SCIENTIFIC ABSTRACT SHRAMKO, L.S. - SHRAMKOV, YE.G.

Automatic Regulating and Control (Cont.) SOV/3317 mechanisms, are also eXplftined. Some considerdtions regarding possible ways of automating butt welding in a random direction are presented. The authors of this collection are all. Instructors in -the department of "Automation and Remote Control" at MVTU 1-nieni Batman. The articles are based on scientific research work conducted by the department during the last five years. Some personalities are mentioned In each article. References are given after each article. TABLE OF CONTENTS: Ulanov, G.M., Doctor of Techaical Sciences. Development of the Invariancy Principle and of the Theory of Combined Systems of Regulation and Control According to the author, the theory of in-variancy constitutes the c)asis of the theory of combined automatic systemE which depend on two principles: 1) regulation and control as a function of deviation; 2) regulation and con-~~rol as a function of load. Mathematical problems of invariancy were developed in the Soviet Union by N.N. Luzin and P.I. Kuznetsov in 1945-1946- In 1948 Academician V.S. Kulebakin established conditions of invariancy with an accuracy up to the free component. Professors A.G. Ivakbnenko, Card 2/7  =- - Oug Automatic Regulating and Control (cont.) SOV/3317 A.J. Kukhteriko and other Ukrainian Q_cien+,Ists contributed much to the advance- ment of the theory and methods of deo,_loping combined systems of alltOMatic regulation and control. A tendency to uaite the problems of combined systems and of self-adjusting systems appears in the works of V.V. Solodovnikov and A.M. Batkov (1956). The author summarizes the basic ideas of the Soviet scientists on the above problems. Bibliography Shr3mko, L.S., Candidate of Technical Sciences. Problem of Self-adjusting 14 S"tuffig- 15 Th_- author investigates some a-,c systems which develop an error signal of the type Ue't) cosca,t . This signal, amplified and con- verted accordingly, ils used for the control of certain actuating units (frequently, two-phase induction motors). There are two ways of converting this error signal: 1) with demodulation preceding the conversion of the a-c signal; 2) ,without intermediate demodulation The author considers systems of the second type the more advantageous because of the absence of additional demodulating and modulating devices. Card 3/ 7  6 r- t i~' U, -; . ) - AIXMROV, V.P., inzh.; ATOVMYAN, 1.0., inzh.; ZUYEV, V.I., inzh.; KAVUN, Ye.S., kand.tekhn.nauk; KOGAN, B.Ya., kand.tekhn.nauk; KOPAY-GORA, P.N., kand.tekhn.nauk; KULAKOV, I.I., inzh.; LEBEDEV, A.H., kand. tekhn.nauk; PAPERNOV, A.A.. doktor teklLi.nauk; PELIPOR, D.S., doktor tekhn.nauk; PLOTNIKOV, V.N., kand.tekhn.nauk; RLTZSKIY, Yu.Ye., kand.tekhn.nauk; SOLODOVNIKOV, V.V., doktor tekhn.nauk; TOPCH19YEV. Yu.I., kand.tekhn.nauk; UI.ANOV, G.M., kand.tekhn.nauk; :IHHAMKO,-L-.S-.-y-kand.tekhn.nauk; DOBROGURSKIY, S.O., doktor tekhn. nauk, retsenzent; KAZAKOV, V.A., kand.tekhn.nauk, retsenzent; PETROV, V.V., kand.takhn.nauk, retsenzent; KRAVKIN, G.A., inzh., retsenzent; SOLODOVNIKOV, 7.7., prof., doktor tekhn.nauk, red.; VITENBERG, I.M., kand.tekhn.