SCIENTIFIC ABSTRACT BATRAKOV, V.S. - BATRANIN, Y. Y.

BATRA= SPOOial f6fttur,es of agioultuml developmut in the Bokhm MnAte from the middle of the 18th contmT to the 1870iso Ikuoh. t=Ay Tasho no.193-.154,184 s62. (MIRA 16-.7) (Bokharam-Agriculture)  BAIRAFOVY V.V.j IOFAP Z.All- Xeneurtment, of the impedance of Fn iron elantrods by mans of ,a], terns f,!,ng curvent.- Elaktrc-Wr~!s 1 nc.7i123-129 F 165. (MMA 18 6) 1. Mcskovakiy gaeuda-.,~atvennyy izn~veraltet imsni Lomoncsova.  AUMIN, FLIX)F!f)~ ~, -',. L"; K:,.G,)-. I!, -~ -., - , - . ; . : ~ - Zinovii Alakeandrovich Iota; on hin '10th bIrth-layt 1,P,95-. Blektrokhimiia I no.5t620-621 W.10, OCPA MO  JOFA, Z.A.;,BATRAKOV, Y,V.-j KHO NGOK BA Effect of the arlsorption of anions on the %ction of Inhibitors of acid corrosion of iron and cobalt, Zashch,vieto I no.1:55-62 J&-F 165. (MIRA 18:5) I* MoBkovskiy gosudarstvennyy universitet imem Lomonosova.  BATRAKOV.-L.-V.; PIYANKOVA, A.P.; 1OFA, Z.A. Bebavior of an iron electrode In-alkaline solutions a+ low tenperaturea, Zhur* fiz. khim. 38 no.5sl,140-1343 My 164. (MIRA 18:12) 1. MoskovskJy gosudarstvenW universitet imeni Lomonosova. Submitted July 3, 1963.  .-AmMuA-j&AW r-- Using the XB-I telescopic alidade &.ad staff with a notable scale and anvil. Good, i karto AO-9;32-36 1 156. (HiaA 10;1) (Surverinr-Instrwants)  BATRANOV Yu. G.: Water Tech Sci (dies) -- "Investigation of the precision - of surveying relief and of computations of the volume of planning vork in draft &rewingal'. Moscow, 1958. 16 PP (Min AgriC USM, Mo0cow Inst of TAM Management Engineers); 150 OoPles (KL., No 41 1959, 125)  '3(4) BOV/154-59-3-13/19 AUTHOR: Batrakov, Yu. G., Assistant TITLE1 -B-Xb-ibition of Geodetic Instruments of the Hungarian People's eodezicheskikh instrumentov Vengerskoy Republic (Vyatavka Narodnoy Respu l rERIODICALs Izvestiya vyashikh uchabnykh zavedeniy. Geodeziya i aerofotos"- yemka, 1959, Kr 31 PP 139 - 142 (USSR) ABSTRACTt A short description of the geodetio instruments produced in Hungary is given. These instruments were exhibited in Moscow in November andDecember 1957- 1) The theodolite D-1 is used for triangulations of lowerorders and in geodetic, engineering work. Wedge bolt and micrometer screw of the horizontal circle ver- have a common axle. The same applies to the screws of the x tical circle. The magnifying power of the telescope is 25 . 2) The theodolite-tachymeter Ye-1 is small and light. Rare, tool the wedge bolts and micrometer screws of the horizontal and vertical circles are mounted in pairs on a common spindle. The reading accuracy is 30", the proper weight 3.4 kg. Apart from this instrument there exists another Ye-2 type which is mainly Card 1/3 destined for underground surveying. This instrument is lighted  Exhibition of Geodetic Instruments of the Hungarian BOY/154-59-3-13/19 People's Republic and not mounted on a tripod but on a side support. Thus it needs not be demounted when ores are removed from the mine. 3) The universal theodolite-tachymeter 17 A is used for the plotting of tachymeter lines of higher accuracy, for micro- triangulationsi etc. The magnifying power of the telescope is 28x, the weight - including 0the case - is 5-7 kg. The telescope has a turning level with a 20" scale. 4) Leveling instrument with horizontal circle, type 35 Yep for leveling of third and fourth orders. The root of the square mean error is 5 mm per km of the line in leveling from both ends. The horizontal circle makes it possible to determine both superelevation and location of points. The reading of the horizontal circle is done at the vernier with an accuracy of 61. The instrument is equipped with a tilting screw. 5) The measuring table 9F has 2 levels on the telescope and on the vertical circle. The turning level of the telescope permits a determination of the picket mark by means of a horizontal ray. In figure 6 the field of the tele- scope is shown. Ill instruments described above are shovn in Card 2/3 the figures. There are 6 figures.  . Exhibition of Geodetic Instruments of the Hungarian SOY/154-59-3-13/19 People's Republic ASSOCIATIONt Xoskovskiy institut zemloustroystva (Moscow Institute of Land Survey) SUBMITTEDt December 159 1956 Card 3/3   BATRAKOV, TueGep kand.tekbn*nauk Accuraoi of calculating the VOIUMG Of PwUngwrk b7 the mtbod of square prisug. lzv.vys.uaheb.sav.j geod.i aerof. no.161-57 161* (NIRA A:6) I., Moskovskiy institut, insimmerov smaeustroystvat (Em-thvork-Tables., calculation.* etc,)  MUM Yu.G,.,-Imnd.t9khn.nauk- Precision of leveling in irrigated-areau., lzv,:,!~~--ucheb., zave; goodt. 1 --roL'. 1/#:10) 1. Hookovskiy inotitut instanerov memloustroyatva. (lavoling):  S/006/61/000/011/002/002 D054/D1l3 AUTHORS% Batrakov, Yu. G., Yeremeyev, V. D. and Savinovy L. B. TITLE: investigations and practical use of the NL-3 level PERIODICALt Geodeziya, i kartagrafiya, no. 11, 1961, 29-32 TEXT: The article deals with investigations and the practical use of the HJI-3 (NL-3) level. Investigations were conducted by the Department of Geodesy of the Nosko ki in'titut inzhenerov zemleustroystva, (Moscow Insti- tute-of Survey Engineers and the Central Establishment of the Vsesoyuznaya kontora Sellkho.zaeros"yemka (All-Union Office for the Aerial Surveying of Rural Areas), The device has an optical altimeter built in the telescope which consists o-f a reticule of altimetric hachures protected by etched glass. The image of these hachures can be seen in the left part of the vis- ual" field of the telescope on a silvered strip; the image of the staffq of the middle haohure of,the gratioule and the two anallactic hachures can be seen in the right part. The position of the altimetric hachure in the vis- ual field of the telescope depends on the inclination angle of the direc- tional ray. The functioning of the level depends on the point-to-point Card 11*2  B/006/61/000/011/002/002 Investigations and practical use of D054/Dll3 correspond4noe of the altimetric hachure with the middle horizontal hair of the graticule at the horizontal position of the directional axis of the telescope, The authors describe the functioning of tae NL-3 device which waa used in stereotopographic surveying in the Smolenskaya Oblast' and in the Moldavskaya SSR in 1960 and compare the results obtained with the re- sults obtained by geometrical levelling, The NL-3 level can be-used for 8, ltitudinal field observatiAmes for stereotopographic surveyingg and for c6mpiling a vertical control network for an aerophotographic survey. The NL-3 level is also recommended for operations in regions with broken con- formation, as well as for surveying roads, transmission lines, pipelines,, etc. The disadvantage of the device is that the prism for observing the spirit level bulb is fixed at such a distance from the lens ring that it is impossible to observe the bulb when taking the readings from staffs. Scientist A* W. Kolmogorov is mentioned in the article. There are 2 tables. Card 2/2-  BATHAKOV, Yu.G.., kand.takhn.nauk NOV instruwntx,fOr Surveying In lAnd-improving bydraulic engineering. Gidr. i mel. 13'no.501-39 My 161. (HIPA 14&5) le Moskovskiy inatitut inzbonerov