SCIENTIFIC ABSTRACT VELICHKO, M. - VELICHKO, YE.B.

VELICHKOL_M YAREPENKO p 14. p koU*Wilk; - L#kkolkhoznik; Our village gets new buildings. Sill. bud. 11 no. 235 F 161. (KLRA 14:2) (Charkaoily-District-BuIlding)  -- -- I=ICffW* Yi,--Ae - - --- - -- - 25637 VMCHKO, M. A. i YOKEYLrVA, T. M. 0 nekotorbkh kharakternbkh oaobennostyakh i funktaii kishechnika grlvzunov. Trudy Vacsoyuz., In-ta. zaahchitb rastenil, vbp. 2, 1949, B. 157-61 SO: Letopial Zhurnall Nykh Statay, Vol. 3bi Yoskva, 1949.  I'l , .1, Vjli G i i () P 0~ 0 1 r- 4. 1 nii.,~T:-,id . U-h Blolr,Ky of the ~-. '.*.r n~ e zap Pu-d. ivst. (X:?.,. 28:3)  VEtTUX09 M.A. USM/ Biology-zoolq gy card : 1/1 Authors Velichko, M. A. Title Resting of wrynecks Periodical t Prirodap 6, U9 - 120, June 1954 Abstract I Scieiitifio observations on the nesting of wryneck birds of the Jynx Torquilla L. family. Institution : State Pedagogical Institute, Leningrad Submitted : fog*  VELIGHKO, M.V.; RADUSHKEVIGH, L.V. Properties of a hydrodynamic stream flowing around tiny stationary obstacles and the effectiveness of the captur3 of aerosol particles. Dokl. AN SSSR 154 no.2:415-418 Ja164. (MIRA -17:2) 1. Institut fizicheskoy khimii AN SSSR. Pro*dstavleno akademikom M.M. Dubininym.  j1)TV--- L C J~ r, 0, PHASE I BOOF MeLOITATIC11 Sovl~~%-O Konforentciya po povcrkhnoztnyn, silnm. Moscow, 1960. Isslodovaniya v oblasti pover11,hno3tnykh sil; abornik dolelmdov ni konforentail po povcr::~mootnam L;Ilar,, a9rcl' 1960 g. (Studiez in Ih,, Viold of Sur'aca Forces; Colloction of Rnrrtc of th2 ConKmice on Surfa'co Forco3, 1131d In Ajpril 1960 Izi- vo m SSSR, 1961. 231 p. Errata printed on tho inaida of b:Lck covor. 2500 copies printed. Sponsoring A&oncy: Institut fizichookoy khirrii Akadamii nauk SSSR. Rasp. Ed.: B, V. Dor-janoin, Corresponding Mzmbor, Acrdamy of Scicncen USSR; Editorial Board: 11. 11. Zalchavayeva, 41. A. itrotova, M. 'et. Kuaakov, ~. V. Norpin, P. S. Prokhorov, M. V. Talayov and 0. 1. Puka; Ed. of Publishing House: A. L. Bankvitsor; Tech. Ed.i Yu. V. Rylina. PURPOSEt. Thin book in intended for physical chemists. Card 1/ 8  Studies in the Field of Surface Forces (Cont.) OOV/559) COVEW-ME: 7hia is a collection of 25 articles in physical on probl=z of surface ph,)nomona inVC3tiGated at or In a:j3o,,ia- tion with tho L~iborator-f of Surface Phcnor,,,-.na of the Institute of Physical Chomiatry of the Acadc-;V of Sciences USSR. Tho first article provides a detailed chronological account of the Labora- tory's work from tho day of Its c3tablishnent in 1935 to.tht! present tinc. The remaining articles discuns general surface force prob1cas, polr .. er adhesion, surface forcen In thin lic "uld layers, zurface phonomona in dispersed systems, and surface forces in acrooO13. Names of scientists who have been or are now associ- ated with the Laboratory of Surface Phenomena are listed with references to their pazt and present associations. Each article Is accompanied by references. TABLE OP CONTM."M Zakhavayova, 11. H. 71ianty-Five Years of the Laboratory of Surface Phenomena of t1ha IZMAN SSSR (Institute of Physical Chemistry of the Academy of Sclenc&B USSR) 3 Card 2/8  Studios In the Field of Surfaco Forces (Cont.) SOV/5590 Talayev, 1-1. V., B. V. Dovja.-in, and N. N. Zakhavayeva. Experimental Study of the Filtration of Rarefied Air ThrouZh Porous Bodloa in a Transitional Area of Pressures Devjagin, B. V., 11. 11. Zakbavayova, M. V. Talayov, B. 11. Parfanovich, and Yo. V. N,%!earova. Matallic Dovico for Datermi.ining tho Specific Suriaco of Powdored and Porous 1 Bodies V. SUWACE FORCES 11; AEROSOLS Der-jagin, B. V., S. P. Bakanov, S. S. Dulchin, and 0. A. Batova. Diffuziophoresis of Aerosol Particles Bakanov, S. P., and B. V..Dai-jagin. Behavior of a Small Aerozol Particle in a -"onuniforaly Hoated Mixturo of Gases Strozhilova, A. 1. Differential Counter of Condensation Nucloi Card TA 187 19C lq~ 202 203  Studies In the Fie-ld of Surface ForcO3 (Cont.) SOV/5590 Dar"jasinp B. V. 4 P. S. Prolchorov, M. V. VrOlkel Ao, Loonov. ""x., Method For Obl.ainlng'CMT-an-~ -and Homogenous Supersaturaticn3. Martynov, G. A., S. P. B--'rmnov. On tho Solution of a Kinetic Equation of Coagulation AVAILABLE: Library of Congress 2A 2,,0 Card 10/28/61  DIRYAGIN. B.V.; rROXHOROV, P-S.; VILICHKO, H.V.; 1MNOV, L.F. Diffusion chamber with a supersaturated condition constant in volume and time. Prib.i tekh.eksp. no.2:45-47 Mr-Ap '60. (HIU 13: 7) 1. Inmtitut fizicheskoy khImU AH SSSR. (Cloud chambers)  RADUSHKEVICH, L.V.; VELICHKO, M.V. 7"heory of precipitation of highly diapersed aeronols frorl a flvd on an ultrathin cylinder. Dokl~ AN S51SR 146 no,2:406-400 S 162. (MIW, 15:9) 1. Institut fizichaskoy khimii AN SSSR. Predstavleno ahademikom M,Ms Dubininyme  82880 24, ( ,Fio S/l2o/6o/ooo/c2-/Oll/O52 AUTHORS: Deryagin, B. .1 Prokhorov e ichko, M.V, and Leonov, L.P. TITLE: A Diffusion Chamber with Supersaturation Which is Constant Both in Space and Time PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No 2., pp'45 - 47 (USSR) ABSTRACT: The supersaturation in a Wilson chamber disappears rather rapidly owing to the unavoidable condensation of vapour on the walls and also due to heat transfer. In diffusion chambers supersaturation is constant in time, but not in space. The method suggested in the present paper is free from these two disadvantages and can be used to obtain supersaturation which is constant both in time and in space. The idea is to use a periodic variation of the temperature of the walls of the chamber. The problem is formulated as follows. It is assumed that the walls are always moist and the flow of liquid down