SCIENTIFIC ABSTRACT MESHCHERYAKOV, A. P. - MESHCHERYAKOV, I. F.

 MESHCHERYAKOV. A.P.; DOLGIY, I.Ye. Method of producing unsaturated ketones in the cycloprop;-ane Berien. Dokl. AN SSSR 154 no.1:152-154 Ja'64. (MIRA 17:2) 1. Institut organicheskoy khimii im. N.D. Zelinskogo AN SSSR. Predstavleno akademikom A.A. Balandinym.  ACCESSION NR: AP4019975 AUTHOR: Dolglyq X* To.; Membeberyakovo A@ Ps TITM Synthesis and properties of dLmthyldL-(cyc1opropy1mtbyl)-& mth7ltri- (eyelopropyluethyL)- and tetra-(cyclo-propylmthyl) silanes i SOURCE: AN 6SSR* Doklody*, v. LS4, no. 6, 1964p 1376-1376 TOPIC TAGS: dimethyl silane, setbyL silanes cyclopro"Lmietbyl *LL&aeg silicon- hydrocarbon, zinc coppoc vapor ABSTRAM DLmethy1dL-(cyclopropyLmethyL) silana CHS af was obtaLned wLth,32% yieLde It was not possible to precipitate the reaction product of sethyleme iodide with only one multiple bwW of dimthyMallylailause Card 1/3 9/0020/64/04/006/076A378  'ACCESSION NR: AP4019975 namely, dLmethylallyl-(cyclopropylatethyl) silane. This I~ the second hydrocarbon known which contains three 3-membered carbon rings and the first hydrocarbon of 0% this type which conitains a silicon atom. However, In a fraction precipitated during fractionation of the reaction mixture which b*Lla below the hydrocarbon named. some Impurity (10-15%) of unsaturated hydrocarbon was found which obviously was either methylallyIdL-(cyclopropylmthyl) or methyIdLallyl-(cyclopropylmet I hy silane or a mixture of then, When methyleae Iodide was reacted with tetraallyl- aLlane In the preaence of zinc-copper vapors silicon-hydcocarbon was obtained with tabout a 13% yield which according to boiling temperature and elemointary analysis 'dsteit is tetra-(cyc1opropyLmthyL) allane HIC;g C"t We 24 HC Hoc 42*1W, Card 2IJ  RM ACCESSIOU NR: AP4019975 Ill. V. VLkha took part in the experimentsol" OrLgo arte has: 00 ASSOCTATION: Ustitut orgaalchaskoy khtalL Lis He Do galLaskovo AkedmIL oauk SSSR (InstLtute of QcSmdc Cbmdatcyg Acadwq of ScLawas SGSR) SUM I 2WO163 DATE ACQ: 23Kar64 UM: 00 SUB CoM Ca NO REF am$ 005 Onmal 002 Card 31.3 MIR  DOLGIY, I.Y,-.,; MM-HCHER7AK(jV, A.P. Interaction cf dlazoal~eti: Dok:. AN SSSR 157 J, 161.. (KIRA 17:",' 1. Tnstitut organif-herko~ khmi--, iment N.D. Zelinakogo Ali SSSR. Preditavleno aka&lm~~,:,,m A.11. EWL-vid-'nym.  MESHCHERYAKOV, A.F.; DOLGIY, I.yc--. Synthesis and properties of hydrocarbons wi,,h two ad,:acent three-membered carbon rings. Izv. All SSSH Sor. khim. no.7: 1333--1335 J1 164. (~.IIHA 1-1:8) 1. Institut organicheskoy khimii 1.mcni ZelinsKogo All SSSR,  MESHCHl"RYAKOV, A.?. j Fl-TRCU, L.V. ,-lyn,2,esjs of mionc- and diacetylere hydrocarbons havl- quaTernari I ~..g . ' carbon atonis. ---zv. AN SSSR. Ser. khim. no.S,1-,P,8-i4,~r7 Ag '64. (MIRA 17-9) 1. Tnsv,'.~u', organ 1,-~heqkoy kJjimii im. N.D. Zelliriskogc, AN SSSH.  DOLC. I Y, I. Ye. ; 1-11"311( :-,7-TYAKr 7, r~ompa.-at'kve reac%"IL-, cyclopropane. lzli. AN, SSZ- Ear. khim. n,:).,:',,02-i94 1. Institut ()rtfa kr-',,nii im. ~!.D. "elinskoro   L-01815-67 EWT(m)/EWP(j) RM AC,e NRt AP6035641 SOURCE: Co I)L: UR/0062/66/000/001/011-6/0121 U, F AUTHOR: -Hesh9heryakov, A. P. and Er7.yutovl, Ye. I., Insttt-ute of Organic Chemistry Im. N. D. Zelinskly, AWSSSR (Institut orrnnicheskoy khtmil A14 SSSR) _~ _Z_ TITLE: Free-radical method of synthesis of liydrocnrhons with qpvernt qunternary carbon atoms In the molectile SOURCE: AN SSSR. Izvesttyn. Serlyn no. 1, 1966, 116-121 TOPIC TAGS: free radical, synthetic hv(1rr)cnrhnTi ATISTMM ! When_dl-tdr-~butyl peroilde~ls decomposed In hydro- "arbons,"deveral-parallel reactions oocurt 1) homolytio break- ,down of the peroxide at the 0-0 bond with the formation of a butoxy-radloal (CH ) C01 2) removql by the butoxy-radical of ;labile H-atoms froa 2he solvent molecule wl the formation of Xree radicalal 3) reactions of free radioala ormed from the isolvent of reoombination of the hydrocarbons, disproportionation iand polymerization. The more stable the radicals fomned, tha more they are capable of recombining to form dimere. Experiment- ,al data shown that the stability of free radloala risen with an ,increase lp--tbe-number of oubstituents at the atom with the non- paired electron and the greater the branched character of these substituents. Aryl substituents increase the stability of free radicals more than do alkyl. The authors used trialkyl- and aryidialkylsubstitued methnno nq solvonts, which have the C d 1/ 2  L 01815-67  "~.orne ro'hlems co;it-inued sec-nd-on-lor fracti-.is." Cher riyshevskiy. ~;:.xutov, 1'-,?'6. (Dissertutic-, for t~.e Dcpgee -.f C[,.-id-i~ate 6cierces. Knighn" Leto-As', ':c. 26, 1956 e 3~:r.~A.cv ~Arji.c ~n T1iysjcor.-.;.',.er:~-tjcf.11  MESHCHERTAKOV, A.V.,tazh. (Ekar'kov) Theory and design of compensators for MSM-l levels with self- adjusting line of eight. Izv.vys.ucheb.zav.; prib n0-3:131- 134 158. iNIM 12:2) (Surveyinc--Instrwmente)  OGLC3LDI. D.N. prof. A. V. , in7h. Hew mine surveying level with self-adjusting sighta Izis. Gor. zhur. no.4:59-61 AD 158. (MIRA 11:4) (Mine surveying7-Equivment nnd aunnlieg)  AUTHOR: Heahcheryakov, 'IS. V. TITLE: LevelKSM - I (Nivelir NSM - 1) PERIODICAL:,r-, Geodeziya i kartoorafiya, 1956, Nr 6, PP. 41 - 44 (USSR) ABSTRACT: The factory for surveying instruments at Khar1kov developed the level 104 - 1. In this level the line of eight is auto- matically adjusted in a horizontal position. An exact description explains by which means this is achieved. In the optical laboratory of the factory the accuraxy in the adjustment of the line of sight to the horizontal position was investigated. This investigation is described. The results of the investigation and the estimation of the accur 'acy are mentioned in a table. The data of this table show that the error of the adjustment of the line of night by the compensator does not exceed 0",2. Several additional investigations proved this result. The first test set of these instruments will show inhowfar the efficiency of work can be increased in using these levels. There are 2 figures and I table. Card 1/2  Level NSM - 1 1. Geophysical surveying--Equipment --Calibration 2. Theodolites--Deaign 6-58-6-9/21 3. Theodolites Card 2/2  3(4) - AUTHOR: Neshcheryakov, A. V. SCV/154-59-1-12119 TITLE: Optical Mining Theodolite With an Inside Distance Meter (Opticheskiy marksheyderskiy teodolit a vnutrennim dallnomerom) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Geodeziya i aerofotos'l- yemka, 1959P Nr 1, pp 115-131 (USSR) ABSTRACT: The great number of experiments in the USSR and abroad for employing the optical range finder in longitudinal surveys in mines had no success. General deliberations on the possibility of an instrument to be used for this purpose are given at first. The range finder with a basis inside and a lens repre- sent3 the most convenient instrument as for construction and easiness of work. It belongs to the theodolite OTTG-30 (system by N. A. Gusev). The device has a basis 50 mm long and an accuracy of 1 : 300 in distance measuring in mines between 5 and 60 m. The drawbacks of the apparatus are: the necessity of computing the distances by a formula or table, and the small accuracy in distance measuring. - The possible methods of eliminating these drawbacks are pointed out here, and further hints for improving the construction Card 1/3 and manufacture of the device are given. In this connection,  Optical Mining Theodolite i7ith an Insije Distance SOT'154-55-1-12/19 life t e