zemleustroystva. (Surveying-Instrments)  S/P-70/63/000/00VO09/020 AO01/A101 AUTHOR: Batrakov, Yu. 0. TI=i Modem geodetic instruments PERIODICAL: Referativnyy zhumal, Oeodeziya, no. 2, 1963, 21, abstract 2.52-153 ("GidroteXm. i malioratsiyW', 1962, no. 10, 43 - 50) TEM: The author briefly desoribes*and cites the principal technical characteristics of the following geodetic instruments manufactured by the people's Zeiss enterprise (Jena, GDR)s level instruments: Ni 060, Ni 030, NiOO4, Koni .007; theodolites; Theo 030 and Theo 010;: reduction tacheometerst D&1ta 020 and Redta 002;* range finderatteletop, Lotakeil 004, Dimesskell 002; mapping desk Karti 250; base rod Bala; rods to range finders Lotakeil 004 and Dimess- keil 002. V. S. (Abstracter's note: Complete translation] A Card 1/1  SOBElWSKIY, Konstantin Stanislavovich; SIROTA., Ivan Fedorovich; BA7RAKOV, Yuriy Griaorlyev ch; VZNUZDAYEV, Sergey VaslTly-e-VIF5; ANKOV, Sergey Mikhaylovich; MASDR, A.V., red.; VASILIYEVA, V.I., red.izd-va; RCRANOVA, V.V., tekhn. red. [Geodesic works for the construction of irrigation and drainage systems] Geodezicheskie raboty dlia stroitellstva, orositel'rWkh i osushitel'rWkh sistem. [By] K.S.Soberaiskii i dr. Moskvap Gosgooltekbizdat, 1963. 203 p. (MIRA 16:12) (Surveying) (Irrigation) (Drainage)  BATRAKOV, Yu.G. NASM-4B geodimeter. Good. i kart. no.22:25-34 D 164. (MIRA 18t2)  FIASIDV, Aleksey Vasillyevich; LARCHENKO, Yefim Gerasimovich; GORDEYEV.. Aleksandr Vasillyevich; AIMSANDROV, Nikolay Yu V 7 V flikolayevicb; Prinimal uchastiye u.G.; "tielecWts-e-d ZUERITSKIY$ I.V,p iftfoi,retsenzent ceasedi-if.- VASILIYEVA, V.I., red.izd-va,- ROMANOVA, V_.V.., tekhn. red. (Geodesy] Geodeziia. [By) A.V.Maslov i dr. Moskvaj Izd-vo "Nedra." Pt.l. 1964. 1+90 P. (MIRA 17:4) 1. Zaveduyushchiy kafedroy geodezii Belorusskoy sellskokho- zyaystvennoy akademii (for Zubritskiy).  F.IKIniEVICH, Grigoriy Vasillyevichp dots.; RYAZANOV, Viktor Pavlovich, dots.; SIBMAKOVA P Aleksandra Dmitriyevnav dots. Prinimali uchastiye:.AA,7RUOV ,, Yu.G. , dots.; VITHAN, A.I.j dots.1 YUNOSHEV, L-9--, a4fr-iat; KOROBOCHKIN, M.I.j. assistenti NEKHOROSHEV, M.Ye.,, retsenzent; BOGOLYUBOVA, N.S., retsenzent; NIKOLENKO, N.F., retsenzent; CHERNUKEN., L.S.,, retsenzent; NESHCHADIMOV, L.S.2 retsenzentl LARCHENKO, Ye.G., prof.# red. (survey-ing] Goodezilas Moskvas Nedra. Pt.2., 1964. 338 p. (MIRA 17:3.2) 1. Zamestitell nachallnika. Uoravleniya sallskokho2yaystvan- nykh aerofotos"yemok (for Nekboroshev). 2. Kafedra vysshey geodezii Omskogo sellskokhozyayotvermogo instituta, (for Bogolyubova, Nikolenko, Chernukhin, Neshchadimov).  L 917-66 EWW OW ACC NR% AP5023339 UR/015.4/66/000/003/0055/0061 538.52 AUTHOR: jjrakF, Candidate of technical sciences); L (Stt!dent); V.P 'ng Romeyko. D.P., (L beer) TITLE: Field investigation and trial use of the Xonl 007 and. Ni.-VZ leveling Instruments SOURCE: IVUZ: Geodeziya I aerofoto_s!yemka6 no. 3, 1965A '55-61 TOPIC TAGS: geodetic survey,9detic in*strument,~ model test,: performance test ABSTRACT: The Koni 007 leveling inst ent, made by VED Karl Us""A Jena, and the Ni-VZ, made by thejJuagaXlp o2tical factory MOM ore field-tested near Moscow in 1963 and used during the.1 963 Kazakh.exp&Uffon oT GiprRi5dkhoz to survey the'possible route. of. the Irtysh-Ishim canal. An analysis of the.oomprebensive.data presented in this article shows that the leveling accuracy for double (single) path is 12 3 nun (2.5 - 4 mm) r I km for pe the Koni'007 instrument, and:E3 4- mm (14- 6 mm) for the N1-VZ instrument. Both in- struments are'resident to shocks enoountered during travel on poor quality village. toads. During high *ind or heavy traffic nearby, the filamezits of the Xi-VZ instrument, acquiro excessive vibrations leading to unreliable readings,.,. No. such effects appeared on thiXoni 007: -inritrument. The use of these leveling instrum, enta reduced by about 20 - 25% relative tothe ordinary Instruments the amount'- of time needed for the leveling operations.' "Students Yu. _�gdLt_W and K. Shetinina participated in the work with the leveling Instruments. Orig. Art. has: 7 formulas, 2 figures, and 2 tables. Cc~rd -1/2.~   L NRI AR6016484 SOURCE CODE: UR/0272/651000/012/0016/0016 AUTHOR:. Batrakov, Yu, G.- L TITI.2: Principle of operation and practice of measuring distances by keoc radio range finders O~SOURCE: Ref. zh. Metrologtyaiizmeritellnayatekhnika, Abs. 12.32.150 REF SOURCE: Tr. Mosk. in-ta inzh. zemleustroystv~t, vyp. 24, 1965, 3-18 TOPIC TAGS; geodetic instrument, range finder, tellurometer, line measurement ABSTRACT: A study has been made of the operating principle of a tellurometer- type radio range finder and of the order of carrying out measurements and cal- culations with it. According to the results of eight measurements of a geodetic base line 1080-m long, the conclusion is drawn that with small lines there is no necessity of measuring in the 10-12 carrier frequencies when the station is 2  L 4'7100-.66 NR: AR6016484 placed on supported but it is sufficient to carry out two rough and two precise measurements. For small lines the requirements can also be lowered with respect to the duration of heating the thermostat, the thoroughness of synchroniz. ing the frequencies of both the master and the slave stations, and the determina- tion of meteorological elements. [Translation of abaltract] INT) SUB CODE: 08/ hs 2/2  BATRAKOV YU. V. Batrokov, Tu. V. -PApplication of Periodic Solutions of Schwamachild to the ProblAw of Vacua in the RUC of Asteroids." Cand Pbys-y*th Acip 14 4--A state U. laningrsd 1953. (Reforativnyy Zhurnal-Astronoudya,, Jan 54) BOs SUM 168, 22 July 1954  -BATRAEDV, Tu.V. SchwarsacbIld-type periodical solutions In the limited problem of three bodies. Blul.Inst.toor.astron. 6 no.2: 112-120 155. (Mllu 13:3) (Problem of three bodies)  BATRMV, TU.V. Thir4-grade pariodicAl solutions in the general problem of tbraq bodies. Binj.lpst.ta6r.astron. 6 no.2:121-126 155. (HIRA 13:3) (Probleis o'ithres bodies)  .-,BATRAKOV, Tu.V. Periodic notions of a particle In the gravitation field of-& rotating tbree-axial ellipsoid. Biul.Inst.teor.astron. ,6 no.8:524-542--05?,_q (MIRA 13 -- 3) (Problem of two bodies)  BATRAKOTI TUOVO ~ Distribution of m4n motions of asteroids in the vicinity of commansurabilttles. Blul.lust.teor,astrou. 6 U00 t 577-581 $58 (HIM 13; ;3 (;i;uats, Minor)  -1 Iz A 0 u) Y". L/. 