the walls can be neglected. Cardl/5 Under these conditions the thickness of the layer of r moisture is constant. If one neglects the heat transfe  82880 S/l2o/6o/ooo/c7_/oll/052 f2g2 &A14 A Diffusion Chamber with Supersatura n ch Is Constant Both in Space and Time associated with diffusion then the periodic change in the temperature of'the walls will produce a heat wave propagated into the chamber. If the temperature of the walls is known then one can calculate the density of the vapour as a function of time. If the period of' the -temperature oscillations on the walls of the chamber is taken to be sufficiently short, then the temperature and diffusion waves are damped out in the neighbourhood of the walls and most of the volume of the chamber is maintained at an average temperature and density which can be expressed in terms of the temperature variation 6n the wallS. If the amplitude of the temperature uscillations on the walls is small, the mean density of vapour in the chamber will be equal to the saturation vapour density at the average temperature of tne walls and, consequently, the supersaturation will be equal to unity. At larger amplitudes of the temperature oscil- Card2/5 lations, the supersaturation will be greater than unity.  A Diffusion Chamber with in Space and Time 82880- S/12o/6o/oOO/02/011/052 E?124EJA4 Supersatura 0 Ich is Constant Both The supersaturation will increase with the amplitude of the oscillations in the temperature of the walls. A chamber based on these ideas is shown in Figure 2. The working walls I were made of aluminium foil 0.05 mm in thickness and were in the form of squares 200 x 200 mm. These walls were attached to the perspex frame 2 which was 50 mm, thick. The heat waves are practically damped out at a distance of 3 nun from the wall when the period of I sec is ised. The side walls formed by the frame are kept atthe average temperature of the chamber. This tends to reduce sideeffects but does not eliminate them altogether, so that thewmidrig -,,olume is smaller -than the geometrical volume. The heat was applied by pa.ssing short but large current pulses (of the order of a few hundred amperes) through leads in tliermal contact with the aluminium walls. The heat was removed by copper vessels 6 (Figure 2) filled with a mixture of acetone or alcohol and solid carbon dioxide. The therrial Card3/5 contact between the refrigerator and the aluminium wall J~Itl_  82880 S/12o/60/000/02/011/052 EOJJ/�3i4 A Diffusion Chamber with Supersatura o hich in Constant Both in Space and Time of the chamber was through a thin paper layer The rate of cooling could be adjusted by varying the thickness of this paper. This construction was used to obtain a temperature change of + 3 0 with a period of 1 see at an average temperature of-20 OC. The chamber was heated for 0.2 see and cooled for 0.8 sec. The supersaturction in the chamber calculated from these data should be about 10/0. In order to increase the degree of supersaturation, a larger amplitude in the temperature oscillations is required. The chamber can be used to reproduce slow atmospheric processes since the supersaturation in the formation of clouds is usually 0.10,06 and only relatively rarely exceeds 10%. Figure 3 shows the dependence of the supersaturation on the temperature amplitude for different average temperatures, There are 3 figures. Card 4/5  S/1.20/60/000/02/011,105Z EOJA/,fA'ls Const,nt H Chamber with SUP er,3aturatloh 0th A Diffusion in Space and Time ASSOCIATION: Institut fizichoskoy khimi AN SSS" (Lnstitute o?.Physical.Chemistry. f ~he Academ of Setences of the USSR) SUBMITTED: March 9, 1959 Card 5/5  10 tr;.. ri~n;7 ~p 12:3, I'achallnilk upra~ilcniYa obori.ny 'r1090 -romiteta -Iobrrivollnoao nr-,11i J. avlatsii i flotu.  S/017/63/000/00'/004/004 A004A126 AUTHOR: Velichko,~.N., Head of the Board of Civil'Defense TsK DOSAJF TITLE: Train evei~ybody.' PERIODICAL: Voyennyye znaniya, no. 1, 1963, 35 36*2. TEXT: The author describes measures that are being taken to pretare the Soviet population for civil defense. He enumerates the various DQSAAF Rayon and Oblast' Committees that are especially active in this respect and mentions also those districts of the Soviet Union where civil defense preparations have been neglected and are still inadequate. He then-dwells on the training pro- gram, describes in detail purely administrative measur6a and points out that the new tndning program provides that everybody receives a basic training of 19 hours. As of July 1, 1963, one instructor is scheduled for 50 trainees each, while with the Soviet Red Cross Organization, there is one instructor f.)r 100 persons each. .Card 1/1  US, V-,,LI,IEOJ N.D.; ':A.RKuMllayA, Ye-S- v of cilronatographir, ar-alysig in ;;as SOMS data on the efficic"t-f . ' I c,,, t,'ria weitern Ywbans Geol. refr.4- I Eraza lcg~,ing in the oid field3 I 8 no.5341+".1+8 ~~( 1b4. C a2A 17-9) 1. Severo-Kavkaz3!r-iy sovet aarolaogo khozyaystva.  MARURYAN, Ye.A... podpo3.kovnik meditsinakoy aluzhby; NEBOYAWV, mayor meditsinskoy sluzhby; ViGORUYCIO-10, V.S., kapitan maditainakoy sluzhby; _Y~gqkq~q,_J~D,_,Jcapitan maditainskoy sluzhby Mass investigation of troop replacoments for carriage of helminths. Voen.