-nauk, nauchnyy red.; MOLDAVER, A.I., kand.tekhn.nauk. nauchnyy red.; Ka-TAGUROV, Ya.A., kand.tekhn.nauk. nauchrxyy red.; POLYAKOV, G.F., red.izd-va; KONOVALOV, G.M., red. izd-va; SOKOLOVA, T.F., tekhn.red. [Fundamentals of automtic control] Osnovy avtomaticheskogo reguli- rovaniia. Vol.2. CElements of automatic control systems] Elementy sistem avtomatichesko.-o regulirovaniia. Pt 2. ECompensating elements and computer components] Korrektiraiuahchie elementy i elementy vychislitel'nykh mashin. Moskva, Gos.nauchno-tekhn. izd-vo mashinostroit.lit-ry. 1959. 4,43 P. (MIRA 12:4) (Automatic control) (Electronic apparatus and appliances) (Electronic calculating machines)  kand.tekhn.nauk Self-adaptive systems. [Trudy] MVTU no.97:15-22 159. (MURA 13:5) (Automatic control)  SOLODUMIYOV, V.V., daktor tekhn.nauk, prof.;-SHRAMKO, L.S., kand.tekhn. nauk, dotsent "Fundamentals of the automation of technological processes" by M.Maizel'. Reviewed by V.V.Solodovnikov, L.S.Shrainko. Kozh.- obuv.prom. 3 no.9:37 S '61~ (MIRA 14:11) (Automation) (Maizell, M.)  I   -A U ---)-Lo~ o7 tre ter: aij-cri;ic reacdon ol' ~'-,e sl:in cal-~ JiVer tO tiC ZDT-~C~ l-'-': rc,;C-arch). O-cssa, 19-'~7, Suire Lea 2-1:1. I.T. 1. ~~Ju conic--. 4L), 1-157, p. (1-1~6)  Case of ascarids immobilized in the esoohagus. Med.Daraz. i oarez. bol.supplement to no-1:74-75 '57. (MIRA 11:1) 1. Is kafedry patolo.gicheskoy anatomii VinnitskoEa maditsinskogo insti-tuto (ASCARIDS A14D ASCARIASIS)  &"KO, N.P., RYBINIX, I.M. Anuria cEoised by thrombosis of the renal artery. Urologiia 23 no-5:62-63 S-0 158 (MIRA 11:11) 1. Iz kafedry patologicheskoy anatomii (zav. - dotsent N.V. Konstanti- novich) Vinnitskogo meditsinskogo inatituta i urologicheskogo otdeleniya (zav. I.M. Rybinnik) Vinnitskoy oblastnoy bollnitey (nauchnyy rukovoditell - dotsent M.7. Pinevich)~- (ANUIA, etiology& pathogenesis throbosis of renal artery (Rus)) (KMNEYS, blood supply thrombosis of renal artery causing anuria (RUB)) (THROMBOSIS, case reports renal artery, causing anuria (Rus))  SHIWIDWO V. P.-,_jamd.med. nauk (Vinnitsa; ul.1 Maya, d.14.0) Hemorrhagic gangrene of the entire small intestine due to tuberculous pylethrombosis. Nov. khir. arkh. no.4:99-101 Jl-Ag 161 Nl~,A 15*2) 1. Kafedra patologicheskoy anatomii (zav. - doktor med.nauk H.V.Konstantinovich) Vinnitsko-o meditsinskogo instituta. (WERIS-TUBERCULOSISI (111TESTINES DISEAShS)  KONSTANTINOVICH, 11. V., prof.; GOMFMO, I* P., kand. med. nauk; SHRAMNO, N. L., kand. med. nauk; ZHABIN, V. I., dotsent Frequency of metastases of uterine cancer into the ovaries Akush. i gin. 38 no.3:74-78 My-Je 162. (MIRA 15:6i 1. Iz kafedry patologicheskoy amtomii (zav. - Prof. N. V. Konstantinovich) i kafedry akusherstva i ginekologii (zav. - prof. M. K. Ventskovskiy) Vinnitskogo meditsinskogo instituta imeni N. I. Pirogova. (UTERUS-CATICER) (OVARIES-CANCER)  'v- I -, " '. , --.1, 1 SHaAMKO, O.S. (Rostov-na-Donu). -,-, Using models in arithmetic classes of grades 5 and 6. Mat. v shkole no.2:59-64 Mr-Ap 158. (MIRA ll.-2) (Arithmetic--St-udy and teaching.)  - SlaAllKO,.,O.S. (Rostov...rA-Donu) Teaching mathematics in grades five and six. I-lat. v shkole no-3:11-13 Mly-je t62. (MIRA 15:7) (Mathematics-Study and teaching)  DANIL(i'll, 'L',Y;-. "K., Yu.A. lKruhliak, IU.O.]; TOLI'YGO, ?.B.