r a close investigation is carried out. At first, the construc- tion of this device is described in short, then its theoretical accuracy is investigated, and it is shown that the accuracy is nearly double the accuracy demanded. The use of uniform reading scales in the distance meter with a lens compensator complicates the work. This drawback can be eliminated by the use of nonuniform scales, In this connection, the theory of building up and computint-, nonuniform scales for a distance meter is described, An analysis of instrumental drawbacks in the distance meter with an inside basis is then given. It shows that the device can be manufactured with an accuracy of under 1 : 2,000 as it is required for distance measuring in mines between 20 and 60 m. The accuracy of coincidence of two pictures of lines of the distance-measuring mark is investigated, and the computation of the separatinLr device (for obtaining two independent pictures of the two halves of one line) is indicated. Finally, the method of preparing the distance-measuring scale is described. The investigations carried out show that the nonuniform scales of the distance Card 2/3 meter with a lens compensator can be produced in series  Optical Yining Theodolite T"ith an Inside Distance SOV/154-59-1-12/1,r- ?Ae t e r ASSOCIAT" 011. according to the actual values of the focal distances of the compensating lenses. This permits to read the dis- tances directly on the distance-measuring scales. There are 10 figures and 1 table. Fharlkovskiy -.,avod marksheyderskikh instrii-mentov (Khar'Vov '~iorks of Mine-surveying Instruments)  ORLOVSIIY, S.V., kand. tskhn. nauk; MESHCHERYAKOV. A.V., inzh. Mine orientation b7 optical device for the projection of vertical points. Ugoll Ukr- 3 no.11:40-41 N '59. (MIRA 13:3) (Mine ourveTing--Equipment and supplies)  ."J -, T " 10 1 Z Lleshch ~r7,rakov, A. V, 3'- V Ir -9 - 5 -12,- TTTLF: Optical Transit O"IT-30 (Opticheskiy teodolit O:JT-30) PEEODICAL: Geodeziya i knrtografiya, 1959, Nr 9, pp 59-5~.J ABSTRACT: Kharlkovskiy zavod markgheyderskikh instrumentov (Kharlkov Works for Underground aurvey Instruments) have develo.-.e~ -i new optical mining transit OINIT-30 with a self-adjustinp line of the zero point on the vertical circle. The transit serves the measuring of horizontal and vertical angles as well as the carrying-out of geometrical and trigonometrical lev~-in&s of the 1st order in pits and in open-f.-tce mining. Thc rc~~, mean square deviation in angle measuring with f--illi n unqer the usual conditions dces not excee,i I ~". In t.-ie carrying-out of geometrical leveling the root mean deviation in the determination of the elevat--n kilometer of a reciprocal level ~x-- -'oes not --~ccec-i The main data of the transit an~ - i,~scripti,- of --re presented. In 1959 the tranalt was te3te, in present a batch of test transits are being tr-,d, Card 1/1 production is being prepared. There arc 1  MESHCHERYAKOVI A. V., Cand Tech Sci -- (diss) "Self -restoring compen- catora.11 Moscow, 1960. 20 pp; (Ministry of Higher and Secondary k3pec- ialist Education RSFSR, Moscow Inst of' Engineers In Geodesy, Aturial Photography, and Cartography); 150 copies; rice not given; (KL, 28-60, p 161)  LEBEDEV, N.N., dotsent, kand. tekhn. nauk; MN.HCHERYAKOV, A.V., kand. tekhn. nauk '--. 1-1 1 -.. ~.. .... A 4 eb. zav., High-precision optical centering deV4 ce. Tzv. vys. uch * geod. i aerof. no.3-.109-116 164. (MIRA 180~ 1. Moskovskiy institut inzhenerov geodezii, aerofotos"yemki i kartografli (for Lebedev). 2. Kharlkovskiy zavod marksheyderskikh instrumentov (for Meshcheryakov).  PSCHENICHNYY, I.P.; SHTSYGARDT, Yu.N.; MS8HC,mYA40V,-A.T.; VASnIYE7, V.N.; SCKCWVA, S.F.; BROVKOVICH, B.D.; RDBAINOVSKIY, B.R.; LURIYR, R.G.; PARAKHCIVYUK, Z.M.; GOROKHOVSKIY, B.I.; ZHDANOV, V.S.; GORIEUNOTI, Z.T. GLEM , M.I.; TAVARIYAN, E.A.; SUKHODOLYA, Ye.l. Abstracts. Kardiologiia 4 no-4:87-90 il-ffg 1 64. (MIRA 1911)  AcussIM 7551 1090/0691 r TIR. A~C* S/0368/65/om/001/c Rom- T -Meshch akovi A V.; Krichevskaya, 1. A.~ ery ITITLD r Some.characteristics of laser wi h prism reflectors a!-pr- - - SOMCE: Zhurn ikladnoy spektroskopii, v. 2, 1,10. ~Ia,65 go- gi Topic vxrs-., - laser:ca-vity% lader- reflectorj: laser -pump energy laser efficiency A' RACT: Me authors investiga ed a, -laser --qhqse -e;qpernal end reflect N'T t p~ra ifere paired ~:Mat mirrors mounted at a newrly righ-b angle to each (Aher and total in- Zdf le, 0n-- pr v z s Se mirrors.. terna- -Is=;- -hom ray path -m ere - imllarAoAhose Of-tbe III ~ em-1-r-rori. could be inclined to:each othe-l- at a L-t-all ang-le whic-h could-be meas -uslIv ure~~- ac- t I aura-e o > Me cornera:of the reflectors were placed mut peiVen-, diciilex e~ v. distanze of 290 nn-frwi each Plot appTorinmte-ly 0.1 -Pm vide -A ic- 1 a: ft, bett-, en i rrors of one r -e, Ji m-1 -eflcctor for exetraction of the energy f7om Tezort*;Lor. Mle '-'L,:Lve T 0-a lag rto PAIII Irims and 7 in Ma-Awbo-r, 1,--' a d eor- -be r, actiwe54~d glcmv vina Iocated in the contor pai-t, of t a.,:Yrnator. na C-nee 09, the tlareshold pmp-eneray. on thq arglo of inelimtion, of the 0 Lcq-  rd  1, 3,31-;65, 0,4: (k 13DA TEIGAM R (h I SCT-9/1,TP(c) CCE3310N lit AP501976il 64/o269 A 621-375-91535 z I. ~A.; Ilatrer, A. 1,1.' 14!ashchenmalrovly A. 11; 1 V6 0 -of ir I w5er-wit"n- mi all, 'TT TI_ r, IA- 7.1 d opt" cnl~ optiLa. 1 1~pektroskopiya, v. qt no, 2 1 6c,,~ 264-269 T ~D _P I C sj I eur, e r TACS~ s Ili d 's t at e 1 as e r necOy-ndum later glaa-laser, -ser opt c aser -A -ter, threshold pwinp power 0 If a- Soli di-st at e -,-PAr,. Tlie bh.ors d-m - mline the k, e _~Ilz~r-:bowtsprevvl on order of 10-201 and a mlsalign i opt i,~z P-1 I Sy G shold i 1ch includes the tested roI) a n d "he -nflu.~nce exerted on the thre ;Pial-rer by- the Coudenser- lens -placedl. in front of -one of the mir.-ors con focally.- with ie - rod. :A laase~~.oystem is clonsidered: ~41ioi~e rinc~Ip):11 elements are th rod, plane and rondense,.-7 lc-,n,-,. Such a systein has b--ett_ -.how- previously to-be'equiv 1--- ent -to v. 2;y-ter, v i i-Ah c r, n f a o ~,_I spherical mirrors.- The imisalignment of the' optical - may be due' to a relall- I ve tilt, ,.)T the onttcal ar-es Of the mirrors, or to in-~-!L C -J 0 -le -ig, u which laser actiatt remalni..'_ C~ X a7, e fl.111111 of tile v d, TI .-PP-Ximum tilt' -m lit _,_~cter is _eberi~dn--d-b~, geomet 4 Were  'AC"ESS107' A 1 6 5 971 7 1-aser operating ab. 1.06-v ~j' elength the rods test ed Ong -and 6---~:_ _b n n. ir, -die The results -Shov that the rop') r on ~Wk_ to m-:301:aJoll 'o, r the n ~3 u s e a. I'll,! -o, [Jivi, the eC r I cu r, 1A, ur-~ 1j: 3 ivi a 'proper lens V,,17, ut ha!' ro, 4-mai - ancl IT thft~ ~ Cal lt~\ng-h o C.. h r~ lem i OQ dice 'lie dia L, )L , - - - - . I C, Ov-C. r C ~,l ~1 agen o. f i- System ne. iri Ot upht!rical rd r ror s and a s i_n,-uc-=tZd, It i a fl.150 that by- tine, t, i~ I all e r with a set of seve:~al V--1, s It - i s ro .9 E; i b le to (.1ine-r-Blive the degree of inhomiageneity of t1he rod "The Ll or preparing Vie m.,ultilayer reflecting coatings. Ori,~~, art. h 3 - ftgur~g and' 8 formullas 02) as 'ASSOCIAT1011f --none '-S E C Op 1111T M. o4mmY64 Tam SUB CODE TU CIO S :110 1TF SIY;., ATD PREE Ap OTM_w 00~. cae, :-./2  L W18-66 FIT(1) /FM (k) -2/T/[~,1-11 (k) I JF (c) M, r) ACC NR: AT6015137 SOURCE CODE;: UR/0000/66/000/000/0144/0149 Naboykin, Yu. V. AUTHOR: Kramarcnko, N. L.; fAesh Ratner, A. M.; Rom-Krichevskaya, I. A. ORG: Physico- Technical