-med. zhur. no./+:83 Ap 161. (HIRA 15:6) (WOWS, IlMSTINAL ARD PARASITIC)  137-58-4-8686 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, -D 338 (USSR) A UTHORS: Korobova, I.A., Velichko, N.G. TITLE; Determination of Total Phosphorus Content in Metallic Granular Zinc (Free of Arsenic) by Chipless Colorimetry f Opredeleniye obshchego soderzhaniya fosfora v metallicheskom graruliro- vannom tsinke (ne soderzhashcheni mysh'yaka) metodom bes- struzhkovoy kolorimetrii I PERIODICAL: Tr. Ural'skogo politekhn. in-ta, 1957, Nr 69. pp 137-142 ABSTRACT: In distinction from the method in GOST (standard) ~189-41 it is proposed to employ the reaction of ammonium phoi:)honio- lybdovanadiate formation with subsequent reduction of the Mo to a blue complex. To perform the analysis, 1 g Zn is dissolved in B-10 cc HN03 (sP' gr. 1.2), and 3-5 drops 0.5% KMn04 Sol- ution are added to the hot solution, whereupon boiling is per- formed until the solution starts to cloud. Then 1-2 dr:)ps of 3% H?O? is added, and the whole transferred to a 10-cc cylinder, while a solution containing 5- 10-7 g/cc P is placed in another such cylinder. I % ammonia and I - 2 drops HZS04 (1: 2.) a re added Card 1/2 to both cylinders, and the whole is diluted with water to 2 cc.  137-58-4-8686 Determination of Total Phosphorus (cont. Then 0.1 cc of a mixture of ammonium molybdate and vanadate is addf!d to each. After 5 min, 10 drops of (1:3) HzS04, 3 drops of 1% SnCIZ soltifion, and 10 drops of saturated CH3COONa solution are added to each. The -olors are then matched by adding water, and the P content is determined, The dis- agreement with GOST 989-41 was 0.000031/o P. Z.G. 1. Phosphorus--Determination 2. Phosphorus--Colorimetric analysis 3. Ammonium phosphomol,,/bdovaradiate--ChemicaI reactions Ca rd 2/2  V,"*lA-jCl;y0, !:~ I of of -opcolopir-a-1, svuces. =.-T. #.I n. . ; . ..". - I , 5. (~",-tA '-18,'4j  VILICHKO, N.N.; YAREaNKO, M.Ya. - --------- Two hundred and thirty-three egge per laying ban. Ptites-rodstro 9 no.4:20-21 Ap '59. (min 12:6) l.Chleny sellkhozarteli imeni Stalina, Cherkasskogo rayona, Cherkasskoy oblasti, USSR. (Poultry)  LTSACHENKO, Ivan Ageyevich; VELICHKO. N.N., red.; SLUTSKIN, A.A., tekhn. red. awaimmagaaw [Electric and radio engineering insulating materials) Elaktro-radioizoliatsionnye materialy. Moskva, Sviazl- izdat, 1963. 134 p. (MIRA 160) (Electric irAulators and insulation)  ""- - --~, 1~z v -~.Ozml. 'I ?" ." j '. K -p- . -PW . C. .4 'R -~ -, "~ -: B, '.-'W - N mi~ i~,MMWTI -- P W-MM 2m  KIIHATWV, P.M.-AWCHKO, O-Ch. Spectral determination of nickel, copper, iron. man nose and silicon in metallic cobalt. Zav.lab.22 nooll.1307-1310 156. (HLU 10:2) 1. Xombinat "Severoulkelf.0 (Cobalt-Amlysis) (Silicon--Spectra) (Notals--Spectra)  K - I I I ~",' -  VILICHKO, O.Ch. Spectrum analysis techniques used at the Severonikell Works. Izv.AN SSSR.Ser.fis.19 no.2t156-158 Mr-Ap 155. (MMA 9:1) (Tartu-Spectrum analysis--Congresses)  VELICHKO, P., poilpolkovnik. C~kptain Rybin, commnder of a leading company. Toen.-inzh. zhur, 101 no.10:32-33 0 157. (MLRA lotil) (Rybin, S.A.)  %WF?XpV=W~-- Perannial grasses in the southwestern zone of lustanay Province. Zemledelia 6 no.10:86-87 0 '58- (WRA 11:11) 1, Talvovskoye opytnoye pole Kastansyskoy oblasti. (lustanay Province-GratesO  VELIGHKO, P.O. [Velychko, P.O.] How we organize the renting out of nachinery. Mekh.vil -ho 9 no.12:12-14 D '58. (KIU 12 :170 1. Direktor Bereznyanskoy remontno-traktornoy stantsit, Chernigovskaya oblast'. (AgricifItural, machinery) (Berezna. District--Repair and supply stations)  VF,LjC=t-T,.j!,j_,.~AVEfiTAYLO, V.P. Two-position SDU2 welding equipment, Artcm. avar. 16 no.10:74 0 165, (MIRA 18:12)  VIVAGHKO# PeTe., insh. (g. Zaporozhlye). Induction aWng of metal in are furnaces and a pilot plant. 11ok. trictwet,ro no,2011-0 7 158- (MIRA 11:2) (Steel-Metallurgy) (Blectric furnaces)  VELICEIED, S. 1--l- -!-f, Shortcomings In planning. NIam.Ind.SSSR 26 no,501 '55- (KLRA 9:2) Onepropetrovsk-Packing houses) 0~41  GAVRILOV. V.(;.;VSL CIIKO,_,5_,A. Effnct of the prelimirary t"rmal destruction on oxidizabillty of methane hydrocarbono. Zhur. of). khlm. 28 no. 8:210U-2101 it; 1~8. (HIIIA 11:10) 1. Laningradskiy gosudarstvannyy universitet. (Methane) (Oxidation)  LYULINSKIY, Z.P., inzh.; VELICHKOp T.G., inzh. Coating cast-iron pressure pipes vith caWonitions based on petro- leum bitumens. Mashinostroenie no.407 n-Ag 163. (WRA l712) 1. Makeyevskiy tr-uboliteynyy zavod.  MIZYUK, Leonid Yakovlevich; VajC40, ~u.T., prof.j, retsenzent; MIKHAYLOVSKIY, V.N., otv, red.; YEVSEYENKO-MISTURENKO, I.V., redo ['Input converters for measuring the intensity of low- frequency magnetic fields] Vkhodnye preobrazovateli dlia izmereniia napriazhennosti nizkochastotnykh magnitnykh polei. Kiev, Naukova dumka, 1964. 166 p. (MIRA l7tl2) 1. Chlen-korrespondent AN Ukr.SSR (for Mikhaylovskiy).  TUTGMI V. Northern lights Moskva Pravda, 1946. 57 p- (48-17219) DK5ll.Pl7v4 1. Pechora, Russia (Region)  --- ,.P-N.qPKRjj.; SAKHR&NOVA, T.P., redaktor; ICALA HIV. S.G., tekhnicheskiy redaktor. rGonquest of the Kara Kum; description] Pokorenie Xara-Irumov; 0- ocherk. Moskva, Voennoe isd-vo Voennogo ministerstva SSSR, 1951. 79-P. (Microfilm] (MLRA 7:10) (KAra Kum Canal)  VELIGHKO, V., polkovnik zapasa Irreconci',iaaii~Lty toviolations of the nor--z cf Komm. Vooruzh. Sil 5 no. 9:45-49 0 '64- OLUFA --7:12)  C ~4 PTM 8 podshodav. a. a.. Doexat MU ckr4malt (sxroRik.) I 0tTODYCAL, rz...tlym e7sehuh .04.4alsh 1 195a. Ir 2. of 107-10 (USSI) e 11-14 IS--- the& 5wevediallets, ponjolvelod 1. to. scl.pticto ..d logo$ 1e:! :m0f*ro". go 8.*4fts. na eftrj- l crophy "me October 24 to .10. 195?. Th. fall"&.* p.,.-0 IP", to too plovery 03t.10" of 1. . doaf.r."-. A. a. Ure-. ' a., t ,h a= : a . .. 3 lot 4,4 8Y. Al-rophat-drophy. 4.4 Cersofrspby over the Post F-17 Z. - ;w"" L Of the 7 A L t " A OO re4po. To. 1, 16. Wooso of the U532.* h-ofmos.r 0. W. Rousnal.klys 'T he Proweal stag* 424 Nrop"U'. of th, 073a .. Precoes4r P. 2. Zahatow. -The Present ttot. &.4 do-041*1 Took* or codd*tlo 1481mellon Ist the =,R ' Docont . 