PDF Report
Transcrição
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?.?$. VECTOR PULSE ELECTROMAGNETOMETER HORIZONTAL COMPONENT J LINE 1000s 9CIILL t t J 0 SO 1 L 1OD r J 150 1 200 GLEN E . WHI TE flE IR€s NUHBER J N THE LINE = CHANNEL NUnBff? JNSTRUIUITt CROM P.E.H. GEOPHYSICAL CONSULTING & SERVICES LTD. I I N.T.S. 9 3 4 1 ~ aL m FfC.NOs 162 rnK ma I LOOPJ 1 I 1 1 1 1 1 1 COBRE EXPLORRTJDN RICHFJECD PROQERTY t I J 0 so I t I 100 150 VECTOR PULSE €LECJROMRGNETOMETER V E R TI C A L COMPONENT LINE 1000s J 1 200 GLEN E . WHI TE tl€ TRLS NUHBER JN THE LINC = CHAMEL. M))IILI€f? JNSTRWLNTI CRLHsf P.C.H. 1 N.T.S. 9 3 ~ 9
Documentos relacionados
971124178 W7X7Y714 26lm0no48 32417 u2 87l57l7
595A53B>5067=7@50E5C7?5@A70650=77@=7AK>5067@=:"M:>:=:H3CBA:8*LM**>B0/=7=B: *.,-*,+*-.:6G_@*L8**M/=7=B:+*,-*,+*-./$:6:=5:3596K9:=7@50E5C7?5@8+*,-*,+*-._@ -*M**>B0/#7A:C8...
Leia mais