Institute of Low Temperatures, AN UkrSSR (Fiziko- tekhni skiy institut nizkikh temperatur AN UkrSSR) TITLE: Investigation of losses and loss-associated characteristics of laser radiation SOURCE: Respublikanskiy seminar po kvantovoy elektronike. Kvantovaya elektronika (Quantum electronics); trudy seminara. Kiev, Naukova dumka, 1966, 144-149 TOPIC TAGS- solid state laser, laser R and D 5 F- R oE#q D 16 rl c) A) ABSTRACT: A method for experimental determination of the radiation lose in a solid-state -laser resonator is suggested. A 4-level system is considered. The loss is determined, a plot of output energy vs. mirror transmissivity is constructed, and estimated and experimental results are compared for a Nd-glass Card 1/2  L ~6018-66 ACC NR: AT6015137 specimen. All quantities that enter a total-radiation loss formula, except for dispersion lose, are directly measureable. Thus, the problem is reduced to determining the dispersion loss. The latter is derived from the experimental data on the effect of the first-mirror transmissivity upon the threshold pumping energy. The knowledge of the resonator radiation loss permits determining the optical transmissivity of mirrors. Ong. art. has: 4 figures and 16 formulas. SUB CODE. 20 / SUBM DATE: 12Feb66 ORIG REF: 004 OTH IREF: 002 Card  VELIKOREMKIY, D.A.; LORIYE, , K.M.; FRIKELI , I.I.; GRIGOIRCHIM, YU.F.; BFMER, L.Kh.; I.XTROBINA, V.V.;'IV[ARCH&.IKO, student V kv-rsal OBEIFUVEENKO, 7-a.V., kard.=ed.naj2-c; NMTB, A.V.; NJSIIOr.?DO';A.1 S.11,; KUSIMAICS171A, L.V., assistent; &-UZ'---T30V, 7.A., dotsent; KUKHTITIOVA, assistent; W11DARENKO, Ya.D. (g. Fastov); KUHTASOVA, L.V. (g. Fastov); FEVCHIKH, V.V.; CHURAKOVA, A.Ye.; RABICH., M.M.; KMIMIN, K.P.; PAVLOV, S.S.; SHEVLYAKOV, L.V., kand. med.nauk; IQIIATIY--,VA, O.M.; MYGMIAMR, G.A.; GUTKIN, A.A.; POLYKOVSKIY, T.S. Resumes. Sov.med. 25 no.11 :147-152 N 161. (14IRA 15:55) 1. Iz Instituta grudnoy khirurgii AIRI SSSR (for Velikoretskiy, Loriye, Finkel'). 2. Iz boltnitsy No.3 Gorlovki Stalinskoy oblasti (for Grigorchuk). 3. Iz Tyumenskoy oblastnoy bollaitsy (for Berg,2r, Utrobina). 4. Iz Karatasskoy rayonnoy bollaitsy Y-azhno-Kazakhstanskoy oblasti (for Kharchenko). 5. Iz Gospitallnoy khirurgicheskoy kli,-Aki I Moskovskogo ordena Lenina meditsinskogo instituta imeni Sechenova (for Meshcheryakov). 6. Iz kliniki propedevticheskoy terapii Stalinskogo meditsinskogo instituta na baze oblastnoy klinicheakoy bollnitsy imeni Kalinina (for Oberemehenko). 7. Iz kliniki gospitallnoy terapii Voronezhskogo meditsi;iskogo instituta (for Nikitin, 11,11-akhoyedova). 8. Iz kafedry obshchey khirurgii Kishinveskogo meditsins-kogo instituta (for Kusmartseva). (BontbTM4-0a-~~)  MzSffGHERRKOV,, A.V. (I-Idgkva) Mitml insufficiency and problems of surgicad treatment. Felld. i akush. 26 no.11:9-U 11 161. (MI?A 15:2) (WT,HAL VALU)  ~MNISHIKOVY V.V.; USVATOVA, I.Ya.; LEME'kl',~, R.N.! MESFCHERYAKOV, A.T. Functional state of the al.-e-rial glands and steroid therap7 in surgical interventions. Khirurgl-ia 39 no.9:39-45 S163 NIRA 17-3) i. Iz gospitaltnoy khirargicheskoy klinik! ( zav. - deystvi- telInyy chien AWI SSSR prof'. B.V. Petrovskiy) i mezhkliniches- koy gormona-lIncy laboratorli pr:L go6pitallnoy terapevticheskoy klinike (zav. - deystvitel~'nyy chlen AfT. SSSR prof. A.L. HyasnUrov) I Moskovskogo ordena Lamina meditainskogo institiita imeni Sechenova.  5(,'[Clv I YEV, G~V, , US VATGV~. Function of Tzlt~ a:'--ezal n !ation, Eksper. knir, i 9-nest. 9 I-L--ftp 164. (mllA 1. L.bcratcr~'ya pri kafedre gogi'te-l'noy khir-argii (za-r. - ptof. 2.11. gormona-l'naya labcratcriya pri k-afedre g0scital'n07 terat.1. (zav. prof. A.L. Mya5niko%r', I Moskovskogo ordena Leril.na -Insrituta 3ecran,,)va.  SOLOVIYEV, G.M.; MENISPCHIKOV, V.V.; USV-,'~'IOVA, I.Ya.; 'XESHGff~tYAF,')V, A.V.; MANEVICH, A.Z., red. [Adrenal hormones in mairgerj'I (-,nrmony naj'poche,,---hr.'.kov v kh1rurgii. tBy] (,.,M,So1ovIov i dr. Mookva, Medlt,;inu, 145. 261 p. (,%IIRA 18: c)-)  . A.7a. Isolation of the anthrax bacterlophage and Its use for the differential diagnosis of Bac. anthracia. Trudy VIN 26146- 55 162. (MIn 16z2) 1. laborstoriya mikrobiologii I eksperimentallnoy veterinarii. (Bacteriopbage) i=mniteta Vuesoyuznogo inatituta (Bacillus anthracis)  MESHMM-wov, B. Korkino. Mast, ugl. 7 ro.1:17 Ja '58. (Y 1 W. 11 .2 " (Chelyabinsk Basin-Coal mines and mining'  MESHCHERMOV, B. The7 have aet an example. Mast. ugI. 6 no.11:21 N '59. (MIRA 13:2) (Ohel7abInsk Basin-2kcavating machinOr7)  MESHCHERYAKCV, Boris Flikl2aylavich [Korkino, city of coal r-iners] Korkino, gorod ugollshchikov. Cheliabinsk, Cheliabinskoa knizbnoe izd-vo, 1960. 46 p. (MIRA 15:4) (Korkino-Description)  r ANDREYEV., V.D., kopd.fizika-matematicheskikh nauk; BOSHCHERYAKOV~, B.M., inzh.; TrULINA, %C~A., inzh. . I Spontaneous extinction of a~d.c. are in a vacuum-type cutout. Vest. elaktroprm. 33 no.7-.43-45 Y1 162. (MIRA 15:11) (Electric cutouts)  47 -an,' __o Ap, ec.  3r,,w". Dcv 1 Q.it Phyc~i-jlj U. 4' 7' LLr M,~ L;ll -1- c "a -.,Li;-,i Ti t f E, -z Orlf.,- Pu.. Iz-.,. 1)57, J _A,zt-_,-_c-t "ri-f :uxv,y f ~111,..ti-n f n- ri ro2ult~- f thi_- I ty tli- -.ut'. r :, tl~m_- -L-~ linat r. f "L r, r,-,, rtc,,,. list -f s-_,-., t,,~k_; jt- _;..U~%, V la ic in '--Ii, .;tu-Iv, tL, w..'s  KESHCHMTAKOV, D.P.; M&MT, Te.S. Role of soil and botanical research in planning drainage meazures. Pochvovedenle no.2:131-133 F 157. (MLRA 10:5) Drainage) (Soil research)(Botanical research)  f MESHCHERYAKOV, F. A., Cand Biol Sci -- (diss) "Research into the mech- anism of reflex regulation of contraction in the alimentary canal in sheep and dogs." Stavropol', 1959. 24 pp; (Ministry of Agriculture RSFSR, Stavropol' Agricultural Inst); 180 copies; price not given; (KL, 17-60, 147)  CHERYAKOV, ?.A. Bole of the spinal cord In the regulation of gastrointestinal motility. IrIzIol.zhur. 45 no-11:1367-1371 5 159. (MIRA 13:5) 1. From the department of physiology, Agricultural Institute, Stavropol. (GASTROINTESTINAL SYSMM physiol. ) (SPINAL CO1W)  MHGHERYAKOV, F.A.; SUVOROVA, V.A. Nev method of makdng a fistula of the pancreatic duct in cattle. Fiziol. zhur. 46 no.1131419-1421 N 160. 041'u 1) -- J-1.) 1. From the Chair of Farm Animal Physiology, Agricultural Institute, Stavropol. (PANCREAS) (FISTULA)  PHASE I BOOK EXPLOITATION SOV/5437 Meshcheryakov, Fedor Yej~isepvich Osnovy kholodiFnoy tekhniki (Principles of Refrigeration Engineering) Moscow, . Gostorgizdat, 1960. 