1. S. Pdoboaaw. -1*4.y-O Toluaropnical K.p. mad the ?,sOx..nt.j pr.1gleas S*4 ft7v of P.rfeqg;Ix4 to. Impo.* Is. 1. DAI..sAo. Dexter rMVoiaol-Kalhoost I I ar St a y p.roo", V. Welteux.. C&A41"te Of TOQftMIQ%I Set ...... r'P*rt*& as "he L#"Itoa* for She Xd%sbllAha-t Of Good.tia *.to., Do*-St. @,OIL* om 'The Task* S Fros..t * ,a.: , 2102 of Goodell I he treat- . a . :f cuse.t r.,ort.4 an 'Th. Pr .... t au%* 644 plessibilItL.. of =O : D"o4,p .. 4 or '&%"Rev.. IaAmosr V. 1. 3hjjjlft4.r -Oak- .- ,?no x& Slots Os4 rog9lb,iltt" for t,v*lapo*"t of Tor-l~ lastfmoseAS." 11 the vostie's as Frotee, or M. D. lonshis Pvw A I*Qt-T OR 'Th' "t-r- : outer OrleatotLem, *t PLY104 910 -to. 414 P-th. Ish ts.. of tb Odo for Leel"2104 the PT*01-14- at too t-Osm"Ats U**#'" 1 2 grvopas reported os -Too Best@ Took& of Pwfth,r b ~l tA41u-r 1. D. II.rSopol.v ..... .. ;Or Us geaurt"tt4 of pots.* L. a. C-04se.. ,At4.t. .f G."%phicel sexit .&to the pr.bl.-s of c so DIsCrIPlLs- 14 tIk- st"I'A : #repate* I doesphortag of sortal 4V %.O_phy t.."t p. j. %%,rext , opk. *. The P-xm-t., t L p"6j." at C.rjq#r%p".* Pr.f--or Is. I. 4 sea Vre.poCt. L. 'be tt*ld *1 4&.Z_ .1~. 1447."co,""t. 61 T-h-." 4od .1 A the V_-R. P. 1, so. j: spoke @a jo, do, asses, far V.rf."Isd the pr:d,:! he to 1'. SOMI-I o' U, r see :"d L" were" ..% be.- 1. C~r%.gm 4ppjj..I,. or a- Certoar.;NN." carA  802. let -shako*. 1. Z.. Carldidat. of T"knicol Res TITLA. Sot"ALfle &ad Tathat"I COMC~f*&C* Of sea K11GA t C (IMMCANQ- kQLC.t#%%6tF% MUCk t K) It P1210DIC&L. govestaya Wyo.istax .4holkeyals mm.04.mly. GaotesqPA L soporeteelyseas. 19%6. or 2. pp 114.11S (URJR) Iz!TUV% uta.b,-. pa oat. canaiw- or T.that..i sctswoft. OF.. 0* #*let&*" Zte"m DistOrt.000 to CSrt*dr*P&10 Projoe- :he r ,,. L. A CAR41"to as Tochmical scloaces. ver%4 VS 17.104TSphle'l t.c%v%.r%04 From %b. Lirpl..4 O.A Sells' to r 0, Aerial thatudropAs to C.rcagraphing Imsec-e-tbl- lagism!- A. 3. ?o1., sakho", 10 ........ . PO" ... -be Belief N.Prod at... or M. Topacragical Save (*Col. 6 I . 13 000 000).1 01.111sht-r. r.f.so.r. V.0ter at Geograpa. teat get"408. doolt Wish Ch. %..&I IL-arepat. .%rtt4r. of Asia"$,. had %he Re-SRI "Mocravaleal recultarstles of Ike regl '** &"Los.' To P.k too ... X*r*-. Sol& %& I as "" : ; It I. , " sad 100tat.to I 'It- I (;. Cars 115 "OlOgraPhy, 904 C*rtadrsphy) free Vay 6 1. 10. Tell partial. Past- IWOS100- is retail.. Sts t5'. design sor-togrophical laws. ... to. a., less delogstog from Me'sy sled 44 62 J`apr*ss%%.tl'"of dtrr.roat -9-041" In *r4 Ras 010*r allies. P-Ittelpstad 1. Ski 0: **t*r-O - Dow, #"A of she WGN. H. 0. gos-sets.. _S an "*K&lflc I's"rOft Am Aerial Caw*m DO402t.r-p.rt" se -Tao ft.$"% Or fr.. a " 1164 of 0-4*%&v,j lm&jmaRo&.. rA V#,olop..at Se of S = I stf-' V 0 F- - DrObYsx*v. Professor. Saw* a looser. .4 Ike of pholiagrose'l,tt"I 1, to. u-'s sea as for..% .."I.As a..4. -04 PftD'Shft-.trjc.l PhOtOgrSPAY *or* DORI as r 1. z4ob.4k.. A - I , . 1. reperset 40%14 4.41sit t"llizvose to. 04 or : A" 50011011 Assm Ca "I ha as at-ROSS. P.1t.4 as .01 ... I "Me. t1114-ra of greater preal.l.m. V. A. CA.414... 1 1 T of Tachatcal BeLemoa.s. 0. optical MA-#.--rl V 1 . 1; 2/1 rs#'- gftl*"V 1. 1. Andriansira ..4 To. P. or ..1 r4relsol-Mathweallool Sal."". *Pak* as U."Laters x1 :f r - foace ,tad*rs. 11"Iseer L. 1. Sabinowlais *Pak. on I6 1416% alleys is %bt samfossur f d"'gotteal lastromo, to. 1 1:4 son" S. W. Wors4o. .84 LM or 9. Say sake reported a. Sts I &h re atlas of coed.ttasl sea lk= ops. ftersom r 'A. 0: 1 is y 21 '.' . Last. "t 2. A. ewdelleal gael. y. 4. Krus Its. bases% 1. X. Ft"*.. .04 L.41.... X113,11& bd e al . partletpoate .0 the r-1t. of tb. 1, , T. r~*hs afersell th M l 604 Tockat"I Cef.r.040 k.14 I& 9t,- (11&.s&,4 ..4 G."*%teal lastruma.to). Card  Category : USSR/OFtIC.3'/- K-5 Abs Jour : Ref Zhur - RzIka, No 195~ fN 2296 Author : Velichko V A Vasilly-ev., V.P., G,~Icscv, V.V. _~4=1 Jp Title : ie~~as4emen~ of Lig~it with an 111,minstlnn &%ppfivAer &nd Dete:rmiznaticra of the Velocity c-f Pr-_~piguti,~r~ rf light Orig IIUb : Geodeziya i kartogrAllya, 19~6, N~ 1, 10 .24 Abst:ract : The constrvctiou 6f ther rangeftuder SVV-1 vith t*4o Kerr cells is described,, The sy-,chroriously and symmetrically conaected Kerr cell per- mits the use cf the ebse:ver. 's s~-yes a6s the light -sensitive element, 6nd it is the autbors' cpiri-:~,. tbat this is ths advamtage of their ir-,strment. The SVV-1 instrument vas usel. tc, messure trln&gulation sides up to 10 km long. An average of 40-50 mi.!_-4tes w,~s coascaw4 in the measwrement sf the length of one side in. 24-30 st,=pp. nl_-~ data ULI~ulated ir- the article cLr. the measured lengths of 17 sides measti-re,! vith the rangefirAer and by triangulation shov the good af;reement betweerA the measurements. The mean-squared error of the result of measuring a side 8 km Irrg amounts to 0.09 meters. On the basis of the measurement of the lengths of the 17 sides, obtained by triang-alation, the velocity of propagatica cf Light In vacuum was found to be c- 299793.9+ 1 km/sec. Card 1/1  VIMDROV, Semen Leon1dovich,; GROSHLT, Alskeandr Afanaelyevich,-. ISAKOV, HjkoLiy Mikhaylovich,; SNMEM.Ieonid Alaksandrovich,; SHIPSHIMICH, lostf MikhAylovich,;.V.TLrGHKD. Viktor Alsksandrovich,; BLIZNTAK, Te. V.,doktor takha. na~k-,piii -&,red. retsenzent.; KMIISKIT, D.H.. red.; VOLCHOK, K.M., tekhn. red. (Modern techniques of hydrographic research] Sovremennsia toklinika gidrograficheakikh ityekanii. laningrad. lzd-vo 'Rechnot transport Lenirgr. otd-nie, 1957- 170 P. (MIRA 11:125 (I~rdrographlc surveying)  VF6LICHKO, V.A., in7h. , - -, - SVV-J. optical rawp finder 9nd Its testing, resultq. Izv. iye. , ucbe't. --av.; veod. I aerof. no. 2:37-54 '5?. (MIRA 11'7) (Range finding-Equipment and sup.olies)  AVDETEV, L.M.