SCIENTIFIC ABSTRACT KHANYKOVA, O.K. - KHAPAYEV, M.M.

7!~.R-W- MGRIM   KHANYKOVA, O.K.; ZHAROVA,, Ye.I. 14 B Assimilation of C' -labelled vitamin 15 in experimontal leukemia under conditions c-f ti7ptophan*loading. Probl. gemat, i perel. krovi 9 no.6t40-10. Je 164. (MIRA 180) 1. TSentraltny-y ordena Tenina ir-Utut gematologil i perelivanlya krovi (dlr.- dottifnt A.Ye. Kienlev) Ministerstva zdravookhraneniya SSSR, Moskva.  FHP.,N'-ffOVAF z1fit'llow'), YPI1.) RAUSUNWup M.'o. (;lit *- -Labelled serinf~ jretaboliam in exporimintal leukemin. Voi. rad. 9 no.11.~,.119-54 N 161, . (MIPA 180) 1. Hadiobiologichvikaya labrratoriya (viv.- prof. M.O. Paushenbakh) 'N'4ent-rallnogo OT.6ena Loritna Anntiwtit voyr;ttolcgii i pr~reltvaniya krovip Moskva.  IGWTMOVA, 0. K., Cand Biol Sci -- (diss) "Stud.*! 1~ the Electro-Oonductivi".'ey and the Electric Polarization of Aw "- - ClUcken Egg FlasmaaZWthe ~:Rrocess 4k_IngR~atio4.11 Mos, 1958. 13 pp (Mos .3tate Univ im V. M. Lomonosov, Biol Soil Fac). 150 copies (IM 40-58, 113) is  KHANYKOVA, O.K. Electric polarization of the yolk of n hen's egg [with summary in EA-glish]. Biofizika 3 no.2:161-167 158. (MIRA 11;4) 1. Biologo-pochvennyy :'nkalitet Moskovskogo ordens, Leninn gosudnr- stvennogo un!.versitetq im. M.V.Lomonosova. (POLARIZATION (BTZCTRICITY)) (MOS)  KITANYKOVA, O.K. Changes in the electric conductivity of the plasma of the hen's egr, during 1neubation. Viat.14osk.un.Ser.biol., pocbv., gaol., geoga! 13 nn.3:27-31 ' 58. (MIRA 12:1) 1. Kafedra bioftzlki Noel-ovskogo gos. universitata, (Embryology-Biras'l Ollectric conductivity)  KffXMTA, Nina Vights on the Notra. ;Iabi slal. 39 no.l12-3 Ja 163. (HIRA 1692) 1., Predoodwtoll zhensl:ogo soveta kolkhoza im Zhdanova Grodnen- al:ogo proizirodetvvmol;o pravleniya. I'Grodno Pro7ince-Ritral 00114itions)  KOW14NIN, G.P., inzh.; ARSENIYEV, L.B., inil., raluchnyy red.; M,YA~ldaciaaed red.izd-va; GUREVICH, M.M., tekhn. red. Jj - [Prefabrication of h.)useal Zavodskoe proizvodstvo domov. Mo- ukva, Goa. izd-vo lit-ry po stroit. i ar--:hit. 1953. 266 p. (MIRA 16:7) (Buildinga, Prefabricated)  IT KIL414MI, G.A. (Rilga); VASILIYEV, K.T. (Riga) Brief. nows. Sovet. zdravookhr*5: 93-96 163 (MIRA 17s2) 1. 0tvototvennyy sikretart ta-tviyokoko naucbrw-i8toriko-%edi- tainskogo obahchosima.  KHANZHENKOV, V.A. Results cf the worl: of the Commission or the Rubber Industr7 of the InternatiGnal Issociation of Trade Unicn8. Kanch. i rc-,.,. 24 no.807 165. (MIRA 18;10)  RHANZHENKOV, V.A.. I , __ -IN For peace and friendeldp. Neftianik 7 no.111933-34 If 162 (MIRA 161 6~ 1. IspoInyaynheMy dyaxannosti zavedi7ashchego ctt~elom mabdunaroftrkh avyuzey TSentrallnogo komiteta, professional- nogo soyuza :rabochikh neftyanoy i khimicheiskoy proMthlen- nosti. (Petroleum industry)  MINHIP F.D. Phor,.ocardiography in healthy children, Finiol.zhur. [Ukr.] 20 no-41482-487 J1-Ag 164. (MIRA 18: U) 1~ Kafedra pediatr.,i Il Kiyevsko,--) instituta usovershenstvovaniya vrachey.  21", -1752 -.~:71c-]- o v  KHAIIZHIN, A. F. KHAITLIBNo A. F.; HA m6thod Df coordinate and cot)rdinate-figure merometry in topographic aratomy.11 Min Higher Education USSR. Moscow Veteri=7 Academy. Moscow, 1956. (Wssertatio.i for the Degree of Doctor in Veterinary Sciences) Source: Knizhnaya letopis, No.26 15~6 Moscow  Principles of fronUL1 coordinate-figurate mromet-.-- uma chest. Trudy KirgNO1,GE no.21171--173 '65. y of the 1. n Charac ter! a ties of the study of the heaft of prodiWive animla by reann or the cooidinate-figurate merometry. lbiti.:174-176 (M-1P.A 1.8:11) 1. Tz kafedry rormaltnoy anatomii domashnikh zhivotnykh (zav. - prof. A.F.Khanzhin) Kirgizakogo vall.-Ackhozyayatwinnogo inofltuta Imeni Skryabina.  Nam,:, IMAN33MIj Aleksoy Fedoroviah Dissertation Method of Coordinating and Coordinated-Figure Iferometerology in Topographical Anatomy Dagroc Doc 7dt Sai ,4ffiliation Kirg4.z Agr Inst imoni Skryabin Dofense D3te, Place 2 Jul. 56, Council of Moscow Vet Aead CGrtification DatG 15 Dc-.o 56 Source BITVO 7/57 KUKLIIJ, Observation of lunar eclipses in Dairen. Astron.teir. no.211%12-13 Ify 160. (KIRA 13:10) (Eclipses, Lunar)  KHANZHIN, A.G,__LXurgan) Observation of a fireban in Kurgin. Aatron,tsir, not,222tZ7 Vq. 161, (Meteors) (MIA 1594)  11-4-1 f~ ?, .~.- : ` I k- - I SMOLIVA. N.M., Inithener*lgIIIIII is -- Inzhener. - I WOMM11- 1 0 Using protectors with.theRM77 relay in networks with large capacitance cu"outs. Inok. eta. 28 no.5:81-02 W 157 (Ilectric relays) NM 10!6)  KHANZHIII, G.I.; SASIN, V.I. Automatic ,3tart of the heating system of the oil drms of 110 kv. oil-filled switches, Prom.energ. 