORRTION
RfCHfJELO PROPERTY
-.-
r
t
I
0
50
1
C
1on
P
I
1 9
1
200
IIETRES
I
VECTOR PULSE ELECTROMAGNETOMETER
VER T I CRL COMPON ENT
500s
f
LJNE
GLEN
E . WHI TE
,
GEOPHYSICAL CONSULTJNG
NUMBER JN THE LINE
= CHANNEL
ESUHBEFI
JNSTRUMENTt CRONE P.E.H.
& SERVICES LTD.
~ N . T . s93-uqw
. .WTC 20 #OVC?lUtR JCn#
f1G.m:
145
1
1
1
1
.
\
I
COBRE
I
*m-
1
LOOPG
EXPLORRTJON
RICHFIELD PROPERTY
P.P.K.
S"AE
t
I
t
so
0
i
&
100
VECTOR PULSE ELECTROMRGNETOMETER
HORIZON TRL COMPONEN T
G
LINE
600s
r
J
1 9
200
GLEN E . WHITE
METRES
Nmam
IN THE LINE
=
CWWNEL NUMBER
f GEOPHYSICRL CONSULTING
JNSTRLHENT:
CRDNE P.L.W.'
1
8, SERVICES LTD.
m x ZI n m m tm
ffC.NOt
146
1
1
1
1
I
1
LOOPG
I
I
1
1
a
1
I
I
I
1
COBRE
EXPLORRTJON
RICHFJEU) PRWERTY
t
t
I
0
50
i
I
100
*
150
I
'JECTOR PULSE ELECTROMRGNETOMETER
VERTICAL COMPONENT
LlNE
600s
G
1
200
GLEN E . WHITE
METRES
NUMBER IN THE LINE
= WNNa
NUHBER
GEOPHYSJCRL CONSULTING
JNSTRLMWTt
CRONE P.E.H.
& SERVICES LTD.
N. 1 .s
mtc
24
.
93-L/9w
I m c A ma
FIC.Nd*
'47
.
I
8
R
R
1
MOP 6
R
7
6
5
I
COBRE EXPLORATION
I
1
1
1
RICHFIELD PRWERTY
tmP.P.K.
S Z U
r
C
J
so
0
1
1
100
t
I
150
VECTOR PULSE ELECTROMAGNETOMETER
HORJ ZON TRL COMPONENT
LINE
700s
G
d
200
GLEN E . WHITE
HETRES
NUMBER J N THE L m E
=
CHRNNEL NUHBER
JNSTRLMWTi
CRl3NE P.E.H.
GEOPHYSICRL CONSULTING
& SERVICES LTD.
I
I
N.T.S.
93-U9y
DATE 20
f l o v w a ¶818
FfG.NOi
148
1
1
I1
1
1 I1
i
1 1
I
LOOP 6
1
8
7
I
6
1 Ii
5
I
4
i
3
iI
I
1
2
\\
i
!
\w
J
I
I
1
!
!
1
I
I
I
i
I
1
1
iI
1
i
1 I
COBRE EXPLORRTJON
RZCHFJRD PROPERTY
*aP .P.K.
SGU
I
I
t
0
sa
r
I
C
100
J
J
1
s
GLEN E . WHITE
METRES
*i
I
*
J
VECTOR PULSE ELECTROMAGNETOMETER
VERT I CRL COMPONEN T
G
LINE
703s
NUMBER J N THE LINE
= CHRNNEL NUHBER
JNSTRVMWfi
CRONE P.E.H.
GEOPHYSICRL CONSULTING
IL SERVICES LTD.
LbOP I
I
I
i
I
i
i
tI
4
!
i
5
i
4
s
W
B
U
I
i
1
i
II
I
-
J-
I
i
i
i
!I
I
I
iI
I
iI
II
COBRE
em-
RICHFJELD PfUJPERfY
P.P.K.
S a t
1
1
so
y
L
1OD
1
150
VECTOR PULSE ELECTROMAGNETOMETER
HOR IZON TAL COMPONUJ T
LINE
700s
J
J
200
GLEN E . WHITE
METRES
I
L
EXPLORRTION
NUHBER IN THE LINE
CHFiNNO, NUflBEf?
JNSTRtlMWT:
CRElNE P.E.H.
GEOPHYSICAL CONSULTING
& SERVICES LTD.
~ N . T . S . 93-vqU
I
mn a I
~ Q tofs
I
fIG.NOt
150
1
I
I
r
LOOP
I
1
.nJ
___
..- -
,_
L.
-
__
..,_.- .
&,--
I
'
.I__
..*'
. ------.
COBRE EXPLORRTJON
RICHFJELD P i W E R T Y
tat-
P.P.K.