['rolpyho, K.B.]; SIJIFJ'~L.11'1:01 C.U. - - - .. .... I Sta'Llstical. analysis of a protein text. Dop. AN nc~~5;~27-63,0 1 f,5. (alli-1-1. 18: 5) 1. Institut flzicheskoy 1-himii ANT U,!=SSR.  17~ J e 1-1 f, rj 311 r 111, of ro. r o I.- a i -.9 o ba s p s r -)f DINIP -rd the ~jC ~-pontlanrous mutations cn--,n.Etcte:! 4-aut L -me 16.5. n3-- r- 4 7n " 4 AN  of t-fle of prctm~ 11 TI, r_-yl U 'N SEER 1~3 Ag (MIRA 1-0-8) T tLj i~ f k uy kh im i im sarz hew ka o AN UkrS SR.  KRUGLYAK, YU.A.; DANILOV, V.1.1 SHRAMKO, G.V. System of nuclaic acid base pairings. Biofizika 10 no-3; 399-403 165. (MM 18811) 1. Institut fizicheskoy khimii imeni Pisarzhevgkoga AN UkrSSR, Kiyev. Submitted July 28, 1964.  on be t~ en ad ja cen-. I no a :~ i a r L- -i.~ r: a 1no ,e , n s 1. All SSSP, --i'O nc-5:119'---~cll F 18 2 T 7~-, tu zicheskov k?1im! m . L.V~~ pisa-r!In e v-Kovo "krSER.  7 ! &,I-p,,It of Tan-~,led Fi -s in Vie for of Lo..;erim:7 th ra t o ~j :)f, Anpar_~_. - I-T-P. LK-7 Flax Co,,ildnp.ll Vlin of FiE-her Elu,~ation. p 1, U.- J tions -for Dr-jree of (7--iss r,~ r ta 14 ,a of Te C'p,,.14 nd Sci~nces) .-. 26, June 19,55, "Osco-,.- S(): Knjzhn-aya TE!topiSt :T_.  SHYUMO,_ P~p - ------ -) Phosphorites in the northwestern Donets Basin. Geol. zhur. 20 no. 3:79-81 160. (MIRA 14:4) (Donets Basin--Phosphorites)  ------SHBAMKO,-P-P.; LEPCHENKO, G.Ya. (Ioepchenkol H.IA.1 Dyr-mogran:Lte and ite enclosing rocks in the Delovoye ref~on)of Transcarpathiae Geol. zhur. 2D no. 5:56-60 160. (MMA . :1 (Transearpathia-Granite)    L 14445-66 EWT(d)/EWP(h)/EWP(l) ACC NR: AP6002966 SOURCE CODE: UR/0286/65/000/024/0134/0135 INVENTOR: Chelishchev, B.*A.; Shramko, V. D.; Kokorev, V. I.- ORG: none TITLE: A manipulator for holding and transferring worlepieces. Class 49, No. 177256 [announced by the Experimental Scientific Research Institute for Construction of Stamping and Forging Machines (Eksperimentallnyy nauchno-issledovatellskiy institirt kuznechno-pressovogo mashinostroyeniya)] SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 24, 1965, 134-135 TOPIC TAGS: material handling, remote handling equipment, pneumatic servomechanism ABSTRACT: This Author's Certificate introduces a manipulator for holding and trans- ferring workpieces. The device contains a stand made in the form of a column which is connected to the tong assembly through a system of hinged levers, e.g. by vacuum suction devices equipped with a pneumohydraulic servodrive and a pneumatic programmed remote control system. The manipulator is designed for picking up and transferring workpieces to any point within its servicing radius and orienting them in the proper Card 1/3 UDC: 621.86.062  L 14445-66 ACC NR: AP6002966. ,position. The tong assembly is connected by levers to a transverse member mounted in the column so that it can be moved in the vertical direction. The lever system ,is equipped with a chain drive with sprockets mounted c;n the hinged axles in the :system. These sprockets may be used for individual control of each lever and for .orienting the tong assembly in the proper position. ;SUB CODE: 13/ SUBM DATE: 27Dec63 Card 2/3  L 14445-66 ACC NR: AP6002966 N 1 tong assembly; 2 levers; 3 - column; 4 transverse member; 5 - chain drive; 6 - sprocket.  