18 no.1:11-12 Ja 163, WRA 16:4) (Electric switchgear) (Electric power distribution)  AORYUSECHMM, Yu~S.; BAGIN. Yu.I.; BASUMSEV, A.A.; BIMIKOT, G.7s.; BELINICHM,I.Sh.: IUSHUIRV, N.M.; VAGANOV, A.K.; GASEMY, A.M.; YWIKOT. K.A.; ZGIEWIT, Ch I.; IGAMIrN, X.I.; KCRUSHKINO Te.Y.; KIJZIMOTO K.T.; PATSKRICH, 1,R.; PIOAK, Y,I.; PAITSIS. T.B.; MMAICOV# A.So; SAPEMI. V.X.; SIDC31OV. F.I.; MUNSKIY, Ye.A.; XNA HIN# P.K.; CHARMOVSKIY, Yii.I.; TELUHTIN, D.D., Imnd. tekhu. iw i'Itseni.e.at HAWOVO M.P., Insh., retoenzent; TWIMI, E.S., kmd. *tekan. muk, reteenzeit; POLUROV,..I.P., kand. tekhn. rauk, reteei~zent; IGHATOUT. M.G., agroniom, reptsenzent; GUT-W, I.M.9 iUzh., reteenzent; 'nCIMLXOV. N.P., tekhn. red.; BARAYANNIKOVA. G.A.. tekhn. red. [Reference manual for the agriaaltural rachine operator] S~)ravochuik me"an4zatora sellsirogo khoziaistva. Pt.2. [Repair of tractors and Mae. U(- 1'~emout traktor6v i eeI'skokhoziai9tveuu7kh agrimatural hi ory mashin. Pod red. X.R. Bushueva. Xb8k7a, Goo. n=chno-tokhn. ixd- vo mehinostroit. lit-zy, 1957. 335 po (KIRA lltg) (Agricnilt-dral machinert-Maintenance and repair)  VAYVSHTM, Boris Watanovich; SUWANOV, V.F., .-red.; KWZHIN, G.P., red.; SUMMOVA, K.G., tekbn. red. (Efficient designs of cutting tools and cutters]Ratsionall- mye konstruktoii roztsov i frez. Perml, Permskoe knizhnou izd- vo, 1962. 40 p. (Metal-cutting tools) (MIRA 150-1) ,;i  /".S bAGIN, Yu.I.-, BASHKIRTSEV, A.A.-, BILENIKOY Y u 0 G.Ye.; BBLINIC M , I.Sh.; BUSH M V, N.M,; VAGANOV, A.K.; GASHEY, A.M.; YESIKOV, K.A.; ZGIRSKIT. Ch.I.; IGNATIYICV, W.I.; KDRUSHKIR, Te.N.; KTIZIKOV. N.T.; PITSKIVICH, I.R.; PICHAK, F.I.; RATTSZS, T.B.; RUDAKOV, A.S.; SAPRIKIN, V.H., SIDOROV, F.F.; UMINSKIT, Ye.A.; "EiANZHIN. F.K.; CHMOVSKXY, Yu.I.; TZRAKHTIN, D.D., kand.tekhn.nauk; retb~niz*e'nt; KAKAROV, H.P., insh.,reteentent; TORBZYXV, Z.S., kand. tekhn.nauk. retsenzen--.-, POLICA OV, I.P., kand.tekhn.nauk, reteenlient; IGNATIYU , M.G., agro:joe, retsenzent: GUTMAN, I.M.. inthener, rets6nsent: SARAFANNIKOVA, G.A., '.ekhn.red.; YMAKOV, N.P., tekhn.red. [Manual for arricultu:rnl mechAnivers] Spravochnik mekhnnizx~orn sol'okogn khosisistva. Moskva, Goo.niuchno-tekhn.ird-yo mashinostroit. lit-ry. Pt.l. [Tractim and automobiles, agricultural machinery and imnlements, and operallion of machine and tractor yards] Traktory i avtomobili, sel'skokhosiaistyennvo MFIBbiny i orudiia, eltepluatatelia mashinno-traktornogo parka. Pod. red.N.M.Bushuava. 1957. 462 p. (KIRI 10- 12) (Kachine-tractor stations)  KHMIZHIN, P.K. Using small tractors in garden and park work. Nauch. trudy AKKH no.24tl52-156 164 (MM 18 t2)  ANDR117"'ir,HfXKD. Yu.S.. BAGN, Yu.I., BASHKLRTS3V, A,Ao a BXLEXIKOV. O.Ye. BELINICIM, I.-Sh.,BUSHITM-7. N.M., VANNOV, A.K., GASHEV, A.M., THSI;XV, X.A., ZGIRSIIT, Ch.l., IGNAPYRY.M., KORUSHUN, Te.Ye KIJZ#140V, N.T., RATSMICF. I.P., PICHAX. F.I.. RAYTSW. V-3., RUDAKOV, A.S., SAr3YKrN, Y.Y., SIDOROV, F.F., UAINSKIT. YO.A. Yu.T., BUSHUTIV, N.M.. kand.telft. nam, DUGINA, N.A.,tekhn.red. (Hanual. for agricultural machinery or)eratorel Pt. 3. Stationary internal combustion engines. steam er~,-ines and windmills. Rural electrification. Mechanizntion of production in animnl husbandry. Spravochnik mekhqn:tzntora zellskogo khozialetva. Pt. 3. Statsionarnys dvignteli vnutrennero sgornniia, lokomobill I vetrodvigateli. ElektrifikatEla sel'skogo khoziniHtVA. MokhAnizateiin nroi%vod9tvennykh proteessov v zhiv(-t:novod-,,tve. Pod red. N.M. Bushueve. Moskva. Gos.nauchno-tekhn. itd-vo mashinostroit, lit-r7, 19576 200 p,. (14IRA 11-9) (AgriculMiral machinery)  ZBARSKIY, N.A.0 kand, tekhn. nauk, red.; KHANZHINA) Ye.B.p inzh#predo (Technical innovations in Leningrad bakeries; sur~;-yrTekh- nicheakie woverahenetvovaniia na Leningradskikh khleboza- voda)&,; obzor. Leningrad, Leningr. Dom nauchno-tekhn 5ro- pagandy, 1961. 59 P. (MRA 1'1;5  PARCHMUO, A.Y.; USHAKOV, K.A.. doktor tekhnichookikh nauk, professor, sasluShennyy doyatell nauki I tekhniki; reteensent; TURVZ. V.A.. 4oteont, reteensent; OT., T.1, kandidat tekhaicheak'kh nauk; retnensent; tekhnicheakikh nank. reteensent; DIMANT, P.I., inshener. retsenzent; GICLIKAN, D.Ta.. redaktor; LABUS, G.A., tekhnicheakiy redaktor. (Ventilator systems for elevators, mills. groats and mixed feed plants] Ventiliatsionays ustanovki eleystoroy mal'nite, krupianykh i kombikoruovykh zavodov. Ixd. 2-e pererab. i dop. Moskva, Izd-vo takhnichaskai i skonomicheekot lit-ry po voprosam zagbtovok, 1954. 