SCXC
t
c
J
so
0
d
L
100
h
#
150
1
200
HETRES
NUHP€f? JN THE LINE
=
CHRNN€L NUPGKR
JNSTRWENT~ CRONE P.E.H.
VECTOR PULSE ELECTKOMAGNETOMETER
VERT I CRL COMPONENT
700s
1
LJNE
GLEN E . WHI TE
GEOPHYSJCRL CONSULTING
& SERVICES LTD.
(N.T.s. 9 3 - ~ 9 1 J
atlt ZI COVRUEP 1319
FIG .NO t
151
r
LOG? J
I
I
i
I
!
i
I
4
i
-
i
j
.
I
I
I
i
I
i
-20
I
)
I
I
i
i
If
COBRE EXPLORATION
i
I
Tm-
RICHFJELD PRCIF'ERTT
P.P.L.
SXE
VECTOR PULSE ELECTROMfiGNETOMETER
HOR J ZON TRL COMPON EN T
LINE
700s
J
i
i
i
i
I
t
t
I
0
so
t
6
100
150
200
GLEN E . WHI TE
METRES
NUMBER JN THE LINE = UiRNNEL NUflBfR
GEOPHYSICAL CONSULTJNG
JNSTRWENT8
CRONE P.E.H.
& SERVICES LTD.
1
N.T.S. 9 3 - ~ 9 d
mtL 20 u m m 1939
FIG.NOt
152
1
1 I
i
1
1
1
Ii
1
I
I
1 i
I
1 I
I
I
I
1
I
I
i
i
!
i
i
I 1
i
1
1
COBRE
em-
I
P.P.K.
EXPLORRTJON
i?fCHfJEtD PRDPCRTY
i
SMCL
t
L
1
0
so
'1
L
1OD
r
1
150
200
I
VECTOR PULSE ELECTROMRGNETOMETER
VERT J 3RL SOMPONEN T
I
LINE
700,c
3
t
I
HETRES
NUMBER JN THE LfNE = CHRNNEL NUHXR
JNSTRLMENTt
CRONE P.E.W.
GLEN E . *WHITE
I GEOPHYS I CRL
1
CONSUL J I NG
& SERVJCES LTD.
V
1
1
1
1
1
1
I
1
LDOPG
/
8
7
6
I
S
4
3
/
- 10
2
1
1
I
I
I
I
1
1
COBFiE
EXPLORRTJON
RfCWJELD PROPERTY
rmP.P.L.
StRLL
VECTOR PULSE ELECTROMRGNETOMETER
HORIZONTRL COMPONENT
800s
G
LINE
*
J
t
0
GLEN E .
METRES
NUMBER J N THE LINC = CHRNNEL NUHBOi
INSTRUMENTS WZONL P.E.H.
WHJ TE
GEOPHYSJCRL CONSULTING
& SERVICES LTD.
~ N . T . S .93-uw
mrc 20 v m m 1579
FfG.NO:
154
1
1
1
1
1
1
1
I
.
1
1
1
1
1
-._
I::
COBRE EXPLORRTION
8I CHF J ELF, t RWERT Y
tmP.P.L.
WC
I
J
1
I
\
1
LOOPG
t
t
i
I
I
0
50
I OD
r
1
150
200
I
METRES
NUMoER J N THE I I N € = CHANNEL NWEIER
1
-
JNSTRUMEWTt CRDNI: P.E.H.
VECTOR PULSE ELECTROMACN€TOMETER
VERT JCRL COMPONENT
8COS .
G
LINE
GLEN E . WHJ TE
GEOPHYSICRL CONSULTJNG
& SERVICES LTD.
IN.T.~.
I
9344w
mtc 20
U O v ~ c a1978
FIG.NOa
155
v
1
1
1
1
1
1
I
LOOP I
72,
CI
I
\
I-
I
5
..
V
U
- 8
-
20
I
1
I
1
1
COBRE EXPLORFITION
RICHFJELD PROPERT'I
?aP.P.K.
S G U
VECTOR PULSE ELECTROMAGNETOMETER
HOR I ZDN TAL COMPONENT
LINE
800s
I
1
1
METRES
NUMBER J N THE LINE
= I2U3MJfL
E
N
H
B
a
GLEN E .I WHITE
GEOPHYSICAL CONSULTING
& SERVICES LTD.
IN.I.s.
W E 24
fIG.NCJI
93=~4t
JQIB
156
1
1
1
-
18
CQBRE
EXPLORRTION
RICHFJELD PRfJPfRTY
*
t
.
I
so
0
d
b
1OD
r
J
1%
200
I
VECTOR PULSE ELECTROMRGNETOMETER
VERTJCAL COMPONENT
LJNE
800s
IN.T.S.