29(0) PRUE I BWK MaWXWION SOV/3065 ISkQzstVenTW" 8PUtniki -MI-1, WP- 3 (Artifietal Earth Uteliites.400) Mpecov.9 Xzd-vo Akadwdinauk sow., :L959. ~ 125 50500 copies .Printed., Sponooring AgeWys Akadwdya neuk SMO Resp. Ed.: L*V# MuMiml Ed- Of Publishing House: L.V. Samonenko; Tech. Rd@ I' Tug' Aylinge, PMMM: This collection Of articles is t4a tbli-d in'a. series intended to' di6saminOtO lata, colleated'frow artificial, earth satellite jU"jrtigRt46jw to scientists. COftME: The eollectXon of artia3*e deals vith vwiotm problem arising in 'thO OPers6tion-of artificial eftenites, The papers also cover the use of ,artifIcial aatel34tes as scientific Instrmento for various'types of geo- PbYeleal iniaitigations. TAME OF COMM I. Yegorov, V*A. on- the Problem of capture Within the Restricted Circular Three Card i/3  Artificial Earth (Cont.) SOV/3063 Body Pro'blen 3 2. Deleteldys V.V. On TAbration of an Artificial Satellite 13 3. Vioskurin., V.P4., and.M: Batrakovo First-order Perturbations irL the Motion of Art~flclal Satellites-0-m-o-e-d by the,obut*ness of the Earth 32 4. Batrakov., Yu.V., and VeF. Proskurin, On Perturbations in the Orbits of Artificial Satellites Caused tha-Ribistance of the Air 39 5. VaMmin, V.M... and V.V. Belertskiy. Observation of Artificial Switellites ' Using the.Anticipation, Method (metod ozbldani7a)' 47 6. zi 17asberg., Pye. Secular. Variations of Oibit Elements as a Function of -the Rvalstance of the Air 54 7. Lavrentlyev., M&A. Problem of Puncture at Colmic 61 8. shkivvo4y., I.S.8 and V.0. Dwt. Determination of the Density of the " AtMOOPWO at an Altitude of 430 ka by the - Nwthod of Sodium-vapor Diffusion 66 Card 2/3  Artificial Earth (COUt-) BOV13065 9. M07azdtovo IAP. and ya*Mo Shvmftn~ Methods of ~revsutjng Interference Currents Arising at the Point of Input of an Electrostatic Flu=*ter Daring operation in a Conductive Medium 77 lo. Mikhnevich'. V.V. p B.S. Danillnp A.I. Repney, and V.A. Sokolov. Sow ResmIts in Determining the Structural Parameters of the Atmosphere With the Aid of the Third Soviet Sputnik 84 11. Istcain., V.0. Radio-frequency Mass Spectrometer for Investigation of the Ion Comovition of the UX*r Atmosphere 98 3.2. ftcluWp S.A. Manometer Error C=sed by Omall Leaks in the Envelope Of an Artificial Satellite 113 13. Zonor, Yu,,V. On the Problem of Interaction,of an A~tificial Satellite and the Xagna#c Field of the Earth 13.8 AVAnAIU: TAbrary 9f Congress AC/jb Card 313 12-30-59  BATIUKOV, Yu V 71ret order perturbainces, in'the motion of artificial sitellftes dkuseC by 6attening of the earth. 19k. Bput, Pam. no,302-38 159. (MIRA 12:12) (Artificial satallItes) Olechanics, Celestial)  TUIOV, y:;Wv. . -PROSERIN, V.1p. ---w Parturbanoes of artificial-satenite orbits caused by air rexistanoe. Isk. sput. some tio*3:39--46 '59. (KM 12 112) (Artificial satellites)  Name BA!PPAiDV,' Tue : Vo Title Candidate of Physico-41athematical Sciences. Rmarks i YU.'V. B&TRMW Is the author of-an article entitled $On the Way:to Learaing*about Outer SpaceA. Source i R-* Stantall.v Kbeftse (Stations inOuter Space), a collection of published articles, by the USSR Academy of Sciences, Xoskva~. 1960,vith foreword by Academicians A. N. Yeameyanov and A. V."Topohiyff. P. 93. W 20  A i p .0 1.1 -- vi. 3 a go- fig all :31 pal vi :31 1A z ~ . .. . :,- I - A! 3 -4 1.04's 3 'a U. is 1646 to 1 91 41 6" z 2 2.1": v it a -0 IN 41 8 0 .0 al 4 j:1 '" 1 Is 33 0 a E;l 3 L A 0 : NJ Ch ij 3.2 0 0 I. a fic  B hTR 1) K0\/1 YuV PHASE I BOOK EXPLOITATION SOV/5574 Akademiya nauk SSSR. Astronomid.haskiy sovet. Byulleten' stantsiy optiche'sliogo nablyudeniya iskusetvennykh sputnikov Zemli. no. 7 (17).(Bullatin of the Stations for Optical Observation of Artificial Earth Satellites, No. 7 417) Moscowr 1960# 16 P, 500 copies printed. Sponsoring Agency: Astronomiaheakiy sovet Akademil nauk SSSR# Rasp, Ed.; 0. A. Leykin; Ed.% D. Ye. Shchegolev; Searetarys 0. A. Severnaya. PURPOSE : This bulletin is intended for scientists and engineers concerned with optical tracking of artificial satellites. COVERAGE: The bulletin contains four articles concerned with the orbital elements of the Soviet artificial satellites 195862 and 1958b2 (SputnIk'IXj and Its carrier rocket). No personal- Ities are mentioned, There are 6 references: 4 Soviet and 2 ~English. Card 1 3  Bulletin of the Stations (Cont.) SOV/5574 a~ u. V [Institut,tooratichaskoy astronoml AN SSSR ov Y - V nstitu ~eou~eoretical Astronorq of the Academy of Sciences I a of the USSR1. Preliminary Orbital Elements of the Third Soviet Artificial Satellite (1958 b2 ) 3 13alrakov, Yu. V..'and A. S. Sochilina (Institute of Theoretical Astronomy of the Academy of Sciences of the USSR]. Motion of the Carrier Rocket, (f the Third Soviet Artificial Satellite (1958b, ) and the Magnitude of the Oblateness of the Earth 6 Yerpy"ev, N. P. [Astronomicheskiy sovet AN SSSR -- Astronomic Counqil of the Academy of Sciences of the USSR], On the Elements of the Orbir, of the Carrier Rocket of the Third Soviet Artifi- cial Satellite (19586, ) Obtained From Photographic Observa- tions 13 Card 2/3  Bulletin of the Statlono(Cont.) SOV/5574 Slovokhotova, N. P. (Astronomic Council of the Academy of Sciences' .of the USSR] Comparison of,Dlfferent Systems of Orbital Elements of the Third Soviet Artifical Satellite 195802 14 AVAILABLE: Idbrary of Congress AC/dwm/jw Card 3/3 10-30-b1  - BATRAKOV Yu V Preliminary orbital elements of the third 11oviet artificial earth satellite (195812). Biul. sta..opt. nabl. isk. sput. Zen. no. 7:3-6 160. (MMA 34:2) le Institut teoreticheekoy astronomli, AN SSSRs (Atrificial satenitea-Tracking)  a&~V ~Yu ~; SOCHILIKAp A.S. Motion of the rocket carrier of the third Soviet artificial earth satellite (1958d',) and the-magnitude-of the oblateness a.f the earth* Bful. eta. opt. nabl. iok. spute Zeme no* 7t6- (MIRA 14:2) 1, Institut toorstichaskoy astroncaii AN SSSR. (Artificial satelliten-Tracking)  84571 S/'035/60/000/009/002/'016 A AOO1/AOO1 Translation from. Referativnyj zhurnal, Astronomiya i Geodeziya, 1960, No. 9, p. 11, # 8676 AWHOR: Batrakov, Yu.V, MTM Some Results of frooessing\~ilsu&l Observations of the Earth's Artificial Satellites in th Institute of Theoretical Astronomy of AS USSR PERIODICAL: Byul. In-ta teor. astron. AN SSSR, 1960, No. 7, PP. 503-510 (Engl. summary) TEXT: This is a report on the processing methods of artificial satellites visual observations adopted by the Institute of Theoretical Astronomy of AS USSR. In some more detail the author dwells on changes in the mean motion of the carrier-rocket of the third sputnik due to,air resistance. A series of irregular fluctuations are observed,in the graph of mean motion variations, the causes of whieb are-not quite clear. The hypothesis of a relation between the mean motion and the atmospheric temperature conditions and solar activity is not unfounded. Card 1/2  845U 3/035/60/000/009/'002/*016 A001/A001 Some Results of Processing Visual Observations of the Earth's Artificial Satel- lites in the Institute of Theoretical Astronomy of AS USSR Determinations of the Ear~h oblateness on the basis of some systems of elements yielded the value of its inverse magnitude 1/6 - 297.5, which Is somewhat higher than the value usually adopted. It Is hoped that precise photographic fluctua- tions will make It possible to determine the Earth gravitation parameters more accurately. The author presents graphs of variations of the mean motion and the quantity proportional to the first derivative of the mean motion of the carrier- rocket of the third Earth Soviet satellite for the entire period of its e4ence. V.F. Proskurin Translator's note- This Is the full translation of the original Russian ab- stract.  