371 P. NLRA 7:11) 1. Doteent Odeaskogo tekhnologioheskogo instituta imeni Stalina (for (Ventilation) Panchenko)  KHALUGA, A.K., inzheuer; VIM. R-Ya., inzhener; BYCHKOV, A.G., kandidat tekhnicheskikh nauk; KMNZ~~- J4~-, kandidat tekhnichaskikh nauk. -W 141M -,- Pneumatic ridger for milled peat. Nekh.trud.rab. 10 no.6:40-41 Ja 136. (KLRA 9:8) (Peat machijwy)  KHAI;ZHONKOV,.-V.L- Aerodynamics characteristics of the standardized TaAGI railroad-car deflector. Prom.aerodin. no,10:111-117 '58. (MIRA 11: (3) (Railroads-Care-Heating and ventilation)  lei a jug%, IV, 81 14 4 11a1  HELIKSICTYAN, G.M., inzh.; KHAWG&, A.K., 1mnd.tekhn.nau1c; KHANZHONEDT. T.I.. land.tokhn.nauk PVP-6m, pneumatic ridger for milled peat. Torf.prom. 36 no.1:22-24 '59- (MIR& 12:3) (Peat machinery)  XWZHONKOV, V. 1. Wind protection of open stadiums. P~Com. aerodin. no.12:239-Z50 '5 9. (Stad!cllms --Aerodynamic a) . (XIU 1331)  KHUZHOHKOV, T. I. - ReRistance to efflux through wall holes in the precence of a pasaing flowe Prom.aerodine no.15:5-19 159- (HUL& -1:0 (Fluid cVnamios)  ----- KBANZHOHKQL-Y.I" DATYMUM. N.I. Resi3tance of side holes in the and sectio.n of a pipe. Prom. serodin. no-15:38-46 '59. (MIR& 1338) (Aerodymmica)  UANZHOROT, T. I. -, TARAW, JU- Hydraulic trough with Jet stimulation. Prom.aarodin. no-36:83-91 '59. (MI" l3s8) (Wdrodjnmmios)  KWZHOIIKGVP M, Aerodynamic resistance of flat channels with a reverse symmetrical turn. Prom.aerodin, no,213151-166 962, OURA 1514) (Gas dynamics) 0 .. . AL  ACCESSITOP NR.- AT3002069 IAUTHOR: 2[hanzhonko, V. L S/2632/ -I 0/923/0174/ 19 ~TITLE: Impingement of an annalar jet onto a target -SOURCE: Moscow. TsentralloA aero"-gidradinamichaskly Institute :nay& aerodinamika, no. 23, 196Z. Struynf/a tacheniya, 174-199 Promyshlen iTOPIC TAGS: wirodynarnics, hydrodynamics, fluid dynamics, gas dynamics, jet, ;annular jet, conical annular jet, shield, screen. target, impingement, pressure Aistribution on nozzle, pressure distribution on target, ground effect. GEM. grou~d- 1-f ;effect machine, hovercraft, discharge coefficient, pressure coefficient, nozzle- target inclination. incidence. angle of attack ~ABSTRACT: The paper describes an experimental attempt to determine the ael,o-; Idynamic characteristics of annular nozzles and to hivestigate the flow of an annula r~ Jet impinging on a flat target. Pressures were determined both on the face plate of the annular nozzle and on the target. Three annularnazzles, were constructed w1.th ia conicity of the annular flow of'O, 30, and 450. A 400-mm-diam insert into a ,~480-mm-fdiam cylindrical tube left a 40-mm-wide ejection slot. The conical inozzles were substantially similar but had convergent nozzle adapters. The Card 1/4 .. ... .  ACCESSION NR: AT30-02069 pressures on the face plate of ths annular nozzle (comprised within the ikn~jjlsr! slot) were measured at ZS static-pressure orifices 1-mm in diam. The tarLwet~was. a circular dink 950-mm diam. *.rho obverse Impingement side was flat, the reverse: side was reinforced with stiffener ribs. lZ5 static-pressure orifices served for ~1i ,preseure measurement. The alignment of the nozzle axis and thetarget axis could ibe varied within a few degrees. The test setup compriseA a plenum chamber. a~ IdLEfuser, an ojection-nozzle holder# and a target holder which could be placed at Ivarlous distances from the nozzle. The effluent speed of the air from the annular inozzle was varied from 6 to 54 in:L/mec. resulting in a range of nozzle Reynolds lNumbers ("t) from 0.3 to 2.9-105. Results: (1) Effect of the RM on the pressure coefficient (C ). The C was foiznd to be practically independent of the RN for all velocities an,:Kozzle coRicities. Consequently. the outflow from the annular jet nozzle onto the target is regarded as self'similar over the RN range tested. (2) I Pressure distribution on the facis plate of the annular nozzle. Both the pressure distributions and a. hydrodynamic-channel test with Al-powder suspension in water sbb,wved that the annular jet fuses into a single flow at a certain distance from the ~nozzle. Widkin that distancq (awl in the absence of a target plate). the innde portion of the fluid comprised within the annular jet exhibits a toroidal flow with 1 return currents. The base pressure in lower than the atmospneric pressurc.; thl- s contributes to the converger.t, curvilinear. flow of the fluid. With increasing [Card Z14  CESSION NR.