-,,,VBLICHKO, V.A., knnd.tekhn.nauk: LAPING. K.A. Introdu3ing the optical rangefinder in geodetic meRsuring -oractice. Geod.i kart. no.9:21-27 S '57. (MIRA 10:11) (Geodesy) (Surveying--Instruments)  "The use of' 11116it location i'or the ccnstz.-uction of' ;-co-Jetical. netwc~r~s," Geodeziya i Kxtograflya, 1957, Nr 12, 69-70 (USSR). report presented at the Sci. Tech. Conf. for Geode.Tt, AeriAl Photo 7r3- pny and Cartography, 24-28 Oct 57. (in honor of the 14Gth inniversary of the Qltob~r Revolution) Organi!;,Pd try IMairt Office for Geodesy and Cartograp,7, Horre Office USSR, the I-IiIi tary-Topogra phi cal. Cffice and the Inst. for Engine7~-rs of Geodesy, Air Survey -nd Cartography, Moscow.  3S4 A THORt Velichko, V A Candidate of sov/6-58-10-5/17 TITLE: letermination of Light Velocity(Oprodeleniye skorosti aveta) PERIODICALt Gecdeziya i kartografiya, 1958, Nr 10, pp 31-35 (USSR) ABSTRACT: From 1956 - 1957 the bases of first class were measured rith the optical range finder 6W-1, issue 1956). Previously, such distances were meaourorl by means of inva:: wires. 1956 the pertaining work wa3 carried out by the coworkers of the ~11I VTS: V. A. Velichko, V. P. Vasillyev, V. Y. Fhomaza,and 1'. D. Rollshakov-ht the bases of Dugninrl:iy,' Krivorozhskiy. and Novostarodubowy A ~he last base was remeasured b7 the scientific oollaborators of the T.s.11I'XAi7 : V. I. Sinyagina and ,-.I.Demushkin in 1057. Demushkin also improved the experimen- tal unit of the SVV-1 (Ref 2). The results of the measurements were used in the determination of light velocity. First of all a short description of the survey of three bese lines is given. Jext the method of measuring the velocity of light is des- --riberl. ~' velocity of light in empty space of c = 299 793,0 'CM/sec was assumed in the computation of the length of the Card 1/2 *oase lines measured. The considerations unde-,-lying the  Determination of Light Velocity SOV/6-56-10-5/17 computation of light velocity are advanced ani it is shown that the correction to the approximativ3 value of light velocity will be -0,3 km/sec. The accuracy of the .determination of light velocity will be me - + 0,3km/sec anti the light velocity proper will be c = 299 792,7 + 0,3 km/sec.There are Vfigures, I table , and 2 references, 2 i)f which are 'Jov'ii3t. Card 2/.2  3(4) AUTHOR: VelichYqj__Y,_A,,_Z4ndidate of Technical SOV/154-59-1-4/19 Sciences TITLE: Scientific Work for the Building of Optical Range Finders of Mean Accuracy (I ; 100,000) and Experiences in Using Them, (0 nauchnykh rabotakh po sozdaniyu avetodallnomerov sredney tochnosti (1 : 100 000) 1 opyte ikh primeneniya) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodeziya i aerofotos'l- yemka, 1959, Pr I. pp 25-36 (USSR) ABSTRACT: The optical range finders awa--ilable at present .-an be divided in 3 groups: 1) large aize: geodlyneter NASIM-21-, 2) medium size: optical range finder SVV-1, and 3) small size: optical range finder DST. The papers on optical location applied to apparatus of the medium zroup are examined here, Every opti- cal range finder consists ef a light source, a light relayl a reflector, and a light-sensitive receiver with a demodulator. The co4struction of optical range finders is determined by the following principal factors; the type of light modulation, the type of recording the reflected li-)it fluxg the type of solution of multiple-valuedness, the radius of operation and Card 1/3 the accuracy of measurements. These main factors are  Scientific Work for the Building of Ontical Range SOV1154-cr-1-4119 Finders of Mean Accuracy (I , 1OOjOOO) and Experiences in Uning Then investigated here~ A survey of the different types of modula- tor is given ',, and it Is shown that at prasent the most reliable modulator is the K--.-rr ~,,ell with a liquid iielectric. It :.a shown that among the kinds of recordirg the :reflected light flux the visual one is better than the photoelectric one- Thia method is used in the SVV-1 with the use of the new observation me,~hod, the so-called 'If 1i okerinCl--a:et hod (Ref 17) by V. P~ Vasillyev and V. A- Vell,,.hko. The nature of this method (it iz similar rc Bergst:,andn method) is pointed out, Besides; the SV'V.,l ases the compensation method of observations suggested by De Kudre (Ref 2,. - At present there are 2 schemes for solving the multiple.. valuadness of observations: 1) a multiple-stage scheme with measurements at discrete frequencies, and 2) a one-stage scheine with one mea3urement in the atagelooo froquem-.y rango. It Is ahown that tho second method Is preferable which has been fully confirmed by practice. - FormulE. (15) is given for the exposure "Ell in the cathode plane of' the photoelectric cell. On account of this formula, the methods Card 2/3 to ir-crease the range of the apparatus are pointed out here.  Scientific Work for the juilding of Optical Range SOV/154-59-1-4/19 Finders of Mean A:.