375 p, 10,000 copies printed. Reviewers,; A.A. Gogolin, Candidate of Technical Sciences, and M.A. Ocheretyanyy, Engineer; Ed.: Ye,M. Krest'yaninova; Tech. Ed.: D.M. Medrish. PURPOSE: This textbook is intended for students in technological divisions of schools of higher education of the Ministry of Commerce of the RSF3R. ("WERAGE: The book deals with the generation and application of artificial re- frigeration in various branches of the national economy, including public nutrition and commerce. The theoretical fundamentals of refrigeration engineer- ing, as well as des riptions of refrigeration machines and equipment and of re- frigerated transport,are also included. Special attention is given to automation, design, and operation of refrigerating plants. The appendix contains reference materials, tables and diagrams, necessary for the computation, design, and opera- tion of refrigeration machines and plants. Ch. VI, VII, and XIII were written c ard a-A 2 -  Principles of Refrigeration Engineering SOV/5437 jointly, with V.M. Shavr. The author thanks the Department of Planning and Equipping Establishments of Public Nutrition of the Institut, narodnogo khocyaystva- imeni G.V. Plekhanova (Institute of National Economy imeni G.V. Plekhanov); the Director of the Vaesoyuznyy nauchno-issleduvatellskiy institut, kholodil'noy promyshlenno.sti (All-Union Scientific Research Institute of the Refrigeration Industry),Sh.N. Kobulash-ili,, staff members of this institute,A.A. Gogolin, S.L. Gimpelevich, I,F, Dushkin, N~T. Kudryashov, D.N. Prilutskiy, A.D. Tezikov, V.B. Yakobson; Engineers of the Giprotorg A.V. Shaposhnikov, V.N.Shibanova,- and the chief designer of the Tsentrallnoye konstruktorskoye byuro kholodillnogo mashino- stroyeniya (Central Desip Office of Refrigeration Machine Construction) ED- gineer Ye.S, Gurevich, There are 39 ref3rences, all Soviet. TABLE OF CONTENTSt Foreword 3 Ch. 1. Physical Nature and Methods of Refrigeration 7 Ch. II~ Theoretical Fundamentals of Mechanical Refrigeration 9 Card- Z/&2  Le  MESHCHWYAKOV, G.A., Inzhener. Computing the correction for lateral refraction. Sbor.st.po geodonool:49-60 151. (MIRA 9:7) (Refraction, Terrestial.) (Triangulation)   3(2) SOV/154-5a-6-12/22 AUTHOR: Meshcheryakov, G. A., Candidate of Technical Sciences TITLE: The Development of the General Theory of Euier's Projections (0 postroyeni-i obshchey teorii proyektsiy Eylera) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodezi,a i aerofotos"yemka, 1958, Nr 6, pp 111-113 (USSR) ABSTRACT; At the end of March 1956, Professor N. A. Urmayev suggested to the author a task on the building up of Euler's Projections. The author could not solve the set task on the basis of exist- in.g papers on Euler's Projections, and was obliged to create a general theory bj which he could solve the task. This theory is described here in short. The Eeneral solution for the case where the individual radius is represented an a spherical sur- face (this is sufficient for cartographical purposes: the rep- resentation of the spheroid in the plane can be easily converted to the representation of the sphere in the plane), and the method for building up Euler's projections are eiven. There are 7 references, 5 of which are Soviet. Card 1/2  SOV/15,i-58-6-72/22 The Development of the Genera-l Theory of Euler's Projection3 ASSOCIATION: Novosibirskiy in:~titut inzhenerov geodezii, aerofotos",femki i kartografii (Novosibirsk Institute for Geodesy, Air Survey and Cartography Engineers) SUBMITTED: September 10, 1958 Card 212  69874 0 o C) 3OV/35-59-9-7575 Translation from. Referativnyy zhurnal, Astronomiya I Geodeziya, 1959, Nr 9, pp 1,38-109 (USSR) AUTHOR: Meshcheryakov, G.A. I-V TITLE: On the Question of Solving an Inverse Geodetical Problem PERIODICAL: Tr. Novosib. in-ta inzh. geod. aerofotos"yemki f kartogr; 1958, Voi 10, F pp 79 - 2 ABSTRACT: In solving an inverse geodetical problem in the case when two points are defined on different and differently oriented reference-ellipsoids, two additional problems arise: the determination of the influence of the difference In the orientation of the ellipsoids, the allowance for the difference of their sizes and oblateness. The most difficult is the cal- culation of the difference of their orientation; for this it is necessar-j to know the plumb line deviation at two starting points of the orientation of the ellipsoids in the body of the Earth. Considering the orientation error as known the author suggests that the corrections of the relation of the geodetica-1 coordinates to the surface of any ellipsoid should be cal- culated according to F.A. Sludskiy's formulae given by him in "Lectures on Card 1/2 Geodesy".  69874 On the Question of Solving an Inverse Geodetical Problem SOV/35-59-9-7575 * 6*B - m sin B cos L + p sin B sin L cos B + 2ae sin 8 cos B ~F e; * cos B S L m sin L - p cos L; 2 E h = - 67a m, cos B cos L - p cos B sin L - q sin B + ae sin e. If the difference of orientations of two ellipsoids ( 6 B 0, E L 0 Sh 0) is known, the quantities m, p and q, that is, the coordinates of the center of the second ellipsoid in relation to the first are determined by the following formulae: m = - Cos B Cos L E a - sin2 B cos B sin L a e (~ e + sin B cos L a 9 B + cos B sin L a 6 L - cos B cos L E h ; p cos B sin L S a sin2 B cos D sin L a e e + sin B sin L a 8 Bo cos B cos L a L0 - cos B sin L ho; q - sin B E a + (sin3 B + sin 2 B cos B) a e - cos B a E Bo - sin B & h In the article the numerical va-lues of m, p and q are given for the ellipsoids of Bessel' and Krasovskiy. The calculation according to the obtained formulae for the ellipsoids of Bessell and Krasovskiy with an orientation in Pulkovo yields the following resuitZ; m 364 14 , p f-- - 277~4, q 664,k G.V. Bagratuni Card 2/2  89560 /6, C111/C222 AUTHOR: Meshcheryakov ',-G-A~ TITLE: A generalization of the notion of the stereographic projection PERIODICALs Referativnyy zhurnal, Matematika, no.8, 1960, 194, abstract no. 9435. Tr. Novosib. in-ta inzh~ geod.,aerofotos'l- yemki i kartogr., 1956, 11, 87-102 TEXT# The author considers a bounded region of a smooth surface and introduces isothermic coordinates on the surface. The coordinate li4es of the isothermic system are called isothermic circles and isothermle rays. The author's scope is to find a conformal mapping of the surface onto the plane so that the isothermic circles are mapped onto the circles of the plans. There are 9 references. (Abstracter's notes The above text is a full translation of the original SoTiet abstractA S/044/60/000/008/032/035 Card 1/1  3(2) AUTHOR: Mesh cheryakov, ~. A., Candidate of SOVI,"l 54- 59-4-11/17 Nd~hziicdl 'Sclendes, Docent TITLE: General Theory of the Euler Projections (Obshchaya teoriya proyektaiy Eylera) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodeziya i aero- fotos"Yemka, 1959t Ur 4, pp 93-103 (USSR) ABSTRACT: Euler projections are equal-area projections of the meridians and the parallels with an orthogonal grid. In all papers (Refs 1,2,3,4) which dealt with these, the questions of distortion were not discussed, Owing to the works (Refs 2,3) the setting up of a projection with a given distribution of distortions along a certain line is greatly complicated, The problem is solved by the integration of the Euler-equation or by the integration of the equation of N. A. Urmayev which io.,identical with the Euler-equation. These equations (hyper- bolic differential equations with partial differential coef- ficients of the second order) are quasi-linear and no prac- tical patterns for the solution of such equations exist. Here a solution of this problem is given by reducing it to equations Card 1/4 which are easy to integrate. The solution of the problem is  General Theory of the Euler ?rojections SOV,154-59-4-11/17 given for a spherical area with a standard radius~ Here we start from the following statements: x and y are rectangular coordinates of the points of the Euler-pro ection the latitude, the longitude, s. sine, g= n~ 2 n' 2 cos s2), where n- n(s,~) is the scale along the parallel and is a certain function of latitude and longitude, i.e, 0- P(s,A), Formulas (1) are written down If, therefore,. P and g are known as the functions of latitude (or s) and longitude, there are two equations (1) in perfect differential quantities- from which x and y can be determined. In this case P and will satisfy equations (2) which is signified as the basic system. The problem is solved for a sphere with independent