- AT30OZO69 ,;6onicity the pressure difference decrea:es~ and for a conicity of 450 the resultant i I '!Iace-plate pressure to attnompha:ric. T sts with a Z* relative angle between the axe a of the nozzle and the targets show that even this stnaU angle leads to a sharp ;reduction In pressure In the nozzle portion placed closer to the target, but only a! :srrkall. change in pressure in the inore distant portion of the nozzle. This drop in~ 'pressure increases with increasing distance between nozzle and target. The 1 1pressure redistribution becomes more pronounced with Increasing nozzle coniclt:~ !(3) Pressure distribution on the target. An annular pressure peak occurs on the i Aarget in correspondence to the riozzle efflux which impinges and separates there i' '1nto an Inwardly and an outwardly directed flow. When the nozzle and the target axes are Inclined Z* relative to cne another, a sharp increase in pressure occurl's !on the nearer side of the target &ad a Ions in pressure on the diametrally opposi6s side, with a subomndal drop in pressures in the a:-eas comprised within the annil-' 'Jar high-pressure peak. (4) Preiisure and discharge %toefficients of annular nozzle;0 iThe variationii, of the pressure and discharge coefficlen&..~ varsus target dirtanciell .vary monotonously and smoothly, until a distance close to the "critical" distance to 1reached at wh1ch the annular jet lases Into a' &.71ngle-core jet prior to reaciting the !target. Beyond that distance the pressure coe!ficients cease to vary with distance, The discharge coefficient decreases with increasing conicity. The high discharge !coefficient for 0 conicity is explained by the "ference in pressui.e distributior~. [Card3/4.  ACCESSION NR: AT30OZO69 jover the crose section, namely, admospheric pressure on the outside and a lowtkr :pressure on the inside. With increasing approach of the target to the nozzle the -1ow-pres sure effect is lost and the discharge coefficient decreases, Orig. art. I 1has 24 figures. IASSOCLA.TION: none' SUBMITTED: 00 DATE ACQ: 01May63 ENCL: 00 SUB CODE: AI 140 REP SOV: 000 OTHER: 000, LCardA  L 0851,4-67 EWT(d),Lr,-;q~swp,m)/k,*WT(m)/Eb~T(PL.-w/LT- ACC NR, Id6o_3h'562_- SOURCE COM Un/2632/66/000/02T/0145/0179 AUTHOR: Khanzhonkov,, V. I. 6s, ORG: none 0-j- T.-ME: A_erckRamic characteristics of annular jet flow about a screen SOURCE: Moscow. Tsentrallpyy aero-gidrodinamicheakiy institut. Promyshlennaya aerodinamike-L,-n-o-.---2-7-,--i-g-W. struynyye iechenlya (Jet etreamej-,-145-179 TOPIC TAGS: aerodynamics, flow structure, annular jet, jet flow, annular nozzle, air cushion vehicle, ground effect machine ABSTRACT: A detailed experimental investigation of the aerodynamic characteristics of annular jets impinging on a screen is presented. This article is an extension of the author's previous work an annular jets with relative annulus width of 10% of the nozzle base diameter (Promyshlennaya aerodinamika, no. 23, Oborongiz, 1962). Knowl- edge of the interactions of annular and plane jets with the ground which generate a lift force should be of prime Interest to the design of Air-cushion vehicles.l~)Six different annular nozzle configurations were investigated: 1) three with an annulus width b - 8 rm and angles of inclination I a 0.300 and 450 with respect to the verti- cal; 2) two irith an annulus width b 20 mm with angles of inclination 4 - 0 and 45*; and 3) one with an annulus width b 25 and angle # = 300. Fig. 1 shows a nozzle of the first group. A test stand shown In Fig. 2 was used to support the nozzle config- Card 1/4 VDC: 532-522.001.2 40 L o8544-67 ACC NRo Al Fig. 1. Annulfir nozzle with 300 and b/D 0.05 urations and.the scree6 mounted on a movable platform. The distance from the nozzle to the disk and its angle to thi! nozzle axis could be varied and measured on a scales The design details of the nozzli!s are described and geometrical dimensions are given in a table. The technique used for interpretation of the experimental data and meas- uring techniques are also descrAbed. Four series of tests were carried out in the flow velocity range from 6 to 55 m/sec.in order to determine: 1) the effect of the Reynolds number on the nondimensional pressure coefficient T and on the nozzle flow rate coefficient cic; 2) presour-! distribution on the nozzle base plate; 3) pressure distribution on the screen; and 4) the effect of the ratio of the annulus width b %o the distance! h from the nozzle -3ase to the disk on the pressure coefficient or on 4he nozzle bottom and flow rate coerficient ac at varxous values of the relative vidtL of the annulus b/D and angle ct 'Detween the base plate and disk. An analysis of -the L ~experimental data presented in s great number of graphs shows the effects of the L ?