-curacy (1 : 100,000) and Experiences in Using Them The results of the use of optical range finders in surveying are indicated. The SVV-1 ensures a measuring accuracy of I : 100,000 up to 10 km. The visual observation method is onlyby20-25% inferior to photoelectric recording. - Some hints are given to designers for a further improvement of op':ical range finders and a reduction of their dimensions anti weight. - In a summary it is stated that 3VV-1 has proved best among all apparatus of mean accuracy. It has a Kerr modulator, a stageless frequency range and a visual type of observation. These ensure a high measuring accuracy single-valuedness of the same and an absence of systematic errors. The apparatus is suitable for series production. There are 1 figure, 3 tables, and 20 references, 10 of which arc! Soviet. Card 3/3  VELICHKO, V.A., kand. tekhn. nauk Determining the type of error function and analyzing the accuracy of geodimeter ranging. Izv. vys. ucheb. zav.; geod. I aerof. no.4:95-104 163. WIRA 170) 1. Moskovskiy Institut inzhenerov geodeziit aerofotos"yemki i kartografli.  ,V-", -Vv-~ i" . : .iai:; j. tf--khi.. BUT KIEVICII, 11, Vellt - .,"z- '-., , ~ o rlwul.., retseriztmtt; b:-GFl,TUV--, G.V.) pr~l'., red. on the soluti,~n rf' computrat-'cn pr,.)blems 1n sphorcldnl ge-6dasy] L331edovam!a po re-ollenilu vycll,l,~Il- tellriykh zadach sfe:-oidiche~,-koi geoJtizil. Movkva2 Ned- ra, 1961- 258 P. (M] Ft-*. 16:1)  VELICHKO, V.ri., katid. takhn. nauk .1acting the beat conditions for the Karr call. Izv. vys. uch!ab..zav.; good, i aerof, no.2s35-50 165, (MIRA 18:10) 1.Moskovskly institut inzhenerov geodezii, aerofotos"yemki i kartografii. Submitted Jan. 12, 1965.  VELIGHKO V.A* *murement of base lines in oecond-order triangulation by the $17-1 optical range finder. Geod.i kart. no.g.-15-19 Ag 161. (KUa 14:10) (Pange finding)  'VELICHKO, Vasiliy Arsonlyevich (In a great snowy world; sketches] V bol'shom umzhnor- mire; ocherki. Toms, Tomskoe knizhnoe izd-vo,, 1960. 276 p. (MW 14:12) (Narym)  VILICHKO, Y.A., lmni.tekbmnauk I- Establishing the state geodetic netvork by traverse surveys made by the use of optical range finders. Geod. i kart. no.4sl9-24 Ap 16o. (MIRA 13:8) 1 (Traverses (Surveying)) (Range finding)  17 f"r 5 uz g ~qj 44 st 9 till 7L -1, 44 &V av :I;:- A 10  AUTHORt Vgl~J:hko,.X, A.., Candidate of S/OO6J6O/OCO/C'4/OO5/O19 Technical Sciences B007/B005 NY TITLEs Experience Made in Establishing the State Geodetical Net by the Method of Traversing With Optical Range Finders PERIODICALs Geodoziya i kartografiya, 1960, Nr 4, pp 24-31 (USSR) TEXTs Traversing irith optical range finders was used in 1958 instead of triangulation to entablish an uninterrupted geodetical net over an area of about 12jOO0 km2. First, the area is briefly described, then the surveying project set up according to special technical data is outlined, and finally the results are shown. Table 4 compares triangulation with traversing by means of optical range finders. It shows that expenditure of work for traversing with optical range finders is 25% lowor. Maximum savings (up to 37%) are obtained in the construc- tion of ground marks. Nevertheless, very much time is used for building and repair- ing ground marks for traversing with optical range finders. Therefore, this work should be mechanized, and collapsible marks should be used. The average monthly capacity per optical range finder was 350-400 km (including traverses of the 2nd, 3rd, and 4th order). As the traversing accuracy depends, to some extent, on the method of adjustment, and is mainly influenced by the ratio Card 1/2  Experience Made In Establishing the State S/006/60/000/04/005/019 Geodetical Net by the Method of Traversing With B007/BOO5 Optical Range Findors between the weighto of linear elements and the weights of angular elements, the methods and ratios used here are pointed out. The adjustment data of table 7 prove sufficient accuracy of traveraing with optical range finders. The present paper is the first attempt of applying the now method (of traversing with optical range finders) in etstablishing a State geodetical not over a large area. There are 2 figures, 7 ta.bles, and i Soviet reference. Card 2/2  VELICHIO, V.A., kand. tekhn. nauk Outlook for the use of optical range-finding techniques in establishing geodettic networka. Trady MIIGAII no.31:31-0 '59. (MIRA 13:3) (Triangulation) (Range finding)  YXLXga,.,Vaetliy Dmitriyovich. mashinist kombayna wDonbaes*; VALISHTICTN. G.. r.adak-tor; DOLGOPYATOT, Yu., rodaktor; OTSTRAKE, Y.G., tekbnichaskly redaktor [27 thousand tons of coal a month per cutter-loader is not the limit 1 27 tysiach tonn uglia v masiats na kombain - no prodel. Al=.,%kta_, Xaz&khakoa gos. izd-yo. 1956, 14 p. (HLU 9:10) 1. Shakhta, No.31 kombinata PXaragandaugol'N (for Velichko) (Coal mines and mining)  TV A N Ol, A HIN, V.A. S U. FIC MF L,A '11!L LIL f n al r r -,ompr~,!3:jol glin rid be t, I to, hgh temperature he a 14 4 the oa3 and thr~ wall, Teplefiz. vy.;. temp. 3 no.3-480-'83 (M' My.-Je 165. -':,A 18.8) j_ Moskov-skiy cnergetichi~~,k'y  SUNOMLO A.5.,j kwW. tekhn. nauk; VELICJMOv Y.I.p insh. Studty of frictlawal resistanos In a ouporsorde nonloothermal gas fim at the Input of a pipe. TrWy HEX no.63:39--% 165. OMA l8sl2)  ACM -NKI- AP50161A ~9OURCE 1:06E: b9/0294/65/003/00310480/0483 Y 9 , Y V YY 1 5- 5- 'Y91 S-1 - 6, ~ AUTHOR: Sukomel, A. S.; Velichko, V. I.; ~Vanov' A. 1. ; Mukhin,*' V. A. Y It r 5- 5--- ORG: Moscow Power Engineering Institute (Moskov3kiy EnergetichesPly InittLtut) TITLE: Investigation of friction resistance for compressible gas flow in the section of a tube for large temperature gradients between the gas and wall SOURCE, Teplofizlka vysakikh temperatur, v. 3, no. 3, 1965, 480-403 TOPIC TAGS: fluid. friction, gas flow, compressible flow ABSTRACT: Two methods of friction r-esistance determination were studied In compres- pible gas flows in water-cooled tubes with a Laval nozzle for supersonic and Vitoshin- ikiy nozzle for stbsonic regimes. The first method consisted of determining the re- sistance from Bervoulli's equation for which gas velocity and static pr4!ssure were de- termined at severail points in the tube. The second method utilized the isentropic state in the core of the flow and boundary layer at the wall. Data analysis shows tha -stmm-paramtera--al-ong-the-tube- length-satisfy-one~dimensional-flow-thoory.