3/035/6Z/000/005/ola/098 0 A05VAIOI AUTHOR: Batrakov, Yu. V., TIME: Preliminary elements of the circular orbit of the carrier-rooket vehicle of the fourth Soviet artificial satellite (1960 El) PERIODICAL: Referativnyy zhurnal, Astronomiya i Geodeziya, no. 5, 1962, 10 - 11, abstract 5A86 ("Byul. at. optich. nablyudeniye iskusstv. sputnikov Zemli", 1960, no. 10, 11 12, English armma.ry) TECT: Preliminary element.4i of the circular 9~,,~ of the carrier-rocket of the,fourth Soviet-artificial PArth-satellite are given for the period from'May 24 to June 30, 1960. All the calculations were effected on the electronic com- puter B3CM (BESM). 0. Ch. .-[Abstracteris notes Complete translation) Card 1/1  S103516010001011100311010 A001/A001 Translation from; Referativnyy zhurnal, Astronomiya I Giodeziya, 1960, No. 11, p. 18, # 11029 AUTHORS-z Proakurin, V.P., RA+.rAk as yu TITIZ: Perturbations in t)xe Motion of Artificial Satellites due to Earth's .0blateness PERIODICAL: Byul. In-ta teor. aAron. AN SSSR, 1960, Vol. 7, No. 7, PP. 537- 548 (Engl. summary) '"EXT: Expressions, in letters, are derived for first-order perturbations In the elements of artificial satellite orbits with a"p'recision of up to first degree of Earth's oblAeness and fifth degree of eccentricity, including. Coef- f1cients of these expressions depend on inclination by means of finite trigono., metric polynominals. Moreover more precise expressions are given for the secular perturbations of first order in the node longitude, perigee argument and mean anomaly. Secular nodal motion is determined with allowance for second-order Card 1/2  S/035/60/000/011/003/010 A001/AO01 Perturbations in the Motion of Artificial.Satellites due to Earth's Oblateness perturbations due to Earth's oblateness. A numerical example is cited which il- lustrates the comparative magnitudes of perturbations. Author's summar7 VB Translator's note: This is the full translation of the original Russian abstract. Card 2/2  84573 S/035/60/000/009/to4/016 3,),-W0 AOO 1/AOO I Translation from: Referativnyy zhurnal, Astronomiya i Oeodeziya, 1960, No. 9, P. 111 # 8680 AUTHORS: Kulikov, D.K.A Batrakov, Yu.V. TITLE: A Method for Improving theNtrbits-of Earth's Artificial Satellites on the Basis of Observations Whose Instants are-Mown ApprUJffM1%V--- ly PERIODICAL: Byul. In-ta teor, astron. AN S SSR . 1960. vol. 7, No. 7, PP- 554- 569 (Engl. summary) TEXT: The authors describe a method for improving the orbits of artifi- cial satellites when the instants of their observations are known approximately, In the practice of improving the elements of planetary orbits such a problem did not arise due to their small motion across the sky, so that observational instads, s even erroneous by as much as I , could be considered as quite precise. Aftifi- oial satellites move across the sky by 1-20 during Is, therefore any error in the observation instant will considerably affect the position of the satellite. Im- Card 1/3  84573 SP35/60/000/009/004/016 A001/AO01 A Method for Improving the Orbits of FArth's Artificial Satellites on the Basle of Observations Whose Instants are Known Approximately proving the accuracy of time. reading is a natural, but not the solef method of Improving the accuracy of elements of the sAtellite orbit obtained from the ob- servations. A new method of compiling condition equations is presented in the article: instead of usual variations,, 4%, -tfa 6 , are used the variations ag,j~ja along the perpendicular to the apparent orbit of the satellite and along the tangent to the apparent orbit in the sky. Condition equations for 6 g do not, depend on errors in reading the instants of observation, but equations for O'do depend on them. The analysis of condition equations has shown that observations near zenith permit reliable determinations of A I and A Q from the equations for A g. The equations for A 0 perml 't determinations of corrections to elements CJ , Mo, n, e, but In this case errors In reading the Instants affect the accuraW of the elements obtained. In case of slopin pass so of the satellite, the equations for A g will contain 4 unknownej I I, n and A e, whose deter- mination will be almost independent of error& in observation instants. The method is described for using artificial satellites for geodetic purposes, which Card 2/_3  8h573 8/035/160/000/009/004/016 AOO1/AOO1 A Method for Improving the Orbits of Earth's Artificial Satellites on the Basis of observations Whose instants are Known Approximately permits the effect of arrors,in observation instants to be reduced to a minimum. The method described in the article is illustrated by an exapple of Improving elements by using condition equations. There are 8 references. V.F. Proskurin Translator's note: This Is the full translation of the original Russian ab- stract. Card 31~  S,,0.35/60/000/009/005/016 AOO1/AOO1 Translation from., Referativnyy zhurnals Astronomlya. I Geodazlya, ig6o, No. 9, pp. 11-12, # 8681 AUTHOR: Batrakov,_Yu.V, TITLE: Determination of Initial Orbits of Artificial Satellites from Ob- servations Whose Instants are Mown ApprUx-Iffiateiy - PERIODICAL: Byul. In-ta, teor. astron. ANSSSR, 1960, Vol. 7, No. 7, PP. 570- 58o Mngi . su-m-a-rYT- TEXT42 The problem is considered of deteminJng the initial undisturbed orbit of an FArth's close satellite In a case when the instants of some observa- tions are known very approximately. A usual assumption is made here that observa- tions are made on the same turn and embraoe a not very great portion of the orbit. it is shown that this problem can be solved only with a number of observations greater than 0three. Equations are derived for topocentric distances and for quantities n I which serve to determine time Intervals between the observations. Card 1/2  8/035/60/000/009/005/016 AO01/AO01 Determination of Initial Orbits of Artificial Satellites from Observations Whose Instants are Known Approximately A numerical example Is cited of determining the orbit from 4 observations with two accurate instants. Author's summary Translator's note: This is the full translation of the original Russian ab- - stract. Card  S/035/6 1/000/007/011/021 A001/A101 AUTHOR- Batrakov, Yu.V. TITLEi Processing otservatlons of the third Soviet, Earthis artificial satel- lite in the Institute of Theoretical Astronomy, AS USSR PERIODICAL- Referativnyy zhurnal. Astronomiya I Geodeziya, no. 7, 1961, 7, ab- stract 7ATO ("Byul. In-ta teor. astron. AN WSW, 1960, v. 7, no. 10, 766 - 769) TEXT: The processing of observations of the T-h,!ni Soviet Earth's artifici- al satellite wak begun in the instiTute of Theoretical Astronomy in February 1959. Almost all the abseriations from October 15, 1958, to March 1, ig6o ( -,-, 28,000 observations) were processed. Of all the bulk of observations, about 10% showed deviations from the calculated positions by more than 200 and were assumed to be in error. The processing of observations was carried out on a 6XKBESM) elec- tronic computer; It oonsiste4 in the improvement of orbital elements by the known Eckert-Brower method, i.e. in calculating corrections to elements satisfying in the best way the entire totality of observations. The theory in letters of satellite motion in the gravitational field of the oblate Earth was put at the Card 1/~  Processing observations ... 