METRES
NUMBER JN THE LINE
=
CHFlNNQ. NU1-18ER
JNSTRLB1WT:
CRONE P.C.H.
GEOPHYSICAL CONSULTING
8, SERVICES LTD.
93-vgW
OllfC 2a IbV0BI;R 1819
ffG.NOt
157
P
1
1
1 1
I iI
r
I
1
LOOPJ
1
I
1
I
!
i
t
1
!
73
.
7
!
2
1
I
.-.
1
H
f
CDBRE EXPLORRTJON
*Ea-
RIWJELD PROPERTY
P.P.&.
SIhL
r
0
I
4
1
c
so
100
t
I
150
VECTOR PULSE ELECTROMRGNETOMETER
HOR IZON TAL COMPONENT
LINE
800s
3
3
200
GLEN E . WHI TE
METRES
NUMBER JN THE LINE
= CHRH'NEL wmm
JNSTRUMEEITt
CRDNE P.E.H.
GEOPHYSICAL CONSULTJNG
& SERVlCES LTD.
~N.T.s. 9 3 - u ~ J
mrc 20 ~(JVIIMIRJ ~ O
FIG.NO8
158
r
1
1
1
I
I Ii
LOO?J
1
I
1 i
1
1 I
1 i
1 1
6~
1:
6
ii
U
6
I
I
i
i
i
i
c
i
1
t
iI
i
I
i
I
I
1
i
1
C03RE EXPLflRATlON
I
FUWJELO PRWERTY
VECTOR P'JLSE ELECTROMRGNETOMETER
/UT
CAL CCIMPONENT
LINE
800s
J
I
1 I
I
1
Ii
r
I
0
50
1
L
1on
t
1
J
150
200
GLEN E . WHI TE
METRES
1
I
t
t
NUMBER JN THE LINE
= CHRNNEL
NUHBER
I N.T.S.
93-~/q,,,,
GEOPHYSJCRL'.CONSULTING I MtL3) loVclB0 187,
INSTRWWTt CRONE P.E.H.
1
1
1
r
1
LGW J
1
1
H
TIBRE EXPLORRTION
CI
RICHFJELD PROPUZTY
e m -
P.P.K.
s-XL
t
I
1
1
I
so
0
i
L
100
r
VECTOR PULSE ELECTROMRGNETOMETER
HORl ZON TRL COMPONENT
LINE
900s
J
1
1
150
200
GLEN E . WHITE
METRES
NUMBER
JN
THE LINE
=
WNEL
mnam
JNSTRVHWTi
CRONE P.E.H.
GEOPHYSICRL CONSULTING
8, SERVICES LTD.
[N.T.S.
93-~9@
mn a ~~m
FIG.NtJr
1978
160
1
1
I
I
I
I
1
1
1
UCP J
1
6
5
,
4
3
2
I
J
COBRE
EXPLORATION
RICHFJELD PRCJPERTY
r
t
1
J
t
C
0
so
I
100
150
1
200
METRES
NUMBUi I N THE LINE = CffiNNEL NUMU?
JNSTRUHENTI CRDNJE P.E.M.
VECTOR PULSE ELECTROMRGNETOMETEX
VERT I CAL COMPONENT
LINE
900s
J
GLEN E . WHITE
GEOPHYSICAL CONSULTING
t SERVICES LTD.
I
I
N.T.S.
W1L 28
93-vqW
uavf?l$wtofa
fIG,NOt
161
I
1
1
1
1
1
1
I
1
UJWJ
1
7
6
5
4,
L
2
L
1
1
J
1
I
1
COBRE EXPLORRTJON
RICHFJELO PRBERTY
em?.?$.
VECTOR PULSE ELECTROMAGNETOMETER
HORIZONTAL COMPONENT
J
LINE
1000s
9CIILL
t
t
J
0
SO
1
L
1OD
r
J
150
1
200
GLEN E . WHI TE
flE IR€s
NUHBER
J N THE LINE = CHANNEL NUnBff?
JNSTRUIUITt
CROM
P.E.H.
GEOPHYSICAL CONSULTING
& SERVICES LTD.
I
I
N.T.S.
9 3 4 1 ~
aL
m
FfC.NOs
162
rnK
ma
I
LOOPJ
1
I
1
1
1
1
1
1
COBRE EXPLORRTJDN
RICHFJECD PROQERTY
t
I
J
0
so
I
t
I
100
150
VECTOR PULSE €LECJROMRGNETOMETER
V E R TI C A L COMPONENT
LINE
1000s
J
1
200
GLEN E . WHI TE
tl€ TRLS
NUHBER JN THE LINC
=
CHAMEL. M))IILI€f?
JNSTRWLNTI
CRLHsf P.C.H.
1
N.T.S. 9
3
~
9