variables y and X or a and ~; the transition from one group of variables to another is obtained by an exchange with a= sinT . This makes it possible to interpret functions 0~ g and x, y already on plane s, ~, i,e on a plane of the isocylindric projections which play the same part in the theory of the Euler-projections as the Mercator-projection plays in the theory of the conformal projections. With arbitrary ~--values the poles of the sphere are excluded from Card 2/4 the investigation. According to the definition of g it is r:7  Gezxeral Theory of the Euler Projections SOV/154-59-4-11/17 supposed that always g > 0. Function 0 is the convergence of the meridians in the respective point of the projontion, First of all the basic system is investigated~ For this purpose the necessary terms are derived from the theory of a system of two differential equations with a partial differential coef- ficient of the first order of two functions wanted, with two independent variations (Refs 8,9,10). Two practical methods for the setting-up of Euler-projections are shown; 1) On the basis of the solution of equations (c ) and (c2) of the characteristics of the basic system in the plane 9, A and 2) on the basis of the solution of the reduced equations (cf) and (cA) in the plane 71 (constant parameters which 2 determine the characteristics of the first or second bundle, The characteristics of this auxiliary plane 9 are straight lines. It is shown that for some Euler-projections g is determined by differential equations with partial differential coefficients of the first order and in othexBfunction g is determined by the solution of the differential equations with partial differential coefficients of the second order, Both Card 3/4 kinds are investigated here and the theory and method for  General Theory of the Euler Projections S-0,1054-59-4-11/17 their setting-up is given, At present the author deals with a comparison of the methods given here (Construction of the projection on the basis of the solution of system (2) on the s-~ plane or on the ~- 1plane. Investigation of the Buler-projections which are determined by an equation with partial coefficients of' the first order, construction of Euler-projections which are determined by equations of the second order) and he deals with the construction of some concrete projections. There are 11 references, 9 of which are Soviet, ASSOCIATION: Novosibirskiy institut inzhenerov geodezii, aerofotos"yemki i kartografii (Novosibirsk Institute for Geodetic, Aerial Survey and Cartographic Engineers) SUBMITTED: September 10, 1958 Card 4/4  AUT11OR - TITLE: ~eshcheryal~ov, G. A Nen e-1hol of Calcula~41~~:-- 'b" a r~ r Izvestiya vysshikh lotos"yemka, TZIXT: In his paper (Ref- 4), 'he z-)rke-3 o-.1 a ~.-teory Of e _r e C formal project ions. It co mpr is e -, 'o- - .2 conceo' transversal projections as a o n of stereographic pro~ectinn off ar'-,- the classical analytical oefin4ltion ~-~r r 1-0 r a e ct the projection is determined by n 3 r: 1 nc :1 Details of this theory are no,, CI;v the pa pers (Refs. 4, 5) are recall 1 T t e 'i write s dovin the f in'al f o rmulas for t he M~j 7 e S nb'; i~,,, e jections, namely for the e - ;,)n 0" t h e e"r-Oi-I Card 1/11  A New Method of Calculatim7 Oblic-:- Conformal Projections P -7 2 cos i- sir. y C "G'~,- T ~2 m = C ZO ,7P - 2 co where th,i constant c is determ.4ned f - n fo r m,_~ I a C . m, r1 [P, -? 2 cos i, For the slereographic pro4ec._:_:~ of Cos sin C(,_~;,; COS X sin co s sn y C sm cos :0 Cos Ip. C M sin'r, COS,~.. CO~ _P C()  A Nei Y et hod of Ca I c ul at C-b Ie Confprmal Projections For the cylindrical pro-'ect-ion of 2cos if Pt 2c Os J! C ~ -M where the constant c is determ Jine~! 7-:~ -c, f-,I For the cylindrical pro iectior- Card . 31 1 1  Te~y Metho,! of Ca 1 cu I a ' i n Conformal ProJections CtL sin sin -4.~ cc s L Ig sin'Po sin c,)., c-s'; Cc's Cos sin 0. ~c - aictg cos,~n sin sin 'L,,sto cos C R (1 -4- sin,~.;, sin + Cos '.Fo COS C05 x I - sin sin'? - Cos ~o COS ros where the constant c is conical projection of the -?'I! Card'4/11  b J c a e Calculating vk method of A NO Confqrmal Projections where a an2 k can be -Ietermine~ s in siny kI& + sin,~, sin COS Cos ==a -a rctg cos cos COS YOSIT1 rn Ril I/ti sin sin cos co~ and for the conical proJectiO' Of -ard 5/ 11  A New ',!ethod of Calculating ObLiq-e Conformal Projections x QOS sin A In these ~Ormuias, and are the Q the surface of the soheroid or snhe-'. so. latitude of the point on the i.e., q = ln 9; and % are ab ' e-, and U /U + 9/u are functions i 0 0 the Lid of the enclosed table ; r -4 i~ T I F is the radius of the terrestrial Cartesian coordinates of the zpr~).4 e c T. e ordinates of the nrojection nofnt; respective projection poi'nt; - is ~ener2l c, a, and k are the constantS + 7 r 7, 2- - the present Daper, the aulho- Card 6/11  41 A New !~Tethod of Calculating 061~!,que 'Conformal Projec t4 ons oblioue conformal urojections on the b~s;- of t*nQ method, all simple conformal .-rojections are C-.Iculatel from the formulas indicating the coordinrit,'~r, ?f t-- nro~--,cti -~n 7,)*Lr".~~ the scale. Special tables should be ufe-', ~Ilc --a' C,-: 'tables of the product's of two t r i r~ r p rn - I r n.- I cosine)., e.g. frorm. the paper (2e,. ericlosed auxil iary table f or prc jcc- un~- Df t'-,-- s,)Iher-) 4 0 . .. - I - A 1; - ~., - -4 1 an" -)f the order of calc-;la t 4ons for th,e rrr) -'ections o' sphek-e, respectively. The encIlosed auxiiiary t~'-,le for conf r:nal project-Jons of t'ne 7 r:~ ~~ D v s e r? e I n 7 annex x. There are 2 tab'-~s --n3 ASS'OCIATION: Novosibirskiy kartogra-rii ova s ib r s k in s te c, o' ~eo Photography and Carto.7ran'-y) S TJ'3 1111 T T ED January 16, 1')6,~ Card.7/11 i  k, 0 Card 8/11 B012/BO511 BcuwtoraTOAL.uaR Ta6miBi AAfl U1.11111CACHMI ICOCLIX ROTICI)OPMULIX u u 0 1.000 cooo 1 .(~Or) Wj~~io 000 Of)()() 2 (,'(jO 00, I 1 .0; 7 488or O.Io2 Ci. 03.1 676 2 r) 1 035 288,; o. ;-i 0. 00) 37-11 3 1.053 4110 0. j 2k 2 4 1-U, I bb~ 1 0 . 9 32 9506 0.13S 9! 75 5 1.000 6720 0.916 0. ! 73 ,)061 2. C' 5 0 1.109 8357 D.S(j! 0 3 .3 0. 26-S SO 15 0 ~~ -,V) 7 1.129 3 7 0.863 4,73 0.2;3 9255 2.01-1 S- GO 8 , 0 co6") 0. 279 2iju.1 0 1 li 31;-l 2 9 9 1.16 6242 0.851 9755 0. G I ~ 7 2.024 -.()-.7 10 1.100 369 i 0. S46 o 7 5 2,~66 2. Wo 7 11 1.211, 5485 Cj h66 0 1 S,~6 12 1.22.3 1797 r" 7,~ U. Z 2 2 13 1,255 2806 0.796 6346 0 5S 2.01-1 v 14 1 1 277 870-1 0.782 1~ 5 19 0. ~l (15 1 ~ L 2 - (40 i -2 2, is 1.300 9693 0. M,,~ 6.`j 7 6 0.5~2 3; 17 2. 66--) 16 1.324 5983 U. 7 ~Vll 5-156 o . .~ 6'1 2.5 2. 54.;2 17 1.348 7798 0. 7.; 0. c07 7 .18 1.373 537.1 0. 7 .7 0 .6.;s 2. ; 0 13 S  e'~' --., 6 j li 56 /b0/0()0/M,, /005 /D'--)7'/'i'X 3012/B054 19 1.398 8958 0. " 1 .1 195 0.6,-A 0463 2. 13 -7 1 20 1.424 8815 fl 7: 1 0. 1-23 0657 1 2, 4 2 21 1.451 5221 22 1.4,-8 8471 23 1.506 8877 0. ot~'i 6191, 0.'i-;3 26"i 2.170 3071 24 1.535 6769 0 - 65 i 1786 0. "-" -1983 1 2. -) :1, " 5 25 1.565 2498 0.636 ~757 0 - 926 37-12 1 2 .204 .' 2,- i 26 1.59.5 6437 0 - 626 70C~' 0. 4 1 2.222 3;00 27 1.626 S9sl 0.614 6666 1 . 0 i 21 Ii i 2. -",' 1 .1 -; ~ 6 28 1.6 9 0553 0.60) 75~226 1 1.01-6 3027 2.261 60SO 29 1.692 16Q2 0. -Ho 9CO6 1.101 ~ 'j~~6 2.2S3 1-08 30 1.726 2606 0.579 '286s I . !46 '9 73 9 305 5,74 3'. 1 .761 4077 0.567 7)77 1 193 F,8'00 2. 32-1 1354 3 1.797 6562 0. 5 56 '2 7: ~ 24 1 1-) 7,-, 3 '.:. ? -, -~ 3 1.835 0645 0. 54 io(I 1 "jo 1 2 3,~u S. 1.873 6953 0. S33 7C ;7 1.331) cj~.;06 2.4n-; .1600 3; 1.913 6~59 'j.522 7 i . ,ig ~ 0-: 0 2 . 