ALRKSEYEV. Ya.K. (g. Nizhnedneprovsk); PETRUSHEVSKIY. A.P. (g.Nizhnedneprpvek); SHRAMKO, V.I. (g. Nizhnedneprovsk). Iabor upswing. Put' i put. khoz. no.2:29 F 159. (MIRA 12:3) l.Nachallnik Nizhnedneprovskogo strelachnogo zavoda, g.Nizhnednep- rovsk (for Alekseyev). 2.Glavnyy inzhner Nizhnedneprovskogo stre- lochnogo zavoda (for Petrushevski7). 3.Glavnyy tekhnolog Nizhne- dneprovskogo strelochnogo zaVoda (for Shramko) (Nizhnedneprovsk--Railroads--Switches)  ShILAWO2 V. L. 23560. LESOW-,GRUZOGhNAYa USTANOVKA. MI!XhANIZATsIYa STROIT- VA~ 19h9j No (RAZGRUZKA OTKM=h Zh-D VAGONOV). 7s C- 18- SO* LETOPIS' NO. 34 1949  SHRAmKO, V.L. (Dneporpetrovsk) Denpropstrovsk switch factory adapts its production railroad workprs needs. Put' i put.knoz. 4 no.9:40-41 S 160. (MIRA 13M) 1. Glavnyy inzhener Dnepropetrovskogo strelochnogo zavocla. (Dniepropetrovsk--Railroads--Switches)  SHRA 0, V. L. Small pneumatic tamping iron. Maskinostroitell no.11:17 N 160. (MIRA- 13: 10) (pneumatic tools)  SHFUd-iKO. V.L. Ve rant2acture high-strength switches. Putt i put.khoz. 5 no.7:24 JI 161. (14IRA 14:8) 1. Glvinyy telchnolog Denepropetrovskogo strelochnogo zavoda, g. Dropropetrovsk. (Dnepropotrovslc--Railroadi3-4witches)  SInkMKO, V. V. Ash content of coal has been reduced 3.5 times. Ugoll Ukr- 3 no.2:36 T 159. I (MIRA 12:3) 1. Glavnyy mekhanik shakhty.No. 30 trests. Rutchenkovugoll. (Coal mines and mining)  MITKEVIGH, A.V-~ SliRM-IKO,_Ye,,C4 Study of the stability of magnetic s-Fsteris with magnets within their frameworks and determinaticn -,.L their temperature coef f icients. Elektrichestvo no. i ; 69-72 ~ Jm 14 z 12) 1. Leningradskiy politekhnicheski,';- institut i:.eni Falinina. (Magnetic circuits) (Magnetic instruments)  SHRAMKO, Yu. Let us disseminate technical khowledge among young people, Za rul. 20 no.3:1-2 Mr '62. (MIRA 15:3) 1. Zaveduyushchiy otdelom TSentral'nogo komiteta Vsesoyuznogo Leninskogo komiqunisticheskogo soyuza molodezhi. (Technical education)  ROZRANSKIY, Z-Ye., inzh.,- SHRAMKO, YuoS., tekhaik Protective circuit using two IT-85 (86) relays and one isolating coil for the prevention of interphase short-circuits. Xnerget1k 8 no.8:25-26 Ag 160. (MIRA 13:10) (Electric relays) (Zlectric protection)  ROZHA.NSKIYI, Z.Ye.; SHRAMKO, YuaS.; FBDORENKO, F*A.;,LYSIKOV, A.N. Central signaling networks using telephone relays with overlapping contacts. Prom.energ. 16, no.11:33-31+ N 161. (NMA 1/+:10) (Electric networio) (Electric relays)  ROZHAf4K.7L, Z.Ye., inzh.,---SliRAMKG,, Yu.S.,.-.tekhnik; ZAIKA, N.V., tekhnikl YAROSH, Yu.V., tekhnik; ARONSON, V.R., tekhnik An impulse signaling device using transistors. Ene k 10 no.12:17-19 D 16 MA T. 16:1) (Electric relays) (Electric notworks) I  T 4 O'S 7-6 6 ACC NR, AP6009935 SOURCE CODE: UR/0118/65/000/011/0022/0023 AUTHOR: Piskunov, Yu. N. (Engineer); Shramko, Yu. S. Engineer) ORG: none TITLE: A semiconductor multi-circuit time relav SOURCE: Mekhanizatsiya I avtomatizatsiya proizvodstva, no. 11, 1965, '22-23 TOPIC TAGS: time relay, circuit design, transistorized circuit ABSTRACT: The authors propose a