__ L4  1. 085hIj-67 ACC NCATO'C,34562____-"__~'_ 'Fig. 2. Experimental setup for investigating annular jet flows on a, screen 1 - Nozzle configuration; 2 - outer shell; 3 rubber tube; 4 - collec- tor; 5,15,16 - presou-e gages; 6 - screen; 7 -mounting stand; 8 - guide; 9 - plate; 10 - worm gear; 11 - wheel; 12 - frame; 13 - cou- C.,d' 3/4 pling rod; 14 - .scale. I qP  L 08544-67 -4did-Ak;-Af6ob -3 4 -562- Rey-nolds number, the ratios b/h and b/D, the angle of the annular jet #, the screen and its difitance b, and the ang,'Le of inclination with respect to the base plate upon the pressure and flow rate coefticients, and also the pressure distribution on the. base plate and screen. Orig. art. has: 44 figures and 8 fomulas,, SUB CODE: 01920/ SUBM DATEt none ATD PRESS% 5104 Co. d  L 04691--67 At.;. NKt AP6023937 SOURCE CODE: UR/031W66/000/006/0025/0027 AUTHOR: jQonk(xy,,._V,. ORG: TsAGI im. Prof. N. Ye. ZhWcovs)dy. Moscow TITLE: Calculation parameters ofhovering nozzle-type air-cushion vehicles SOURCE: Rechnoy transport, no. 6., 1966, 25-27 TOPIC TAGS: ground effect machine, air cushion vehicle, hovercraft, lift coefficient ABSTRACT: Hovering over a solid surf~pe is one of the fundamental conditione,for which calculations of the-aerody3amic and power characteristim f an ACV imust be made. By the method presented for calculating an ACV with a donble-,- lilow annular.-nozzle/arrangement._thd power characteristics and aerodynamic parameters for the fan can be found if the weight of the vehicle, its i.hovering height, airflow configuration,. and the nozzle arrange-. are known. k' A formula is derived for finding the power required per ACV unit weight,. 1which varies with the ratio G/S (G - weight of the ACV; S :- overall area of Ithe nozzles. The formula contains coefficients for the lifting force i i(Cy), the norzle airflow rate (ac), and the airflow resistance M), and, .equations are given for determicing these coefficients. The equation for Cy takes into accouni the air-cushion pressure on the bottom, the pressure,.. . at the . nozzle sections, and the reactive  L 04691-67 NKI ArDUCj7j-j forces of the air streams. Them noz%zle airflow~:- i irate coefficient ac takes Into account the flow rates of both annular , 1, 1 :*nozzles, and the airflow resistance coefficient Ek takes into account the 1I .11otal area. of the airflow apertures. Calculated and experi- mentally derived values for the itir-cushion pressure and the airflow rate show good agreement within a b/h ran&e of 0.1-0.8 (b - nozzle width; h - hovering height); in relation to bjDH (DH - outside diameter of the outer' annular nozzle) the values of Cy show a maximum difftrence of 11, 6%. A Imethod is presented for evaluating the required air pressure and the air i-expenditure. The most advantageous dimensions of the nozzle system can be found by varying its geometr-1c ;~irameters. Orig.' art. has: 3 figures and 21 fomulas. (ATD PRESS: 5061-F] SUB CODE: 01 / SUBM DATE: ncne Card 2,12 tv  W~ - -- KUKLINO G.V.j. KWZHINq A.G@ Observations of luxuLr occultations of Venus in Daliny. Astron. tair. no,21502-33 0 160. (MIRA 14:3) (Occul$atlons)  YEGOROVII, A.G.; GDSWIMTO R.V.; LOPASHOVA, ye.V.; YELENSKAYA, A.N.1 W- BANCYVA, A.Ya.j-XWZHTNA,Ye..O., red.; SHILLING, V.A., red. lxd-va; BEWGUROVAI I.Asp takhno red* [System of preparing the rye-bread dough in an N.F.Gatilin outfit' Rezhim prigotovlenita testa dlia rzhanogo khleba v agregate N.F.Ga- tilina. By A.G.Egorova i dr. Leningrad, 1961. 