--The-com- pression effects vere treated as corrections. Friction resistance data is given as a function of the Reynolds number and the results are compared with the work of other authors and with theoretical predictions. The data for air show a 10% deviation from UDC: 532.543.6:532.517  ACC NRs APS016704 0 values predicted frem the Reynolds analogy for describing compressible gas flows. Orig. art. has: 4 figures, 8 formulas. if SUB CODE: 20/ SUBM DATE: 25Jun64/ ORIG REF: 007/ OTH REF: 000 I ccwj 2/2 .I  VZLICHKO, V.14. [Valychko, V.M.), k3lkhoznik; TARZM=O, Y.M., koikh~zznlk: Following the exampla of Oleksandr Himalov. Mekh.sill.bnup. 10 no.7:26 J1 159. (IGRA 12sl?) 1. Artell "Dnipro " Charkaoskogo rayon&, Cherkanskoy oblusti. tCorn(Maize))  VBLICiMO, V.M.; xoRmjjvjCH, U.N. Tamorscif the glomm. Xhirurgiia 34 no.12:92-93 It 158. (KM 12:1) 1. Is cospitallnoy khirurgichookoy kliniki (zav. - prof. I,.B,, Oleahkeivich) VitabakDgo gosudarstvennogo meditainskogo inatituta, (GIOMANG1014A, case reports (Rua ) )  YkREISNKO, V.M., kolkhoznik; VELIGHKO, V.M,. kolkhoznik They 1>-.c=e friends with cornl Mekh. sill. hospe' 12 no. 6:4 Je 161. 14: 5) 1. Artell "Dnipro," Cherkasskogo rayona, Cherkasskoy obl&sti. (Cherkassy District--Corn Olaize))  VELICHKOP V.N, Method? of box molding. Lit.proizv. no.714O Jl 164. (MIRA 18:4)  VELICHYO, V.V. White mustard in the non-chernozem belt Moskva, Goo. Izd-vo selkhoz lit-ry, 1951. 71 n.  Experlench In obtaining high yields of sunflower-, Thelman holkhoz, 5taliro Ublast, Ukraine Yoskva, Gos. izd-vo sellkhoz. lit-ry, 1952. 60 p. (Feredovoi opyt v sel' skom khozialstve) 1. Sunflowers. 2. Agriculture, Cooperative - hussis.  .--V.-- - --- - ---- - ---- --- - -- --- --- I---- --- - - --- Agric-Uture White mistard In tho AOn-cherAozen belt. Moskva, Goo. izd-vo aellkhoz lit-ry, 1951. Monthly List of RmLqAam Accessions, Library of Congress, June 1952. Unclassified.  VFT.TCHKO,_y _! inzh~; ABLDGIN, E.A. . .2 _ Sinking reinforced co=rete shells in removable guides. Transpi strcio 3.2 no.2t2O-23 F 162, (MIRA 5:7) (Bridges-Foundations and piers)  . Iii-.LICW.C V.P., inzh. AU03L." L.A.P inzh., I Dril].ing rocks j~o-~-eii&idding pole foundations of ')rirl*,(, -Upl'orts. Traisp. 3troi. 1-1 t 161- C ~ ., -.At) and pirc-A  FODGAYW6, X.A., redaktor; VILICHINIO, V.P., redaktor; PULIJUNA. tekhaicheskiy redakt-o-T-.------ [Xachinery and equipment for mechanizing construction work and the manufacturing of building materials; a reference catalog] Mashiny i oborudovanto dlia mokhanizateii stroitellnykh rabot t proizvodstva stroitelInykh materialoy; katelog-spravochnik. Leningrad, Gos.isd-vo lit-ry po stroitJ arkhit., 1957. 230 p. (MMA 10:11) 1. Bussia (1923- U.S.St' R.) Ministerstyo strottelinogo i doroshnogo mashinostrdyeuiya. (Construction Industry-Ictuipment and supplies)  SOLOVIUVj G.P., kand.tokhn.nauki 10~kICHKO, V.,P,, inzh. Construction of reinforced concrete shells for bridge footings in sliding formwork. Transp. stroi. 12 no.5-19-22 Illy-162. (MIRII 15:6) (0b' River-Bridges-Foundations and piers) (Precast concrete construction)  17K -.~ i. 1. Ozy'. r --" L; va"n- 4-7:1.1 y rn, -rYsoki%h 'Inef~:-,,-n-~a 51:-~-:-r4 --ce - n c -,I- ~ I-- 5 Imn O'.Ie ri.."r ~-rn 3,1 1 - , 3.~, ~'. I.J ., -, -- 11-~152. 6& -,. SO: I-Tonthl-v UrA- 2Z Russian Ac=gdonv, Vol 6 No 4, JUIY 1953 .~t  711-1-'~!~-. 1. TELICM~O, -V. V. 2. U3311 (6oo) 4. Agriculture 7. Experience in cultiwating tall sunflweurs. Ioskva, 3ellkhwCiz, 19S?. 9. Monthly List of RUssian Accessions, Library of Congress, _ April -19bZ. Unclassified.  VILICHKO, Ta.M., insh.; SBUTOV, I.Y., k&ndosel'9kokhowyayatvenrqkh, nauk I Using arboriciden in removing tress and brushwood, from the areas to be inundated. Gidr.stroi. 30 no-7:35-38 A 160. (MIR& 13:7) (Herbicides) (Fydroelectric power stations)  VELICHKO, Ya*Mop nauchnyy sotrudnik; KOZLOVA.. L.M.,, nauchnyy 3otrudnik C. --- 4)bicidea for forest nurseries. Zashch. rast. ot vred. i bol. 8 no.7t27 ii '63. (MIRA 16:9) 1. Leningradskiy nauchno-issledovatel'skly institut lesnogo khozyayst- Vito r,  6 X-C) it V i Mla n t I.U k~j 1. y i TL W _, A r IJ Q r i C I 11! I) g Re--'3e. V4> Ch a F~ C.-O 11 F, wtuchno-te;-chn. inform, Luruugr . n . -i 1 e .4 it - 1.11 -vi- , I -) 53 1 No - 5, 1 .13, -26 TO j.3,4 f'I'OY tree an-I shrub thiclfet!i i~: z r.) i- c~ riccupiaid with fitture reaervoit-.i ( !.Y, the ij,ood zones of Sti!Lngead and SaraLkve Hydut- Power 'Plant) applied: ,iodiuw btiryi ester of 2 'j - T ( '3 "Fordex" a mixtijri, of thf- butyl oits,ru of 2,4-1) mi-I 2,' ~LO,5--T 1P the ratio of 2.1 (4), anti "Yortox" --butyl citar of' 21.4,3-T (5). Tt- P A t men r i j till arbloricidea in dcsei~ nV 2 kg/hn. aud hip)i%-  5 3 -),'j 9, 20592 The most promining for application in the Middle Volga area were the enters of 2,4-D and 2,4,5-T in doses of 4-6 kg/ha. --L.D. Stonov C-RD 12  I VELICHO~ Ye. A.: Meter Geolog-,%Uneralo Sci (dies) -- '".Lhe terrlgeni~: complex of the Permian aystem of the Central Taynyr". Yloncow, 1958. 22 pp (Min Higher Educ tWR, Moscow Inst of Nonferrous Motjiln and Gold Im M.T. Fjilinin), 150 caplen (KLI No 1, 1959, 116)  VELICIM0, Permian palmogeography of the Taymr Peninsula. Nauch.doklm,s. shkoly; gool.