436 1 S6~" 3, 1.954 89S2 0.511 53-~ I - 413 3t.2" 2. -166 43 ~,,s 1.997 6201 0.1 GO 59,7 1 . 4W 0 -) IA, " t 5'~ - - . 3.; 2.0,11 8650 0.4,~() 7-;h.-3 1 -',S2 1167 2-531 G:.'~-; 3! 2.087 7231 0. 47 ~ (,,,,j7 1 . 66S 7 ~2, 2. 566 7:36 4( 2. 1 Y-) 2 16 9 3201 1 . Ef 6 97! 2. GO3 6! i 41 2.184 6759 0,457 7338 1.726 (,.;21 2.6-12 40W 4', 2.235 9898 OA,;" 2'292 1.788 7601- 2-683 2 1 ~-'G 43 2.289 3571 0 - 4 -'G 8U39 S-2 5 i3 2.726 1 6,'I~) Card 9/11 44 2 2 344 912 -1552 0.4-6 1. i ~-70 1 9 & 4' -4 2.7, 1 35,  45 2.4-,2 8015 3..It:6 i6O9 46 2.463 18-16 0.405 0785 47 2.526 2361 0. 39.5 t-115S 48 2.592 1471 0.385 7806 49. 2.661 1274 0.375 7806 50 2.733 4075 0.365 8437 51 2.809 2420 0.355 9679 52 2.888 9118 0.346 1511 5.3 2.972 7286 0.336 3913 54 3.L61 03S4 0.326 6865 55 3.154: 2268 0.317 0349 56 .3.252 7249 0.307 4345 57 MW 0157 0.297 8836' 58 3.467 6-131 0.288 3803 59 3.585 2206 0.278 9229 60 3.710 4438 0.2G9 5095 61 3.8-1-1 10-12 0.260 1386 62 3.9S7 1062 0.250 8085 63 4.140 4885 0.241 5174 64 4.305 4491 0.232 2638 _.~5 4.483 3780 0.223 0461 66 C d 10/11 4.675 S969 0.213 8627 ar 67 4.884 9092 0.204 7121 8626o 3/154/60/000/004/005/007/XX B012/B054 086 6203 2.8!8 9823 2.0 7,669 1631 2.130 3903 2.,22 V'-,'-10 -4.206 3,- '66 1 0.977 9277 3.036 S079 2.285 . 468 2.367 5638 2512 2. 415-3 ,7.,o . 3.165 2099 2.5-12 i607 3.235 0629 2. G-16 3373 3.309 111)9 2.734 3518 3.3S7 7-1.19 2.837 1919 3.471 2617 2.945, ,2903 3.560 1594 3.059 1321 3.654 8991 3.179 2628 3.756 0234 .3.306 2977 3.664 1435 3.440 93-13 3.979 95-33 3.583 9656 4.10.1 2428 3.736 2978 4.237 9147 3.898 9711 4.382 0059 4.073 1853 4.537 7129 4.260 .3319 4.706 4241 4.462 0341 4. 889 759G 4.680 1971 5.059 6212  8626(D S/15h/60/000/004/0051/007/-kX B012/BO54 6S 5.112 6645 0.195 7 ! -1.917 07 IS 5.306 2573 69 5.361 S-112 0. 1 5.175 33,91 5.548 34-13 70 5.635 6527 0.177 :- 1 5.456 2i09 5.813 01);q 71 5.937 9894 0.108 io72 5.769 J822 6.106 3 cj'6 6 72 6.273 6061 0.159 3980 6. 114 2081 6.433 00-10 73 6.64S 3761 6. 150 4127 6. 497 963-1 6.798 7,h68- 74 7.069 6.113 0.1-11 11,199 6.928 1915 7.211 6912 75 7.546 7014 0.132 5082 7. At 1 .1 1931 7.679 ') 0 (j'6 76 8.091 5128 0.123 5863 7.967 9265 8.215 09U0. 77 8.719 7110 0.114 6827 8.605 0283 8.834 3937 78 9.452 1433 0.105 7961 9.3-16 3-172 9.557 939-1 79 10.317 2378 0.096 92517 10.220 3126 10 414 1629 80 11.35.1 7936 0.088 06853 11.266 7251 . 11.442 8622 81 12'622 2986 0.079 22.i87 12.5-13 0737 12.701 523-; 82 14.205 9840 0.070 39287 14.135 5912 1-1.276 3769 83 16.241 3566 0.061 -17121 1 !:-,. ! 79 785-1 16.302 9278 84 18.954 2605 0.0552 75859 18.90*1 IM 19.007 0191 85 22.751 2151 0.043 W370 22-707 261-1 22.795 1 &M 86 28.445 2592 0.035 155211 28.410 10-10 28.480 -11-15 87 37.9-33 4829 0.026 36193 37,907 1210 37,959 84,18 88 56.907 1565 0.017 572,18 56.889 5841 56.924 7290 so 113.822 6313 0.008 785599 113.813 8457 113.831 4169, Card 11 90 00 0.000 000000 00 00  MESHCHERYAKOV, G.A., dotsent, kand.tekhn.nauk Foundations of a genetic classificatiDn of cartoggrap~-.ic projections, Izv- vys. ucheb. zav.; geod. i aerof. no.4:109-118 161. (MIRA 15,1) 1. Novosibirskiy institut inzhenerov geodezii, aerofotosllyemki i kartografii. (Map projection)  ~ESHCHERYAKOV, G.A., dotsent, kand.tekhn.nauk Formulating the problem of the best equal-area projec+i~ns. Izv. vys. ucheb. zav.; geod. i aerol'. no.5:91-10'L '61. 0AIiRA 15: 1 ) 1. Novosibirskiy institut inzhenerov geodezii, aero'Lotos"yeraki i kartografti. (Map projection)  3/03-1/62/000/010/082/128 A001/A101 AUTHOR: 'Aleshcheryakov, A. TITLE: on mathematical formalism of modern geodesy PERIODICAII: ReferativnTj zhurnal, Astronomiya i Geodeziya, no. 10. '962, 1(~, abstract 10G42 ("Tr. NovQsib, In-ta inzh. geod., aerofotos"yemki i kartogr.", 1~61, v. 15, 103 - 115) TEX'r: The author lists divisions of mathematics necessary for various branches of geodesy. He recommends to use more extensively Chebyshev's poly- nomials and nomographic methods in geodesy for numerical and graphical proc- essing methods respectively. Vector and tensorcalculi should be used in sphe- roidal geodesy. Forgotten results of Christoffel are noted, who studied geode- tic triang1es on arbit'rary surfaces (E. B.. Christoffel "Abh. Ak. Wiss. Seriln", 1868) and tinose of Forsyth who analyzed trigonometry of ellipsoid of revol,;tIon (A. R. Forsyth. Lectures on the differentials geometry of curves and surfaces, Ca-ibridge, 1920). In mathematical cartography, determination of projections with properties prescribed in advance is required, on the basis of variation Card 1/2  /C ;:A 2/_ On mathematical formalism of iodern geodejy C, criteria anci Chebyshev's criterion. For compiling maps, it iz3 dez-1ra*o1e create a theory of transformations in Wnicii coordinates ~f the ,oints C" ~;Iane w,-u'-d be expressed by 2nd degree polynj:.-,ia!s on the to design co:,responding devices. in this connection t,-e article by :". P. 3~-- dy-u'kov (RZ,-,Astr, 1961, _IjG291) is mentioned. Tn gravlm(-tr-j ,--,d the theory of the Earth's figure, it is desirable to use ellipsoidal functions (E. Ecbio-. Ihe theory of spherical and ellipsoidal harmonics. Cambridje, Migal ","'auchn. zap. L'vovsk. politekhn. in-t, seriya ge.i~aezicnesk", lc-' v, 15, no. 1), and for solution of the inverse problem ir, the potential tne- ory, non-correct proble.,.-.s of mathematical physics should te solved (Caucilly problem for elli;~tical equations). Photogra~.-:metr-j calls 'o- t_he use cf ii-fSher geometry, vector and tensor calculi. Processing of measurement results calls for the use of probability theory and mathematical statistics. Vlatrix and tensor calculf should be enployed. The birth of new disciplines is noted; selenodesy (RZhAstr, 1960 no. 8, 7408) and practical lunar astronomy (RZhA'str, 1959, no. i, 1211), There are 63 references. 0. Sheynin Abstracter's note: Complete translation] Card 2/2  3/020/6!/136/005/004/032 Ciii/C222 AUTHORs Meshcheryakov, G.A. TITLEs Now Extremum Probleme PERIODICALt Doklady Akademii nauk SSSR, 961, voi, 136, No. 5, pp. 1026 - 1029 TF,XTs The author considers new extremum problema of the mathematical cartography. At first the author investigates the following special case, In the region D s I x I :!!~ AI y I -:-~ ",- , wh e r e A % I - :' IC > 0 lo arbitrarily small, let be given the hyperbolic quasilinear Bystem I (1) e 2v(. xe )U 0 1.1y+ e2v 2)""x 27 1_x Problem A Which initial condition6 (2) u - U(X,O) V(xnO) must be prescribe! in ord'er that the scluti^-n v v(x,,y) in a certain neighborhood of the initial curve y - 0 deviates least from rero" With the aid of the methoi of :harazteristics it is shown that the initial Card 1/3  New Extremum Probleme 2rj34-,' S102 61/136/005/004/032 C111YC222 conditiona (9) u X) ~- 0 0 must be chosen. If (9) is satisfied then in every point P of the neighbcr- hood of y - 0 ~ the solution of (1) has the least absolu'e value among all values which it may obtain in this point for arbitrary o;her Cauchy initial conditions. The reault is not only local but also global since it is valid for the whole region cf influen,,~~- of [ A, + A~ for (9). Then theauthc-r formulates analogous probleme for quasilinear elliptic, hyperbolic or parabolic systems (I) a u + a + b,,u b, 7y . C1 ~ a b u +b Vy . c ii x 12'. 