16 p. (Leningradskii. Dom nauchno-tekhnic'haskoi propagand7. Cbmen peredovym opytom. Se- riia: Khlebopekarnala promyshlonnost,t nool) (MIRA 34:10) (Dough) (Bekixg-Equipment and Bupplios)  LYUMKIS, S.Ye. (Orsk); CHERNOV, A.I. (")r-s!0; Prinimal uchastiye KHANZHOV, A.M. Forms of nickel losses with waste slags durIng the shaft furnace smelting of nickel ores for the production of matte. Izv. AN SSSR. Otd. tokh. nauk. ~bt. I gar. dolo no.08L,-(~8 IJI-tig 163. (MIRA 16:10)  ZARHAR(W, G.M.; NIKITINSXA'rA, T.I.; AWAUMV, A.G. Blectric conductivLty of fluorite. Fis.tver.tela I no.5*.835-837 MY '59. (MIRA 12:4) 1. Laningradakly Palitakhnichaskly Inatitut Im, H.1, 1,11nis. (Plaorite-Slactric properties) t  8 7,~ ~tl 8 T, 6 0A LY s/i2o/6u/ooo/oo4/OO7/O28 4, '/7j'0 E032/E4!4 AUTHORS. Zakharov, G.M., Nikitinskaya, r.I. and Khapachey, A,G, TITLE,. A Pulse Method of Measuring Large Resiatances PERIODICAL: Pribory i tekhnika eksperimerxta. 1960. No.4, pp.82-84 TEXT-* High voltage pulses of app:roximately re.--tangular form were produced by the circuit shown in Fig,l~ The ::irrult is based on the high-.voltage hydrogen thyratrons --TT-A 1-90/8 (TGI1 -90/8) and an artificial LC shaping line as shown, With stAitably chosen parameters of the shaping line, the length of the pulse could be J made of the ordrr of 11isec while the length of the leading euge not more than 0.1jisec, The processes which take place in the measuring circ,ult ~:an be reprer,6nted-approximately by the equivalent cir~-,uit shown in Fig.3. In thLB figure, R and C are the re6istance and capacitance ef the specimen under investigation, Rl Is the resistance of the generat~or and R2 is the resistance of the galvanometer, S3.nce R >) Rj_ + R2. the time constant Ir is given by -- z C(Rj -t R2),- If the length of the rectangular pulse is much greater than the time constant, the form of the rectangular pulse acros- the specimen will not be distorted. Th e dependen,:;e of the current: on time is i5hown schematically in Fig.4 Card 1/4  67 Y~ c~' S/1.20/60/000/004/007/028 E032/E414 A Pulse Mothod of Measuring Large Resistances where i,8 and ip corre:5pond ':o th,2 charge and discharge currents of the capacitor and in represents the ::conduction current pulses 'hrough 11, The mean current in the cirzuit is given by Ic r ipt/T. The form of the peaks 1!~ and i is not ne-essarily the same since it is determ -Ined by t9e structure of the Aeading and trailing edgea of the voltage pulse, However, thi s will have little effect on the magnitude of the mean current since the amount of electricity in the discharge and charge of the one capacxtor is the same. Prom the measured magnitude of ic i;an determinb in if t and T are known, and hence R can be t:alculated. The res1stance of the instrument whj-.h records the current should not be too high becausG large values of this resistan-;e lead to larger time constants. A mirror galvanometer can be conveniently used for ihis purposed In th,. instrument s?mployed by the prrsent authors, the sensitivity of the galvanometer was 10-lo amp/division. thE amplitude of the palses vxci s i kV) and T/t ~~ lo3, The lipper limit of thf- re-iistances sfbich could be measured wi,s ~hiili 101-0 ohni aithough an cxtension te) Ca r d 2/ i1  E032/E414 A Pulse Method of Measuring Large Resistances 1012 ohm is said to be possible. There are 4 figures and 5 references: 4 Soviet and 1 non-Soviet. ASSOCIATION: Leningradskiy politeklinicheskiy institut (Leningrad Folytechnical Institute) SUBMITTED: July 1, 1959 Rl nR, C C R R PUC. J. ZIRT111111111CHT111111 CX0111 111IMPHTNI1,110ft IIC- lilt. 11, C -- ConpaTliflne- 11110 It IH)CTb IMICPRL~ 3toro o6pwitta, RI_ clitipoTimetme renepm- pa, R:- ootiponinacitite rrumimitosteTpa Card 3/4 Fig-3. < T Fig.4.  o7~`E S/120/6o/000/004/007/028 E032/E414 A Pu-' -~, Method of Measuri:,ig Lnrge Resistances Card 4/4 _Oii~~_Nb Abstract Card 1/2 Dokl. 105, No 5 The luminescence yield of a system with three enera levels is calculated and it permits resolving the fun- damental problem of -whether the value of the energy yield 9 can exceed.unity. Attempts found In the literature of a thermodymnic proof of the impossibii1ty of I are not satisfactory. The energy yield of luminescence of a system with three levels (Pringsheim model) (Pring- sheiia, P., journal. of Physics, 1949, 10, 495) is calcula- ted 4-; -  USSR/Optica Physical Optica. K-5 Abs Jour Referat 7%ur .. Fizika, No 3, 1957, 7748 in detail with allowance for the available thenaal. radia- tion in the saine way as in the workd lLstcd for a system with -two energy levels (Referat Zhur Fizilr'A, 1956, 17898, 23129). A rarefied thin layer of luminescent I -us is con- sidered, to make it possible to disregard the reverse re- action of the luminescence on the electron transitions