3/035/61/000/007/011/021 A001/A101 basis of improvement; It y-4elds first-order perturbations relative to Earth's ob- lateness with an accuracy of up to 5th degree of eccentricity Inclusive. This theory was developed by V.P. Proskurin and Yu,V. Batrakov (RZhAstr, 1960, no. 8, 7.384; no. 11, 11029). Pertiz4bations caused by air are taken into account empiri- cally, i.e., coefficient of secular variations of mean anomaly is determined by processing observational data. The effect of periodic perturbations, caused by air resistance, is neglected in view of their smallness. Every time about 150- 2DO observations within 7 - 15 days were taken for improvement. and the residual discrepancies of observations after processing amounted, on an average, tn 0?5. Altogether 39 systems of elements were obtained which could serve as a bttsls for the further improvement of the orbit using more precise observations. The graph is presented which shows the variation of coefficient n' in the expression for mean anomaly M -% Mo + nt + n't2. For comparlson,on the same-graph is plotted the curve of variation of the solar radio emission flux at a frequency of 208 Ma which corresponds to wavelength of 143 cm. The comparison of the solar radio emission curve with the curve of n'variation shows that there is apparently some correla- tion between these curves. Thus, an especially great rise of the mean flux of solar radio emission at the end of August and beginning of September, 1959, cor- Card. 2/,3  24362 S/035/61/000/007/011/021 Processing observations ... A001/A101 responds to the sharp increase of ny occurred on September 5, 1959. Moments of disturbanoes of the Earth'a magnevIc field are also marked on the graph. Small relative rises of the n' curve correspond almost everywhere to strong magnetic disturbances. There are 5 references. 0. Chebotarev [Abstracter's note: Complete translation] Card 3/3  WOW S/511,/61/006/002/001/004 B163/B186 :Yu. V, AUTHORt -Batrakovs TITLEs Method of improving the orbital elements of artificial --,.,Batellites-from-topocenti-io distanc*s and radial velocities I SOURCE 3 -,.Ak&4emiy4 nauk SSSR. Institut tooretiehookoy astronomii. Byull6teno V* 8 no. 2(95)- 19619 93 96 ~~~=Tt If a first approximation' for the -elliptical orbit of an artificial on-can-be-caloulat 6-' ial* velocities ~_topor :_e~ rom ra Ah reA zt)i4-distAncee- 0 ween aii. -observer t ~the-satellite_and on the earth's surface.- Instead of the direotirelations between the measure.able quantities (azimuthi altitude, topocentrio distance'p, radial velocity ~) and the orbital elements (inolinktion i of the orbital plane, longituden of-tho ascending node of:tho,orbit from the point of vernal -i equinox, ecoentricity a# distanco'co of the poridee from the nodet mean anomaly M. in the beginning epoch, and mean motion n, which is connected with the major axis a by Xeplerla third law)t differential relations be tw~en thase.,qua ntities are derive4, An analysis of the coefficients in  0 1 11611008166i16611604 :~,Method, of improving the --13163/Bl86- differential relations shows that the corrections bn, 6e, and the combination 611 t 6 c,.> t cos.i 641, *an be determined from We radial 0 a i to velocities measured in the moments of closest approaches of the atell 'to the observer. The corrections 61, 6f1,,6n, 6e oan be determined from -the measured'dietancea at tho,olosest approaches.,If terms of higher order in the differentials are neglected, one obtains for the moments of closest 'Ap?roachesto the obser -ver 0 + a (.~,: + i 6xl+ th D11 T1, To 11 n + &e and ~jS i+ j 6 a) r 6n + H In these equationer A 3 n a and respectively, denote-unit vectors oriented along the . Jil j .."~-node line, the polar axis,,,and perpendicular to the orbit in the direction from which the motion of the satellite is anticlockwise. The ooefficienti H and K are determined by~ r + 2a K (r+p)(Xi + X~ + &2 -the position vector of the satellite, and t denotes,time. Cards 2/2  -BATRAKOV ' Yu p kand.fiz.-mtem.nauk Symposium on the 0#Iamice of earth satellites. Vest. AN SSSR 32 no.9:il4-n5 S 162. ' (MIRAL 15:9) (Artificial satellites) I  BATRAKOV., YU V k-- "On the Use of Resonant Satellites for Determining the onstants of the Earth's Gravitational Field." report submitted for 14th Intl Astronautical Federation Cong., Paris., 25 SeP-l oct 63-  BkTRAKOVP TUOVS m Vitalii Fedoravich Prookarin, 1919-1964; obituary. Biull. Inst. teor. astron* 9 no.99585-586 164. (MM 17s12)  FEDOROV, Ye.P.; KUCHEROV, N.I.; BATRAKOV Yu.V,,, kand.fiz.-matem.nauki Z.;A- - KOSTYLEV, X.V., kand.fiz.-matem.niU;-RIKHELISON, N.N., kand. fjz.-matem.nauk; GINDILIS, L.M., kand.fiz.-matem.nauk In the Astronomic Council; conferences and plenums. Vest. AN SSSR 34 no.9zll2-120 S 164. (MIRA 17S10) 1. Chlen-korrespondent AN UkrSSR (for Fedorov).  A UTFOR Batrakov, Yu. V. (Candidate bf VhYsicomat hem at i c a! s c Pn~, T L A ttecr I I y o f t ~, c m _o t n c C f, r SOURCE: AD SSSR Vestnik , no . 9, 1 f'~ L , I ', 4 7 (--, P"I TA G S : t "-: F,,7, ret i c a a6 t rc.,r, -)r-.y , E~ r ~ i -.- i ,s a t e I I t P r o t f-; t i ) r. 1 c, n p e rl c d i c p e r t r t a t I r, t:,r%v4tP.,_ s'Lant , opt crt , space t ABSTRACT~ A c,,~nference or. Tneorelt ical fistror.-nv crK'i,,; y A s t r o r, o m, a n i i n v P d t ~) e t T n v, e ?- f d U r C, t or- n D ~L" f 2 a t I c A L determining :,,ng-perJr-,d per."Irbat i c~ n s c, -sat v 1 1 t e r au _,c,on -planets , and th= sun was di F C A 5er es C, t: w i t 1, ~a e t e r= i n i r j-, t 11 e t e r r e s r i a 1 17, r v a r, r. a 1 Q r, P_ arlt e C. ,, S e r", a t I o n 3 Th e d e v e 1 opn e r t n p t i m uv. o r ..-Card 1/2 -  L 12468--65 ACCESSION NR: AP4046590 Venuo-bo%knd a ce 0~q of Variable mass and the adaption of the p~_pt, equ6tions of motion of a space roelket for passing near the earth and moon vere described. ASSOCIATION: none ,-UBMIT-TED. BO REP SOV: 00 EfiCLj-00 OTHER: 000 BUD CODE: AA ATD PRESS; 3126 Card 2/2 ODD  L )/FBE/1 ~`F 'h- )IF -QS- 'f,;WT,' 15 (k v A t E zKr - ? 6b A 0 'P, _~ r ~: -)61 /1&jC~4 _061 Lrh/00 w 5 /(: ~p5ob : l~ 9 33 l v AUTHOR: hatrakov Yu. V. TITLE: Determination of the relative position of observation stations using arti- ficial earth satellites SOURCE: Astronomicheskiy zhurnal, v. 42, no. 1, 1965, 195-202 TOPIC TAGS: artificial earth satellite, earth satellite observation, geodesy, theoretlca..l astrDnozW , tracking station, satellite geodesy ABSTRACT: The purpose of this paper we's-to -call-attention to some possible uses of simultaneous or almost simultaneous observations of satellites in the determination of the relative position of stations at a considerable distance ftom one another on the earth's surface. In addition, together with the possibilities of i.