2 21'x + '22'x + 21 Y 22 2 where a ij ~ bij ~ ci are assumed to be continuoas funotions of X,YU,V- Similar problems can be given for equations of second order or still more general equations. A further, generalization of the problem is possible by seeking not only additional conditione which must be satisfied by the solution in order that it deviates least from zero, but also by seeking also the curves on which these conditions shall be satisfied. In contrary Card 2/3  New Extremum Problems 3,46 S-/020/61/136/005/004/032 C-,11/C222 to the usual theory cf differential equati~ne whil-h is denoted as the theory of the description of physical pr3cegses, the invest-Agation of the given new problems is called the thec-ry of the predl--tion and control of physical processes. The author mentions P.L. Chebyshev and D.A. Gravr- There is 1 figare and 6 Soviet references. ASSOCIATION2 Novosibirsk" y institut inzhenercv aer,.~f 4 - ~ toe y emki i k-arrogreLf ii (Novosibirsk Institute of Engineers of Geodesy, Photo- grammetry and Cartcgraphy) PRESENTED~ September 26, '9601, by S,L. Sobolev A.,ademirian SUBITITTEDe September 24, 1960 Card 3/3  MESBCHERYAKOV, G.A.), laand.tekhn.nauk, dotsent On the best eq~dvalent projections. Izv. vys. ucheb. zav*;geed. i aerof. no.2:3-15-125 162. WIRA 15:9) 1. Novosibirskiy institut inzhenerov geodezii, aerofotos"yemki i kartagrafii. (Map projection)  L 18223-63 BDS ACCESSION NR: AT3001864 S/Z909/62/000/006/0102/0109 AUTHORS: Zagryazkin, N.N.; Meshcheryakov, G.M. TITLE: Multi-electrode spark plug with preparatory ionization of the gas gap L SOURCE: AN SSSR. Institut dvigatelel Y, Trudy, no. 6, 1962, 102-109 TOPIC TAGS: engine, internal combustion, ignition, spark, spark plug, plug, gap, ionization, advance, fuel-air ratio, electrode, testing equipment ABSTRACT: The paper discusses the theory and describes experimentation with the spark discharge on internal-combustion engines; it investigates the possibility of obtaining a stable energy transfer delivered with each spark discharge in a given. spark plug. More specifically, the paper deals with the stabilization of the ioniza- tion of the spark-plug gap, the flu~ctuations of which lead to uneven spark dis- charges and, ultimately, to an increase in the lowest fuel-air-ratio Jimit at which engine operation is feasible. The spark plug employed comprised 3 electrodes (F), namely, a main E and a grounded E, spaced so far apart that a normal spark dis- charge with the given secondary voltage is unlikely, and an auxiliary E placed be- tween the main and the grounded E. A preparatory discharge was brought about between the auxiliary and the grounded E, an intensive ionization was thereby Card l/ 2  L 18223-63 ACCESSION NR: AT3001864 produced in the main spark gap. and the principal discharge between the main and the. grounded E took place-. Various voltage and gap relationships between the mairt spark gap and the auxiliary, ionizing, spark gap were tested and are de- scribed. Conclusions: 1. The introduction of a supplementary E into the main spark gap pormitfi effective control of the beginning of the main spdrk discharge. 2. Preparatory ionization permits a discharge in the spark gap at potential gradients (P',-';) of 2.4 kv/cm, significantly smaller than the corresponding PG of 12.3 kv/cm required for discharge through a nonionized gap. Preparatory ioniza- tion, therefore, permits a considerable enlargement of the spark gap without a corresponding increase in discharge voltage, that is, without any appreciable complication of the ignition system. 3. The preparatory discharge affords a satis- factory stabilization of the discharge voltage of the main sparl, f",ap. 4. Prelimi- nary experimental data obtained thus far substantiate the hypothesis that prepara- tory ionization affords an intensification of the energy per unit volu me of spark ga.p. The results of this study are regarded as preliminary. Further inves~iga- tions in this field are continuing at the Ob"yedinennaya problemnaya laboratoriya Jnstituta dvigateley AN SSSR (,Tqint Problem Laboratory, Engine Institute, AS, USSR) and the MADI. Orig. art. has 5 table. L. __1 D-~~TS ~'CQ~ A-pz 6_1 EXL, 00 5"M --F, 'P-i' :WR REF Card 2/'  ZAGRYAZKIN, N.N.; MHCHERYAKOV, G.M. Preionized spark discharge for the ignition of fuel-air mixture. Avt. prom. 29 no.7:19-21 JI '63. (KrRA 16:8) 1. Moskovnkiy avtodormhnyy institut. Obtor vehIcIot3--Ig-,)it,JOTA)  A "C" S' ON 1 -R, t 05-00"677. S/0 13/~'Iloc u 1 '101611001110013 A I Te 11M -Ifeshcher-yako G. M. TIM The use, -of prelimin-axily.- ionized sps-ric Air;chargees foir~the ignition, of coi;~Uatible mixturee in inteiiial combustion engines.. 3 0 U-11 GE -Avtomobil In ay Ia pr on7shlenn .ost.I nQ. 11p 1964, 11-13 gbi, -TOPIC DIGS: internal: combustion en e ionization, :,spark ignition/ MMI 086 a lir~~ Gooled en e ?W1,19 966 four cylinder on i o, qputnik automobile, Ertra gasoline 4in A 7-5U spaxrk plug, MBNITJ~P eloctrodep DSF 6 oil ACT- -Ripe=ental-resulte-on the use of prelimin 3STF arily ion Tzed spark diachargea in inte rnal combustion ezigines- are reporlUed.- The tests were conducted on an air- cooled engine)'. 1UNI-0861 designed on the basis of the four-cylinder engine MeLM-966 -During -L caid intended for, use in the automobile "Sputnik the experiment. the engine was cooled.by an indepeirdent ventilator ayatem* The constant temporat=6 was iraill- tained by-controlling the ventilators. "Ertra". gasoline, fuel and "DSP-0" bvand The standard ignit -8 ug was of the titpe A705U lubricating oil.werewed ion park DI ~04 X 1 w25 MM), and the electrodes vere of the type TRUMP. The experimental, system for:sparking included a tri-olectrode'spaxk plug. The apeed of the engine 7w; varied from 1600 to 2600,ropom, Itwaa found that the i-atenaification of the Card , 1/2  IM M W: i 77 -65 L:,~4111 Appo2677 gansfdN HRI by the iAdicat" econovy increaff can zed charge lo"jer loads th the use Of Pre-ioni , mixtures Un4- xicing due to- with poorer --BPS mixfw i.,j the _IWII~woa.6 angiu~D of weaker owing - th Use I _.- . Jjj- ased i _4 lood ~rkint_ ore A k anoy' :30t AE Ull the: -inore"el ---fj es. J -atomobile Orig! - tno ff- Mos avtomobil iSSOCTATIOITI kovaidy TP so, oWs PR# 00 00 alugal 001 W4 807: 110 1w, n ~ 4  -A 6033CF~65 EVIT 1 Y/f_ F(C),It N 57/65/0 UF,/O M~- 0-,ESSIQ N IU -AP50la302 0., Wbo!A236/124i A 537. 523.4 J41 M W .V Meshch AUTHOR. J6 the U. . . . . .TITLE-z Influence of Dreliminary ionizatio -of as on the nature of the redistribution, in -a spark-discharge energy S-OURCE::' Zhurnal tekhnicheskby fiziki.) v*_35j, nos-7y 1965, 1236-'31.241 TOPIC TAGS z -internal ~combustion e,~&ine~_ igriltiqnl'~ ionization, spark- ignition ABSTRACIJL2 This paper -is primarily.concerned 'with the.spark ignition of fuel,, mixtures in iryternal combustion engines* The authorgives a brief theoretic ".n 'discussicn~of the thermal 'efficiency of a spark and concludes-that the,thirmal effici especially at hiGh pressures, by a ency, pan be considerably.increased preliminary ionization of the gas,, The theoretical conclusions are illustrated with- cheryak -previoi_Lnly.publisheed experimental.data-(N.NaZagryazkiii and GoM*Mesh ov;_ -I GoVolleshcheryakov, Ibid. No ll~ 1 A~Aqmobillnaya promyshlennost, No. 7, 1963. 