simple time relay for the control of processes, requiring alternate switching-on with a time-interval accuracy of not more than L10%. The relay coll- sists of a master oscillator* three frequency dividers, and a decoding unit to the output of which are connected time-gensor switches (designed to operate on a second, minute, and hour basis). The minimum time delay is 5 sec and the oscillation period of the multivibrator is ~.5 sec. The decoder Is used to transform the binary code reading provided by the counterI Wangement into the decimal code. Semiconductors of type P-16, P-13, and D9D (diode) are d in the relay. Collector circuits are fed with a voltage of 12 v received from a transistor- Btled voltage stabilizing network. Bias circuits are driven by + 5 volts. The time relay was manufactured and has been operating in the laboratories of UKRNN11KhIMMASh since 1962. Card 1/2 - -_ 111- --AMC: 621.318.7  ACC NR, AP6009935 Orig. art. has: I ftgure and I table. SUBCODE: 09/ SUBMDATE: 00/ ORIGREF: 000/ OTHREF: 000  PISKUNOV, Yu.N., inzh.; SHW-MKO, YU.S.J. inzh. Electronic relay with a thyratron for controlling the completion of filtrate outflow. Mekh. i avtom.proizv. 19 no.2:29-30 F 165. (MIW. 18:3)  SHR,,'Jf.KOV, A.Ya., lazliener. Taking into account the correction term in a double bridge equation. 191ektrichestvo mo.6:72 Je '53. OMLRA 6:7) 1. Llvovskly politekhnicheskiy institut. (Electric circuits)  KARANDMV, K.B., profe,asor; SHRAMKOV, A-Ya., inzhener. Rectifying watt--meters. Zlektrichestvo no.12:44-47 D '53. (mLRA 6:11) 1. LlvovBkV politakhnicheakiy inotitut. Ofattmeter)   sluux-OT, A.Ya Electromagnetic wattmeter. Rauch. zap. IPA AN URSR, Ser. avtom. i lzn. teld'. 4:1.11-119 455. (iiiaA 10.-S) Nattmeter)  SHRAMKOV, A.Ya. Rxperimental investigation of eleetromagnetic wattmetere. M-161cm. kont. i. :~zm. tekh.no,1:74-78 157,o OaU 11:6) (wattmeter)  P-4 oil- r 3 a E~ IF F F 1 -15 r, qF-- I, N, 4 5, F Uri  KIRL411AKI, N.V.; OBOZOVSKIY, S.S.;.SHRAI.JKOV, A.Ya. ------ Glassification of digital electromechanical measuring devices. Avtom.,kontA elek.i=. no.1:47-51+ 160. 0,M?A .15: 8) (Electric measurements) (United States-Electric measurements)  SUA11KOV, -A.Ya. Compensation of the temperature dependence of e.m.f. in regular cells used in potentiometers. lzm.tekh. no.9:33-35 S 160. (MIRA 13:9) (Potentiometer)  S/263162/1000/011/016/022 1007/1207 AUTHOR. Boris, Ya. V. and.Ehar~lov, A. Ya- __, TITLE: Device for measuring the time constant of precision resistances PERIODICAL. Referativnyy zhurnal, otdel'nyy vypusk. 32. lzrneritcl'naya tekhnika, no. 11, 1962, 47-48, abstract 32.11.359. "Nauchn. zap. L'vovsk. politekhn. in-t.", no. 79, 1961, 104-108 TEXT: The time constant of resistances can be measured and directly read by comparing the curves of transient processes developingin referenceand tested resistances undertheaction ofeclual, rectangular voltage- wave pulses. The currcrit-intensity curve, when subjected to such voltage pulses, does not repeat the shape of voltage curves but varies according to a certain definite law determined by the relationship between the coil parameters R, L and C. The voltage to the measuring device is fed (see figure) from