of the radiating, systems. It is shown that in the anti- Stokes region T can be L;reater than unity and that this does not contradict the second law of therfwdynamics. The energy of a lixainescent body together with the excita- tion energy is transferred to the surroundinG medium, the temperature of which is lower than the temperature of the exciting body. This, as indicated by PrlngsheLm, is ana- logouu to the action of refrigerator. It is shown that It Is Dossible to have "negative" luminescence, i.e., not an excess abcve the bacR~otmd of thermal radi.ation, but a deficiency of r~41.atiori, hav!ji~_, durat;on. Card 2/2 - 44 - 3/170/60/003/03/09/034 B014/BO07 %lyuk A P WTHOR: KhAp4 TITLE: The Calculation of the Optical ropertiesNof a Pile of Plane-parallel Layers -1ZRIODICAL: Inzhenerno-fizicheakiy zhurnalp 1960, Vol. 3, No. 3, pp. 59-68 TEXT, In his introduction, the author refers to the method of oalculat- ing ihe optical properties of thin 11aXerp, which wan suggested by -_ M---- -A. G, Vlasov (Ref. 1). In the present paper an exact solution of the Maxwell equations for an arbitrary system of thin plane-parallel layers is given. The author proceeds from the Maxwell equations (1). By means of a complex Fourier transformation followed by integration, the al- i9braio equations (3) are obtaintid from the Maxwell equationa. From these ?.tlgebraic equations the formulae for the calculation of absorbing and non- absorbing layers are derived In coomplex calculation. The formulas shov the dependenge of the reflection coefficients and absorption coefficients on the direction of the incident light. The author finally thanks B. I. Stepanov for advice. There are 1 figure and 14 references: 1'~ 9071r.Af Card 1/2 11__~C_  The Calculation of the Optical Properties S/17 60/003/03/09/034 of a Pile of Plane-parallel Layers B014YD007 I Czech, 1 Faglish, and 2 Fren3h. ASSOCIATION: Belorueskiy goirudarstvennyy universitat im..V. I. Lenina, g. Minsk (BelorussiYa State Uni,versity lmeni.V..Ic Lenin$ City of Minsk) lard 2/2  MPAL-BX. A.P. Passage of light through the bottom of a series of plane parallel layers. Inzh.-fizoshur, no,5:46-58 My 160o (MIRA 13:8) 1. Belorusekly gosildaretvennyy universitet Im. Y.I.Ienina, Minsk. (Magneto-optics)  IQLAPALIUK. A.P. Pt.jua,-c of ii,,,,Iit 1;1.rou:,Ii Lli~,., cr,-,r3t-d-i5o'aop~Lc ~-!-XrcElce. Ddd.All BSS,~ 4 no,.12:505-530, D '(Joe (:-:T'A 2j,:2) 1. Innti4mt fiziki All B33;,'. Predotitvleno a~,viacxni%uri AN ~Z.37i fj.1. st-pnno,r,r~~. (Crystal op-.Ics)  UC07 S/058/6Z/000/009/036./069 A006/AIOI AtYMORS: Khapalyuk, A. P,, Stepanov, B. 1. TITLE s GendIti-onw-ur-rencrating radiattons by a plane-parallel layer FMODICAL: Referativnyy zhurnal, Fizika, no. 9, 1~62, 7, abstract 9Zh43 ("Izv. AN BSSR, &or. fizL-tekhn. n.", 1961, no. 4, 132 - 133) TEXT: The authors preseni,, and analyze foi-mulae for the coefficient of 'transmission and reflection of electromagnetic waves by a plane-parallel layor with a negative absorption coefficient in a homogeneous ruedium and in two dis- similar inedia. For the case of a homogeneous surrounding medium the conditions of wave generation are as follows: 41~ 1 2 Irv 2n K r n. exp -M - n1 - a;70 tg A n2 -n med where r is tbR Frvc~._~' reflection coefficient on the ".layer-medium" boundary; n and X are the real and imaginary parts of the complex refractory index of the plate; nmed Ls the index of medium refraction, A mid V are the wavelength and Card 1/2~  MAFAIXT 11j:'he posvibility of goneration of radiation by a cyntem, or plane- parallel plates." Scilf-luninescence of it pile of plane-parallel plates positive as woll. an norative absorbilon Coefficionts vra.-, alialynd. Tb c report presented al the Ilth Conf ercnce on Dwnincocenco (Molevilar luninviconce and luminescorce analysis) Vminsk) 10-1~:' Sor)t, 1.962. "do  S/2501621006/005/0041007 1024/M4 AU11IOR-- Khapalyuk A. P. TITLE: Electromagnetic field inside a plane-parallel layer under conditions of resonant absorption PERIODICAL: AkademiyanaukBelams'caySSR.Doklady,v.6.no,5,1962,301-304 TEXT: By solving the system of Maxwell'i. equations with the corresponding boundary conditions (which exclude outgoing waves) for four plane waves normally incident on the surfa= of the layer, relations are obtained, connecting the thickness and refra-tive index of the layer under rc-orznl absorption. Expressions for the electric and magnetic field