1964: Yu&I.Timoshenko, Tr. -in st dvigateley P11 SWR NO. 61 U 11 Zagrya%kin and. -InAhese experinents,- which-included ignition-of -stream of propane-air- 1952) rali:)6ures, :83 xell as operation of Internal combustion eniginesp the.preliminary 14'i :-T~ ionization was provided Vj a 1" enorZ_y spark. preceding the principal dischargei   Lo C7 J. 0 68180 SOV/58-59-5-10724 Transla-lion from: Referativnyy Zhurnal F1z1kaj 1959, Ur 5, p 121 (USSR) AUTHOR~ Meshcheryakov, G.N. TITLE-, Effect of Low-Energy Radioactiye_B4414tion on the Surface Properties of Metals PERIODICAL: Nauchn. zap. Odessk, politekhn. in-t, 1957 (1958), Vol 17, pp 235-242 ABSTRACT; The author made use of 1.17 and 1,38 Mev gamma-radiation with an intensity of 0.02 roentgen * cm-2 . min-1 to study the effect of irradiation (1) on the pendulum hardness (H) of a number of metals under loads of 150 - 1,500 g and a 0.15 mm curvature radius of the needle, It was established that the load dependence of H preserves its character but that the H numbers grow by a factor of 1,5 after 30 minutes of exposure if H is measured under a load greater than 1,000 g, If a jet of oxygen is blown on the sample during irradiation, the H numbers are reduced (for Zn the value is only 75 instead of 85). Card 1/2 At a depth of 0.4 - 0.5 mm under the irradiated surface H is 30 - 40%  6818o SOV/58-59-5-10724 Effect of Low-Energy Radioactive Radiation on the Surface Properties greater than at the surface. In the case of Pt the hardness increases by 70%. Au does not react to Irradiation. The softening effect of surface-active liquids in- creases as a result of preliminary irradiation. This apparently testifies to the effect of I on adsorption phenomena. R.1. Garber Card 212  Ln. 'y 25 n z (t ~49 2 Ir S, ~,Jkhc 140 25174  MESHCHERYAKOV, G.V. Possibility of using the direct measurements method in studying disloeation processes in the Argalimsay Aine. Trudy Inst.gor. dela AN Kazakh.SSR 8~,34-39 161. OAIRA 15:4) (.14Lrgalimsay region---.Rock pressure) (IlLne surveying)  aj R.V.; MESHCHMYAKOV G.V - BALAI , e rock dipplacementso Using th, optical method to determi"e relativ Trudy Inst. gor. dela AN Kazakh. SSR 11:159-168 161.(MRA 16-.8) (optical measurements) (Subsidences)  BALAKH, R.V.; TARAKANOV, I.G.; ~ESHCHERYAKOV, G.V. Advantages of filling cavities on the liDrer leveis c)ll' the Mirgalimsay ~Iine and mining support pilia'-rs. Trudy Inst. gar. dela AN Kazakh.SSR 12:3-12 163. (MIRA 17-F)  AL4C NR1 AP6005L46 SOURCE CODE: UR/0126/66/02110011014010143 AUTHOR: Aadriyavskiyo R. A. Zagmkin, V. N.; MeshcheEL&kov. 0. rao Vim* No xcow, Institute.of Steel and Alloys (Koskavskiy Institut stali I splavow) T11U: ~Study of the Lou can in 5-zirconium _9f cae SOURCR: Fixfka metallov I metallovedeniye, v. 21, no.,11, 1966, 140-143 TOPIC TAGS: physical diffusion, carbon, zirconium, activation energy, Isotope ABSTRACT: An emulsion of radioactive C was deposited an specimens of O-Zr which t4ereupon were- amealed at 1100-16(10*C for from, 0.5 to 5 hr in a vacuum (10-4-10-5 M Hg),.with,meaaurements of temperature by means of Ft-PtRh and W-WRe thermocouples. After annealin ~tfie G films were stripped off the specimens and the activity of the J_--~ specimens was measured by means of a scaling unLt'with an end-window counter. On this basis the activation entropy A S of the diffusion of C in D-Zr is calculated at 4.95 cal/mole--dego The activation energy Q is found to be linearly dependent on the atomic radius of theelement (Q - 34.2,kcal/mole for C), and the A S/Q ratio is found to be constant for the diffusion of various Interstitial Impurity elements (H, 0, N) into one and the same metal; other metals with body-centered cubic latticeg such as cf-Fe and:Ta also' are governed by these laws. It L characteristic that the radius corres- ponding~to "zero" activation eneigy is -0.2515i$ which satisfactorily tallies with the car4. 112 UDC:, i48.526   MESHCHERYAKOV, I. A. "Polygenetic Planation Surfaces" report to be submitted for the -ntl. Geographical Union, loth General Assembly and 19th Intl. Geographical Congress, Stiockholm, Sweden, 6-13 August 1960.  SOV/136-.59-1-8/21+ AUTHORS: Klassen, V,T,, 3:.,ien,2eS and M.esh.-he,_Pyako--:, 1J., TITLE: Flotat~.on of F3.nr) 15i"mws with Air Coming Out of Solution (Flotatsiya tonk-fk-n, vozdukhom, vydelyayushchimsya iz Tast,;ora) PERIODICAL: Tsvet-nyye Matal*-.y., Nr 1, pp 27-32 (USSR) ABSTRACT: The aut--hors nota !3oma- p,-blished views (Refs 1-5) on the difficulty of fllot&tkap., mineral. crystals less than 10-5 microns in size and ~:-n the effectiveness of as in the process (Ref's One of the authors Massen) has carried out a study of the latter aspect (Refs ).,8) and fi~om thfs they now deduce that: gas bubbles are foimadl ma.1-ni-y on mineral particle surfaces, the parcc;asa mo)-,9 intensive the less hydrated the surf a _-a,; the L~`ghe~.- i;1-1,3 sur;ersaturation of water with gas tho smallez, -",he _Jn.Ltial stable gas-tubble nuclei; the lowe3, the at the liquid.-gas boundary the smalitii7 the nu.-la-1 and the more intensive the e-,olution of ai*7- partL,,-les. They go on to describe Card 1/4 experiments v1d"oh -confirmed these deductions and brought  SOV/136-59-1-8/24 Flotation of Fine Slimes A:t,~ Coming out of Solution to light naw 7-s'La`,)J.ons. In the first series of experi- ments gas separation from -various solid-free solutions at various e-fa,~-aatlons was studied in a simple apparatus (Fig 1). Fig 2 shown percentage of total originally dissolved gas that e.,omas out of solution as a function of pine oil concentration, mg/litre for different vacua, the interrupted linas showLng the corresponding theoretical percentage vali-as. r."g 3 shows the volume of gas libera- ted, ml pe-0 1 of soiiit'on as a function of vacuum, mm Hg, for various p`r_~~ 0- .L _on~,entratlons and also the initial and theoreti:.,all -as, Bubble sizes were measured photographically a_ai found to be mainly 0.1 - 0.2 mm. in diameter. A serit)s of experiments were carried out with strong aq.-,~cus suspensions of barytes (65 - 70% - 10 microns). Fig ~.-!Lows the total of originally dissolved gas -D-ut r)f solution as a function of sodium-:;leata mg/l, and content of solids. Card 2, 1+ In furthe-L exper.Lm-in+,z, Anamatography was used to study bubble- f ormatio m on E_---Uns of fluorite, quartz and barytes (left, middle an-~' respectively, in Fig 5), the wetting angles ha-V---Ing _!)~!an determined previously.  SOV/1~6-59-1-8/24 Flotation of Fine Slimes with Air Coming Out of Solution All the experiments having indicated that the vacuum flotation of slimes should be effective, comparative tests of this and ordinary f] 'otation were made, Samples of -10 micron (Table 1) quartz, fluorite, barytes and barytes ore as well as their mixtures were treated in an apparatus (Fig 6) suitable for both methods. The comparative tests were carried out under optimal conditions with careful reproduction in parallel tests of temperature, pulp density, reagent consumption, contact time, flotation time and quantity of final washing water. In general, concen- trates richer by 10-20% and recoveries 10-15% higher were obtained by the vacuum method. Fif 7 shows results for barytes ore, where baryta recovery curve s) and its ccneentration in the p:E-zduct (curve j3) are shown as ftnetions of consumi~;ion of sodium silicate (g/tonne). Tle differences betwean the vacuum and ordinary methods were particularly interesting when tests were continued Card 3/4 fcr 30 rather than the normal 10 minutes (Table 2).  SOV/136-59-1-8/24 Flotation of Fine Slimes with Air Coming Out of Solution The authors conclude that their results show vacuum flotation to be a flexible and promising method, There are 7 figures, 2 tables and 11 references, 7 of which are Soviet and 4 English. ASSOCIATION: Institut gornl)go dela AN SSSR (Mining Institute A S U. S SIR ) Card 4/4