the last capacitor of a two- section filter. The selection of the proper time constant for capacitor charging and discharging ensures a rather complete recovery qf the capacitor voltage during disconnection of the circuit by means of the key K7 and an almost complete discharge of the capacitor on closing the circuit. The shape of the curve reproduced on the screen of the device.. makes it possible to infer the capacitive or inductive nature of the reactance to be measured. The connecting frequency of the switch is raised to 250-500 cps. At a valve sensitivity of 0.25 mm/v, the error in determining the values of L and C does not exceed 2-3 %. Changes in both inductance variometer and variable capacitor are recorded on the screen with an accuracy of I %. The circuitry of the Card 113  Device for measuring the... S/263/62/000 /011/016/022 1007/1207 R.3 ZA I 3 r T T T [Abstracter's note. Complete translation.] Card 2/3  Device for measuring the... S/263/62/000/011/016/022 1007/1207 device has no amplifying system. The pulsating feeding o,' the device to be tested permits the voltage to be selected at relatively high values (up to 200 v or even more) so that the current, induced in the resistance, does not exceed 0. 1 to 0.5 v. I'vicaSUrcments by means of the described device are carried out in the following way: inductance L and capacitance C are first set at zero. Tuning of resistance R ensures the coincidence of two points corresponding to the end of the transient process. Next L and C are tuned to give coincidence of the lines connecting the starting and end points. The time constant is finally found from the formula T L CR The device permits the measurement of the time constant over a range from 1. 10- 5 see to 1. 10 - 7 see for several bands corresponding to resistances varying from 0.1 to 100,000 ohm. Card 3/3  s/88o/6i/000/079/004/011 E194/E455 AUTHORS: Karandeyev, K.B., Shramkov, A.Ya-, Krasilenko, V.A. TITLE: The use of nonlinear resistances in automatic self- balancing bridges SOURCE: Lvov. Politekhrdchnyy institut. Nauchnyye zapiski. no-79. Voprosy clektroizmeritellnoy tekhniki. no.l. 1961. 98-103 TEXT: The object of the work was to develop a self-balancing bridge for temperature recorders and similar devices which should be as simple and reliable as possible, avoiding the customary use of a motor-driven rheostat as the balancing device in one arm of such bridges. One arm is the resistance to be measured, which may be a pick-up;; another comprises an incandescent lamp filament: the remaining two arms are constant resistances selected to suit the bridge operating conditions. Feed-back is provided between bridge input and output. A small bridge-operating input voltage, insufficient to affect the lamp resistance, gives an out-of-balance output voltage which is amplified and applied to the bridge input together with the low operating-voltage. This heats the lamp so Card 1/3  s/88o/61/000/079/004/011 The use of nonlinear ... E194/E455 that its resistance is increased and the bridge approaches balance, but there will always be sufficient out-of-balance to maintain current through the lamp. This, of course, depends on the resistance of