-Sing bimul- taneous observntions of a, 6,and p, the pacer discusses the possibilities arising from the use cf observations of 6, 9, and o, and also observations cont&ining time errors. Also considered is the problem of the.use of nonsioultaneous observations. In determining the relative position of stationBo it is assumed that observations i can give not only the angular coordinates a and 8, but also the topocentric dig- Card 112_  L 38951-65 'ACCESSION NR: "5006013 tances p and the first derivatives of these values ~,i and Technically, a and 6 can be determined from. measurements of satellite ~hotogrspbs and p and by direct radiotechnical measurements; in addition, (*.t and are determined by differentiation of the polynomials representing changes of a and 11 with time. It is noted that, although OL and ~ are obtained from a and in certain cases they can yield ndditional Informmtion which is lout if only a and 6 are used. An ex- ample is the case when the arcs of an orbit overlapping in a small segment are ob- served from two stations. In this case, observations in the nonoverlapping seg- ments are lost if only simultaneous observations of a and 6 are used, but-tIX-y give ad- ditional information if a and 6 are used to form ~ and 6 . In the case of the use of nonsimultaneous observations (with precise recording of time), it is shown that it is possible to determine the interval of time in Vnich it is possible to use nonsi=ultaneous observations. Finally, it is shown that an expression can be derived for determining the reLative position of stations using observat!ons with time errors. Orig. art. has: 14 formulas and I table. 1108) ASSOCIATION: Ustitut teoreticbeekoy astronomij Akademii nauk SSSSR (Institute of Theoretical AstrononW, AeadeW of Sciences.SSSR) SUENTZTED: 303an64 MWL: 00 M CM: 9S, SV .WX_ 005 ATD PFM: 3227 NO RRIP SWI 008 Ccwd 2/2  BATRAKOVA. G. Masters of bigb outyate Proatkoops 13 noo9t3 6 139. (Km 1311) 1. lustruktor orgotdola o'blpromeovets, g.Loningrad. I (lieningrad-Yanufacturos) j  FJJVFd-!,OV, V.Y.y BAMAKOV). G.S.p Inzb, Specif featuree in tre projvt..raVon :~f a raw mater~11 lovIch Im '.,~oraeriL 31 a kiln with a cyclone r;c--nt rC,.2, 1.2 Mr- Ap 165. Vso9oy%,znyN . . 9titut tsementnoy prcny:,h*iFrmo5t'-,  PIUNGUMXLYA, M.N., kRud. tekhA. nauk.-BATHWU G.S I insh. i:t~ Uproving the'vater resistance of m uorete by Incorporating paraffin smalsions with its mixes. Trudy NUM no.9:53-58 '59 . (MIRA 13;3) (Waterprogfins) (Concrete)  sov/68-59-6-5/25 AUTHORS: Medvedev, X.P. and Batrakova,-I.A. TITLE: The Content and Con6entration of Rare and Trace Elements in Coal (Soderzhaniye i nakoplenlye redkikh t rasseyannykh elementov v kamennykh uglyakh) PERIODICAL: Koks i Xhimiya2 19592 Nr 6, pp 13-17 (USSR) ABSTRACT: A review of literature on the presence of rare and trace elements in coals is given. There are 6 tables and 11 references,(of which 8 are Soviet, 2 English and 1 German). ASSOCIATIONs MIN Card 1/1  DEKHTEFOUN, B.A. L BATRAKOVA , I.A. . inph. F~roeessing higb-acidity comercial fatg. Maol. - zhir. pm. 27 no.22:41 D 161. (MIM 14 s 12) 16 Vinnitakly maolozhirovoy kombinat, (Oil and fate)  BATRAKOVA, 1.0.; KAPLAN, N.M. Utilization of wastes in the Vinnitsa Oils and Fats combine. Khar. prom. no.1:60-61 Ja-Mr 165, (MIRA 13-.4)  BATRAKOVA, 1.0.; KA?LAII, N.M. UtIlIz-ation of wastes in the Vinnitsm Oils and'Fats combines Khar. prom. no.b60-61 Ja,-Mr 165. (MIRA 1814)   V- "~o V~ AUTHORS: Yemellyanova, I. Z. Batrakova, T. A. 75-1-24/26 TITLE: A Now Method for the quantitative Determination of Reducing Sugars in wooa-Hydrolyzates and Sulfite Liquors by Paper Chromatography (Novyy metod kolichestvennogo opredeleniya reduteiruyushchikh sakharov v drevesnykh gidrolizatakh i v sullfitnykh Cachelokakh pri pomoshchi khromatografii na bumage) PERIODICAL: Zhurnal Analiticheekoy Khimii, 1958, Vol, 13, Nr 1, pp 142-147 (USSR) ABSTRACT: In the investigation of the composition of wood-hydrolyzates and sulfite liquors the sugar content is evaluated according to the total quantity of reducing substances. This methodl how- ever, always yields too high results, as the reducing substances occuring in wood-hydrolyzatea and sulfite liquors, represent a mixture of reducting sugars (glucose, mannose, fz-aotose, galactosep xyloes, arabinose, rhamnose, and others) and re- duoing substances which are not sugars (furfurol, uronic acids and others). The majority of the methods for the separation of Card 1/4 sugars by unidimensional paper chromatography permits the  75-1-24/26 A New Method for the Quantitative Determination of Reducing Sugars in Wood-gydrolyzates and Sulfite Liquors by Paper Chromatography seperation of a sugar mixture which only consists of 3-4 components and is therefore not suitable for the analysis of wood-hydrolyzates and sulfite liquors in which 7-10 sugars the Rf-values of which are close to each other have to be separated. The quantity of the sugars on the chromatogram, can either be determined by measuring the area and the intensity of the coloring of the spots after the development (References. 3P 4) or by various mioromethods after the extraction of the sugar from the chromatogram (References 5-9). These methods often require unusual reagents and apparatus, are not suf- ficiently exact and take a lone time. The authors worked out a method for the separation of the sugars in wood-hydrolyzates and sulfite liquors on an unidimensional paper chromatogram and a method for the quantitative determination of the in- dividual sugars after extraction from the chromatogram. The separation of all sugars of the hydrolyzates from each other takes 2-3 days. It takes place in a descending passage Card 2/4 chromatogram at room temperature. The upper layer of a mixture  75-1-24/26 A Now Method for the Quantitative Determination of Reducing Sugarn in Wood-Hydrolyzates and Sulfite Liquors by Paper Chromatography of ethyl acetate, pyridine and water (5015) serves as sol- vent. A solution of phthalic acid and freshly distilled aniline in ethyl alcohol serves as developer for the spots. After the development it is dried for 5 minutes at 105'0- After 24 hours a good separation of rhamnose and xylose is attained, after 50 hours the other sugars are also separated from each other. The determination of the kinds of sugars takes place on the basis of the color of the spots, their spreading and on the basis of the blank value. By development with aniline phthalate as developer the pentoses according to concentration yield colors of from pink to dark red. Hexoses yield brown-green colors, rhdmnose yields a brown color. The Rf-value is concluded from the spreading of the spots. When sufficient separation was made, the chromatogram is cut into pieces each of which contains sugar. From these pieces the corresponding sugar is washed out by distilled w4ter and finally quantitatively determined potentiometric titration. Card 3,1 On that occasion the method according to Nizovkin and  75-1-24/26 A Now Method for the Quantitative Determination of Reducing Sugars in Wood-Hydrolyzates and Sulfite Liquors by Paper Chromatography Yemellyanova (References lo,-11) is employed. It is based on the back-titration of applied hot Fehling solution with a solution of the corresponding sugar of known content. The end of titration is potentiometrioally determined. This method is a micromethoa. It permits the determination of 10 to 2500CA- with an accuracy of + 2 %. The duration of the determin- ation is 10 minutes. The us-ed apparatus are illustrated and Z exactly described. There are 8 figures, 2 tables, and 11 re-; ferences, 2 of which are Slavic. ASSOCIATION; ALI-Union Scientific Research, Institute of the E~y~is and Stalftte %1cohol Industry, Leningrad (Vsesoyuznyy nauchno- issledovatellafkiy institut gidroliznoy i sullfitno- spirtovoy promyshlennosti, Leningrad) SUBMITTED: Nobember 23, 1955 AVAILABLEs Library of Congress Card 4/4 1. Sugars-Determination 2. Sugars-Chromatographic analysis  MAREYCHEV,,Vladimir Petrovich; CHEM, Khaim Isaakovich; KORF, M.D.., otv. md.; BAT HX&,,Z"3, _Md. L- FOYANOVA, S. R., tekhn. red. [Nomograms for the calculation of the characteristics of electric filters] Nomogrammydlia rascheta kharakteristik elektricheskikh filltrov. Moskva3, Sviazlizdat,, 1963. 