-naukl no.4:117-V.2 158. (MIRI, 12:6) 1. Moskovskly Institut tovetnykh metallov I zolota In, M,411nina, Imfedra minaralogii I petrografti. (TayrTr Paninsula-PaInography)  VZLIGHKO, YO.A. ~ I I "**-~w=O;mphy of the Permian terrigenons oomplex near Iaks Tapqr. Izv. vys, ucheb. zave; geol. I razv. no.2.157-73 I 158.(KM 11:6) 1. Xoslcovskiy institut tovetuykh metallov isolota, im. ralinina, kafedra petrografii L mineralogil, (rake TaMT-0081geO1097)  ri the i C 7 L J 7 uf _jk' 14'.r;' West) CLit.LCj,'- Of i b6r Jnr, L~-.e s~roujid and  Sol i out or .I ri Tjj u rL;7 'r2ou Z3 u s c,t rif W-atj--~t3 t; Zllu ef*t-..r With IV and, V; thc- Plotr, rcr,.~anfrci fr;.u 2,6  COUMTRY 2 Uss., CATEGORY : Weeds and 4eed Oontrol ABS. JOUR. : KhBiol.p H*-14, 19519P NN. 63639 AUTHOR INST. TITLE ORIG. PUB. ABSTRACT :Mahaleb oherry, RusalMOUTGand ash sowinjs, rosettes of perennial weeds appeared one week after the treatment. by the time of the first weeding (in 20 days), due to the application of I-V and It the amount of weeds on plots free from perennial weeds was 70-90,06 less than on th5 control. The sprouts of thq tree and shrub speoieB appeared at the propgr time and developed normally.' The dying-off of individual spronts was observed in the treatment with all Herbicides. V111 produced an almost complete destriction of the rrilborry tree and honeysuckle seedlings. Most Cardt 4/6 6  tr of I t:t !ivok., trL;e Z!-'b for tte 1", the vi c io vtwe btzffr-.:! tfe 'Arance cf 17 10 k zan,"hkt 7; to- 'r VI 1 7 1 r irl tnu. hly6j" Cf ip Lurbjcic.~,,. 6/6  ACC NR: AP700oO16 SGURCE CQDZt Uixccc~1~6h-jc JoIfI250512509 AWHOI: Laynorp V. Z".j Valicl&of Yu. A.; ZVkovap V. S. ORGt none TITLE$ Electrodeposition of a gold-antimony alloy SOURCEI Zhurnal prikladnoy khimii, v. 39, no. liq 1966, 25o5-2.5og TOPIC TAGS: gold alloy, antimony alloys olectrodeposition ABSTRACT: 7he study was made in order to refine tho basic parameters of the process of electrodeposition of hard gold coatings. The process intolves allaying with anti- monyp which is introduced into the electrolyte in the'form of antimony! potassium tar- trate ("tartar emetic"). The gold was deposited on brass and permralloy. On the latter, the electrodeposition is best car~iod out from cyanido"solutions of the follow ing composition (g/1): metallic gold 8.00, free KCN 15-0, K(SbO)Q~F406-0-5F,20 0.05; current density, 0.3-0.7 A/dm2; temperature, 400. The microhardnoss and wear resist- ance of the Au-Sb alloy*aro respectively 1-5 and 15 times greater than those of pure old. A considerable increase in the concentration of antimonyl. potassium tartrate ~ above 0.015 g/1) leaves the hardness of the Au-Sb alloy practically unchangod and has no effect on the.Sb content of the alloy. An inargaso in the content of free KCN causes a temporary increase in the hardness of the pure gold coating, 'cut does not affect the hcrdness*of the Au-Sb alloy. A strong bonding between the latter and Card 112 UDCt 541.13+546.3-19159186.541.13+546.3-19  ACC NRs permalloy is obtained by first depositing thin layer3 of cop pper in two pyrophosphate baths of different compositions. The liberation of pure gold is associated with con- sidorablo polarization. The introduction of antimorql potassium tartrate has virtual- ly, no effect on the position and shape of the polarization curve recorded during the doposition of puro gold, An !-~-croaso in the amount of free KCN and decroaso in gold shifts the polarization curve toward negative potentials. Orig. Art. hass 9 figures, SUB CCDE: 071111/ Sam DATEs 04Nov64/ ORIG REFt o07/ OTH REFt 002 Card 2/2  -- VL11GUW,- Ia,v- - - a ULICAKO, Ye. B.: "Irrigation of:'rice by perlooic it 'r) lications of witter witnout flooding, Moscow. 1955. Moecow Urder of Lenin Agricultural Academy imeni K. A. Tiviryazev. (Dissertations for tne Degree of Doctor of Agricultural Sciences.) So: Knighnaya letovjs' No. 49, 3 December 1955. Moscow.  VrLICHKO, re.A. Peculiarities in the anatomical structure of secondary roots in rice. Dokl. AN SSSR 110 no.6:1117-1119 0 1,56. (MMA 10;2) 1. Predstavleno akademikom A.L. Kureanovym. (Rice) (Roots (BotwW))  k- A L 1 Va t, 1. i., n )n,,, L-j Vell a i 7 1, A El t t..r I! nqu Lretnen ' s w It I, irOding- C Piol. nsnovy AN Y,57, 412-1,22 Tkt,~ i ri rl i n .;' s are pl-eserItCrUl OC stl)dil~-s corlf&'L'C-- T I.,! Krnsnudarskiy Kriy iwtll Ai .- 1.r,4 ci ~,ti -~ t I t .1 ;) n me tho 41 ,-1 %i v r u s e a . .4 il i~ r i C C ,,,ra, grog- it wi- thou t f Lood *. ag i t!,.k pt (A ~ic t. 1 v! tv ;.~ 'I it r ia c 0-1 r a 1 -3 o ; 1 s wa s c o yi.% i d e ra b I v- I i J gh t: r tija:~ t.;i~ jtructurelless. The -.-picier!nini broke uno,:!..- cc; nc~i tit) vs of f 11 oode (I qo.i I (h ot h -I t t, i ent I '~i n (I !j L r tj L L n r 3 ~i.-j a z i t I tj n ri d': d !3 t I - u " t or (. 1. el A ~l a 0 11 -L W I I k ". .11 a f o! o (1, 1, 1, 4! root ab..;OrpL~ve Z*no. Nit: rel.-stivoly perme-  that tlifi rititrients circtimstancus -,rithrjut in e i ructi.irel -2.,;.-3 J. I t I i ce r; id o r,:i oci - e r c- not z-upturcd. ce.,'Is forme4i r,~oL fibnvi in the ,ib.-,orPtion 2-eino. % *, n4triictural noil plants arn better iujopl~ied with water with- Out Clood!ng tharl with yt. Vhofi 1-icr, I s plantt-d on rtrut:liwoit-,~~. soils ihp tiptioum c OVI 6 o ns c, i wf &- er s o t u L I t la ii t S r- ,- e  o onLy at 100i~ i4ol aa(urvt~ov. 'Chi! ve-iiataixt weter uptrke from structural mr.-J.1 -,k4 it 1, Qlhf~r th-FAil from struc ture I L-ss GrA 3 S4 0 S arn the bent. preiredirig crops for rai-iiiig Periodically waterf8d ri,:-e. Ilie- beilavior all' varieties warm. pot the .4ame. --Yu.L. 3/3  VELIGHKO, Te.B., kand. sel'skok-hozynyotvannykh nauk. Role of crop rotations In rice sowing. Zmalodslis 6 no,2tl7-19 158 0 (Xuban--Rice) (Rotation of crops) (MIRA 1113)