the pick-up or other object measured. Thus the input voltage from the amplifier is a measure of the pick-up resistance and can be measured by a suitable meter. The out-of- balance required to keep the bridge in the equilibrium position should be as small as possible, certainly not more than 0.2 to 0.3 of the principal error of the instrument. For example, when the out-of-balance is 0.15% the amplification factor should be at least 4000. The bridge operating-voltage should be about 100-th of the amplifier output voltage to ensure that it does not affect the lamp filament temperature. In a bridge using a low-voltage incandescent lamp (1 V, 75 mA), the amplifier amplification was 14000, the thernometer resistance ranged from 100 to 300 ohms and the other bridge components had stated values. The relation- ship between the pick-up resistance and the meter reading (max 3HA) was almost linear. The auxiliary voltage was 15 mV. The circuit responded stably to smooth changes in the pick-up resistance; Card 2/3  s/88o/61/000/079/004/011 'I'lie use of nonlinear ... E194/E455 the overall speed of operation and error depended mainly , on the indicating instrument used. There are 4 figures. Card 3/3  IN r77-7, Kitt, v P -,7, .,i. --hF prf- r ~i okil 4. L for  3 ci Tt 76  BLEGA9 0.; ENGELIBERT, 0.; YEZHKOVA, Z.; SHRAMKOVA, Ya. rmportance of autoimmunization reactions in the diagnosis of diseases of the thyroid gland. Probl. endok. i gorm. 11 no.,~.- 21-25 J1-Ag 165. (MIR-k 18:11) .. 3-ya. terapevti-.heskaya klinika., Praga.  -t - ..-:- - I -j- -~.- .-L -, IF- -!. '! , 7 ~ ;, .:. .: '. . - - - I , ~ - r e t I. ~; f~ ~ ~ " r-,: , r,- :,-, C, - s . "D " ~ i 1. a, 1 - , `kcv, E. 11,11 ~ j . . - . , I I - - ;.--! **. -, L--~!! "I "i I ' - - 1 - - -' `3 - -" , 1 ~ "" , P r - 1l-, - -, .1, J ~ -1-D A, . - 1- 11 . . , f ,-.i .  -C U_ - ic ent il_le Renort n the ic Tn- tifl-I t,2 -"Oscoll, ~0.  , ' It It if ti .4 It it It L I L P a to 111 U At Ild b A 0 Is A a It U U III a Is V is b 4 41 q 43 aOz M 9 3 1 1. AA ix 90 u4jl i A---A I J ~ 00 - . qo 00 7 i . -90 so 00 00 538AI:621-311AMI:621-317-2:3&?-6-92 645 obm Is the fidd ombF6 wid im do 00 1 Map,* tiettijitio, Smwdwy, E. G. Ekk- adddmd IkM of ft and cmulmd bY CMIDIL irkhrsm(,VO.7)42-51(lg4dyr*Mwtsb;v--A deb&d MouanditrdefumarwAcommm, '- ofadouW cation by Ow JLuUdSm Insfituft Obir .Qc~xmj 0( the cr wa adam. tw fira COR kiducho a current In do 00 r MetrolM of the first, mapoic standiffis~ batted on scomad ccupbd colL The Kandad of mapMk 00, i the r-"-po rfwm A tp=W kbmtM- mm-d mommicandmcfaq - of4mudand - fmm magrx& dkUwbsn= AM buift rrom DOW O(ODdOOLVailfthatl " and of j mawilb, boom thm pftuy standulb. aj- mmondmim of dem"MIg polmi =00 Wd poilentW. mapcdc Current am amw magnetic In an --I dwo o(O-02-0-01M Sev"Murd Amureff 09 nctic qwffwm. Imlide the labomloff the Dan, . Appumdool an domm9nd. III n On demirminadom COIN um(amity O(dwgcrrcSuWfiddis;~6x 10-'Ocr%tM%- of the badmaW , r r - of tM krrewW field = 0 0 00- Mw standard or magnetic puteaw Consists of a and a nme emaict --muct of do attwbula ~ to 0 Ow HeIndwilit WMI" Of dkromlarl's Irclouldris wvam A J dumWitim or ft combucdoct in a amLx. dep- fn= unifortnitY of