86 p. (MIRA 16:5) (Electric filters) (Radio filters)  NAUMOVy Pavel Alekseyevich; KOGAN, Valentina Splomonoym; BATRAKOVAy T.A., red.; MMOCH) K.G., tekhn. red. (Principles of telegraphy] Osnovy telegraftio Moskva' Sviazlizdato 1963o 10 pe (MIU 17z2)  PETRUSHIN, Ivan Petrovich; MOROZOV, V.V.t otv. red.j BATRAKOVA,T.A., red. [Fundamental principles of the operation of the technical mebns of long-distance commmication] osnovrwe printsipy ekspluatateii tekhnicheskikh aredstv mezhdugorodnoi aviazi. Moskva, Sviazl, 1964. 39 p. (MIRA 18:4)  KLIMOV, Mikhail Aleksandrovich; RAIMICV, Leorild Davydovicb; FOPOVA, E.E., otv. red.;-~-A-R-11~qY-Aj.A,p red, [Protection of high-frequency cables from the interfer-. ing action of electromagnetic fields] Zashchita tsepei vysokochastotrWkh kabelei ot meshaiushchago vliianiia elektromagnitriykh polei. Moskva, Izd-vo "Sviazl," 1964. 68 p. (XIRA 18:1)  IVANOVA, 011ga Nikolayevna; KOKHANOVA, Zoya Sergeyevna; SAGALOVICH, L.L., otv. red.; BATRAKOVA, T.A... red. .... ............... [PS-KE-100 crossbar-type electronic telephone substation) Koordinatno-elaktronnaia tolefounaia podstantaiia PS-KF,100. Moskvap Izd-vo "Sviazl,* 1964. 321 p. (MIRA 17:4)  ARKHANGELISKIY, Georgiy AloksandrovIch; INYUSHIN, Yermogen Ivanovich; KASHIRINA, Valentina Mikhaylevna; LEWOOV, Konstantin Georgiyevich; -MTRAK Vk., , red. Q_ (Location of leakages in commnication cable sheathings] Oprodelonis most negermetichnosti. obolochek kabelei sviazi. Moskvaq Izd-vo "Sviazll" 1965, 38 P. (MIRA 18s2)  AFA'ASIYKVA, Lyudmi-la Vasillyevna; KAUESBKOj Yurly Yefimovich; BDOORODSKIY, G.N.p otva red.;_RIRA~01~& T.A., red, I (Blectrophotographio rooording,of images) glektrofoto- graficb^skaia zapis' izobrazbenii. Moskva,,. Sviazl, 1965. 46 P. (MIRA .18:5)  SVERDLOV, M.P.; YETRUKHIN, 11 &N. Y 4,SLAVSKIY, L.L,- ZLJBOVSKIY, ARAKANOVA, M*S*: ctv. -~d.; BATRAKOVA, L.I.t GUROV, V.S..~ T r (Now TT-17P and 071-2S voice frequency telegraphy apparatus using transistor devices) Novaia apparaturs, tonallnogo te- legrafirovaniia na poluprc#voclnikovykh priborakh TT-17P i OTT-2S, informatsinnMi. sborn-l'k, Misk-va,, Sviazl, 19'5. 125 P. 0 (MIRA 18:?)  NIKOLISM , Konstantin Nonstantinovich; FROLOV, Pavel Alekaeyevichl BATRAKOVA2 T,A,,a red, .WOO-00. - [Use of polymeric materials in the equipment of coummica- tion systemBI Primenenis polimerrqkh matorialov v takhmike dallnei eviazi. Moskva, Svlazl, 1965. 107 p. (MIRA 18:12)  KUIY.SHOV, Vasiliy Nikolayevich; GAVRILYUK, V.V., kand. tekhn. nauk, otv. red* Bm9Wm I-Am, red- [Loong-dietance cable communicatiou lines] Mezbdugorod- mye kabellmye linii sviazi. Moskva., SviazI., 1965. 262 p, (MIRA 18:7)  L _1&?23-,06 __._7__ ACC NR AP6017599 SOURCE CODE: UR/0183/66/000/001/0009/0010 AUTHOR: Kamalov. S. K.; EyAov. L. M.; -P-Mrak a..16JA4; Sheremeteva. T. V ORG; IVS AN SSSR- TITLE: Effe .ct'vhich amidocitraconic acid and its N-alkyl derivatives have on the/~ structural and mechanical properties.of nitron fiber SOURCE: Ehimcbeekiye volakne, no. 1, 1966, 9-10 polyacryl TOPIC TAGS: aliphatic dicarboxylic acid, alkyl radical, synthetic fiber, on- itrile, plasticizer ABSTRACT: The authors study the strength of fibers as a function of their previous history and various structural parameters, in particular the overall orientation evaluated by isotrometric heating. The fibers tested were pure polyacrylonitrile containing 4 mol.% N-etbylamide of citraconic acid. Temperature-stress curves are given for isothermal heating of fibers subjected of identical plastification stretching and of fibers with identical strength but different compositions and molecular weights. Curves are also given showing the modulus of elasticity of the fibers as a function of temperature. Overall fiber orientation (determined from the maximim on the isothermal heating curves) increases in polyacrylonitrile fibers6of equal strength as the concen- Card 627-71,0-2  ACC NRs AP60-IT599 tration of the secondary component in the copolymerlis increased from 0 to 19%. It is possible that the large monomeric units of the copolymer act as an Internal plasticize vhich aids in orientation of amorphous sections of the fibrils. Orig. art. bus: 3 figures, 2 tables. wB com. ii, o7/ sm DATE-. iooet64/ O1UG REP: 003/ OTH REF: 000 Card  HATRAKOVA, T.V ; STIERFMTIYEVA, T.V.; KAMAMN, S.K.; PYRKCV, LA Production of fiber-forming materials "a the base of acrylonitrile copolymers with N-alkyl derivative amides of citraconic and maleic acid. Khim, volok, no.6:17-19 165, (MM 18:12) 1. Institut vysokomo1ekulWnykh soyedinenly AN SSSR. Submitted October 10, 1964.  ACC NR. -AP6012416 SOURCE CODE; UK/_1618-3-765 0010061001710019 AUTHOR: I T.,._Y~; Sheremetlyeva,, T. V.i Xamalov, S. K.; .~!trakova, ,Pyrkov. L. 14, ORG; IVS AN SSSR TITLE: Preparation of fiber-forming materials based on acrylonIt'llell copolymeralwith N-alkyl amides of citraconic and maleic acids SOURCE: Khimicheakiye v olokna, no. 6. 19651 17-19 TOPIC TAGS: synthetic fiber, acrylonitrile, copolymerization, chemical reaction, tensile strength ABSTRACT: New copolymers of acrylonitrile with unsubstituted and with N-substituted mcnoamides of citraccnic and maleic acids were synthesized and characterized. Copolymerizations were in aqueous media using oxidation-reduction initiators. The monodmides copolymerize with acrylonitrile in different molar ratios; their activity is greater than the activity of,pure aorylonitrile since resultant copolymers were richer in monoamide than the composition of the initial mixture, Fiberj formed from the copolymers were stronger than polyacrylonitrile fibers., Card -1/2 UDCt 677.494-745-32  BATRANIN, Yu. Ye., "Method of Analysis and Calculation of Stationary Processes in Frequency Doublerd.1 (Dissertation for Degree of Candidate of Technical Sciences) Min Higher Fducation USSR, LIvov Polytechnical Inst.. L!vov, 1955 so: m-lo36 28 Mar 56  Spy SOV/112-59-5-9438 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 5, p 140 (USSR) AUTHOR. Batranin, Yu. Ye. TITLE: 81ra.'111 : i phical Method for Determining the Ranges of Odd and Even Harmonics in the Output of a Nonlinear 'Coav rter PERIODICAL: V ob.. Avtomat. kontroll i immerit. tekhn. Nr 1, Kiyev, AS UkrSSR, 1957, pp 62-69 ABSTRACT: A simple graphical method is suggested for determining ranges of odd and even harmonics in the output of a nonlinear transducer that has a specified unambiguous (nonhysteretic) characteristic. The periodic transducer input comprises both unidirectional and alternating components which contain only odd harmonics. It is proved in the article that the range of odd harmonics in the output is equal to the difference between the extreme ordinates of the working section of the transducer characteristics, while the range of the even harmonics is equal to the distance measured along the median ordinate between Card 1/2  SOV/112-59-5-9438 Graphical Method for Determining the Ranges of Odd and Even Harmonics in . . . . the curve and the.point of intersection of that ordinate with the chord that connects the extreme points of the characteristic working segment. The proof holds'true if the odd curve is monotonic throughout the entire working segment and if the even curve is monotonic throughout one-half of that segment. The odd (symmetrical with respect to the origin) and the even (symmetrical with respect to the Y-axis) curves can be obtained by developing the transducer not characteristic. The conditions of the proof are sufficient but A necessary. Examples are cited where the characteristics wholly or partially do not satisfy the above conditions, yet the proof holds true for them. Five illustrations. Bibliography: Z items. V. Ye. G. Card 2/2  9(2) SOV/143-58-10-7/24 AUTHORS: Maksimovich, N.G., Candidate of Technical Sciences, Docent, and batranins YU.Ye.. Candidate of Technical Sciences, Docent TITLE: An Analysis and Calculation Method for Multi-Phase Fe'rromagnetic Frequency Multipliers PERIODICAL: Izvestiya vys8hikh uchebnykh zavedeniy, Energetika, 1958, Nr 10, pp 49-58 (USSR) ABSTRACT: Ferromagnetic frequency multipliers and instruments of the frequency multiplier -type find an ever increasing application in engineering. In this paper, the author explains the principles of an analysis and calculation method of an n-phase, ferromagnetic fre- quency multiplier, whose multiplication factor is equal to the number of phases in its primary winding. .Multipliers of such type are the well-known frequency doubler and tripler circuits. The equations and form- 'ulae presented in this paper connect the oufput magni- tudes of the frequency multipliers (current, voltage, Card 1/3 power) with their constructional parameters for an  I BOY/143-56-10-7/24 An Analysis and Calculation Method for Multi-Phaae Ferromagnetic Frequency Multipliers arbitrary load impedance z. These formulae may be used as the basic of a general engineering calculation method of the aforementioned type of frequency multi- pliers. The suggested method is an analytical one, permitting the analysis of processes within the multi- plier in a general form. The formulae are simple and suitable for practical application. The method pro- duces a satisfactory accuracy of the calculations for the majority of important operating conditions of fre- quency multipliers. The accuracy of the method is in- creased by the transition from capacitive load to ac- tive or inductive loads. The method provides a simple determination of the load resistance producing a maxi- mum of output power-, or, in other words, it provides the possibility of matching the load with the multi- plier. In this way a frequency multiplier may be cal- culated with minimum dimensions and weights at a given power. The frequency multiplier calculation method Card 2/3 was tested experimentally on frequency doublers and  SOV/143-58-10-7/24 An Analysis and Calculation Method for Multi-Phase Ferromagnetic Frequency Multipliers triplers. The parameters of the test multipliers are listed in a table. They had toroidal cores made of B-41 steel. Figure 5 is a graph showing the ex- perimental and theoretical external characteristic of a frequency doubler corresponding to the active load of the latter. Graph, figure 6, contains a group of experimental and theoretical curves for a frequency tripler. For their calculations the au- thors assume that hysteresis, eddy currents and leak- age are absent in the core. They neglect the active' resistance of the multiplier coile. They determine the load current, power, voltage and external char- acteristic of frequency multipliers. There are 1 circuit diagram, 5 graphs and 2 Soviet references, ASSOCIATION: Llvovakiy politekhnicheskiy institut (Llvov-Xolytechr nic Tnstitute) Kafedra teoreticheskoy i obBhchey elek- trot6khniki (Ch~Lir of Theoretical and General Electri- cal Engineering) 'SUBMITTED: 'June 5., 1958 Card 3/3  BATRANIN Yu-Ye., kand.tekhn.nauk, dotrent Engineering method for calculating the trrors of an uncompensated electric current transformer. Izv. vya. uobeb. zav,; energe 4 no-10:38-45 0 161. (MIRA, 14: 11) 1, Llvovskiy politekhnicheskiy inatitut. Predstavlena kaXedroy teoretichaskoy i obsbabey elaktrotekbniki. (Electric current transformers)  S/135/63/000/002/008/015 A006/A101 AUTHORS: Gubenko, T. P., Doctor of Technical Sciences..-Palranin Kirpatovskiy, S. I., Liukin, V. I., Candidates of Technical Sciences, Rybakov, V. V., Fai'kevich, V. P., Engineers TITLE. Automatic quality control of spot we'ldiiig by infrared radiati6n PEIUODICAL: Svarochnoye proizvodstvo, no. 2, 1963, 2~ 27 TECT: In 1960 - 1961, the authors have been studying at the Lvov Poly- technic Institute the correlation between Infrared radiation and the welding process and the quality of the weld joints produced'. The results obtained were used to develop an automatic device for quality control of spot welding during the welding process by the intensity of the infrared radiation flux which is ir- radiated from the annular electrode-adjacent zone ofthe part to be welded. When the given infrared radiation level, corresponding to a given diameter of a spot, has been attained, the welding current is switched-off. The machine consists of, the measuring head and the measuring unit, which are described and illustrated. The device was tested on spot-welding machine WP 62 d/60 with up to 500 kg elec- Card 1/2  S/135/63/000/002/008/015'- Automatic quality control of...'' Aoo6/Aiol trode compression force. The wolding current attained 18 Ramp. Special experi-~ mental welding tests were performed; optimum oonditions were not observed, i.e. the current and the electrode compression force were lowered or increased, and the methods of preparing the specimens varied. The main properties of the now machine were revealed by investigitingthe dependence of the weld joint strengih' and the dimensions of the cast nucleus upon the parameters of the welding condi- tions and the preparation of the specimens. It was found that the scattering of results in the breaking force per welded spot was only �~% at-varying compression force of the electrodes. Analogous resUts were obtained when the welding cur- ,rent was changed. The strength of the weld joint was 2,600 kg on the average for 2.5 mm thick plates and varied within +8,1%. The testa show that high stabi- lity of welding one spot is assured, independent of the changes in welding con- ditions, parameters and preparation of specimens.* There are 5 figures ASSOCIATION: L'vovskiy politeklmicheskiy institut (L'vov'Folytechnic Institute). (Hybakov) Card 2/2