intensities, electric and magnetic energy eonritics, Poynting vector and absorption in3ide! the layer are then derived. ~4mpliflcd expressions for the Poyr!tiog vector and energy density arc found for the pfirticular case of similar b)rdering media. The caw of resonant absorption treated in this POPCT is analogous to the cax of light genetallon in a layer with negative absorption co--fficicnt. There is one figure. ASSOCIATION: Beloruskii gosudarstyenyi aniversitet im. V. 1. Lenina (Byelorumian State University im. V. 1. Lenin) SUBMITTED: March 14, 1962 Card 1/1  b1951 6/194/62/000/009/061/100 D /D3 08 9 5 AUTHORS: Khapalyuk, A. P. and Styepanov, B. L. TITLE: Conditiona.for the generation of radiation by a plane- parallel layer PERIODICAL: Reforativnyy zhurnal, Avtomatika i radioelektronika, no. 9, 1962, 7, abstract 9Zh43 (Izv. AN BSSR; Ser. fiz.-tekhn. n., no. 4, 19061; 132-133) Tl'-'XT: Formulas are given and investigeLted for the transmission and reflectLon coefficients of electromagnetic waves by plane-pa- rallel layers with negative absorption coefficients in a homogene- ous medium and in two diffe2,ent media..Thd conditions for the ge- neration of waves in the ca.E~c of a homogeneous surround medium have the form r = exp (4!rXll'A), and (2ri)/c)ni - tan_1L2nmj/(n2 2 2 M n 71 ).] = Trs, where r is the Preanel reflection coefficient at the layer-to-medium boundary, n and )C are the real and imaginary -parte-o-f the complex refractive index of the slab, nmis the're- CErd' %,1/2  B/194/62/000/009/061/100 Conditions for the ... D2()5/D308 fractive index of the medium, Aand V are the wavelength and fre- quency of light, and s is 3.n in-Legcr. The sensitivity of the gene- ration conditions to the scond of the above conditions is pointed out, since a variation of Layer thickness by 0.015)Lwill no longer lead to generation but to damping of wave8. CiLbstracter's note: Complete translation.2 Card 2/2  KWALUX, A.P. Theory of circulax optical axes. Opt. i spektr, 12 no.1:106-110 ja 162. (MIRA 15:2) (Crystal optics)  EM,PALIUKp A.P. Electromagnetic fields inside a plane-parallel layer under confitions, of resoumce absorption. Dokl. AN BSSR 6 no.5:301-304 My F62. (MUU 15:6) 1. Belorueskiy goiiudarstvennyy universitat im. V.I. Lenina. Fredotavleno akadeidkom AN BSSR*B.I. StepanovyM. (Electromagnetic waves)  KHAPALYMN't A.F.; STEPANOV, E.I.; SOTSKIY, B.A. Mectromagnotic fiell la a plane-parallel layer under self- oxcitation. Opt.i );)ektr. 13 no.2t282-285 Ag 162. (MIRA 15:11) (Optioo, Phyzical)  - -- "!!W129MI - - KHAPALYUK, A.P. Transmistsion of nomtlly incident light through an wdsotropic plate, Kristallografiia 7 no.4:581-588 J1-A9 162. (KRA 1511l) 1. Belorueskiy gosudarstvennyy universitet Imeni V.I.L,,z~ritna. (Cryatallography, Mathematical) (Light-Transmission)  KHAFALYUK, A.P. Circular optical axes In absorbing crystalai, Kriat&llofrafiia ? no-5: 724-729 8-0 162. (MIRA 15s10) I* Belorueskiy gosudvotvennyy wivoraitat imeni IAnina. (Cryetanograpby) I. tv,.  STEFANOVp B,I,; OUPALYUKO A*P* Transmisoive aW ref1gotive 'power of a plane-parallel layer wider conditiom of mplification and gneration. Opt.1 spbktxo 13 no.5014-720 N 162, (MM l5tl2) (Optical measwements) (Radiation)  STEPANOV, B.I.; GONCHAUNKOv A.M.; IVANOV, A.P.; SAHSON, A.M.; S(YrSKIY9 B.A.; DUFALWKI_~. F. Gemeration of radiation from an infinite plane-parallel layer Izv.AN SSSR.Ser.fiz. 27 no.4s460-465 Ap 163. (MIM 16:4 (Mpseris) (Electric resonators)  - -11 ,MUPALTUIC, A.P. Generation of radiationby a eyotem of plene-parallel layers, Izv.AN SSSR.Ser.fiz, 27 no.484F7-482 Ap 163. (MIRA 164) (Masers) (Radiation)  APANASETICH) P.A.; BORISEVICH, N.A. VOIODIKO, L..V.,- GLkDCM,,'KG, L.F.; GRIBKOVSKIY, V.P.; GUGEOVICH, G.P.; IVANOV, A.P.; KuzN'--7SOVl,, V.V.; PIKULIK, L.G.; ~lljpovicll, V.A.; RUDANOV, A.S.; RUBMIOV, V.S.; S91SONp A.M.; SARMEVSKlY, A.M.; SC,LOVIYFV, K.N.; UMMKO, D.S.; KIIAPALYUK~ A.P.; YEL"(A.911EVIGH, N.A., akadem4, I-ea. [Interaction betwrn nonequillbrium radiation and matterl Vzaimodeistvie neraviiovesnogo izlucheniia B voshchestvom. Minsk, flauk-a i teki,.Lka, 1965. 223 P. (MIRA 18:3) 1. Akademiya nauk SSM. Institut fizlkl. Akademiya nauk Belo- russkuy SSR (for Yellyashevich).  ALC NR, A1156062 SOURCE-6-0-Dit UP/0051/65/019/003/0387/039L AUTHOR: 41 IRA% ORO 4. hone TITLE: Range. of validity of the'transport equations SOME: Opti.k& i spektroskoplyal, Y. 19, no- 3. 1965P 387-391 ------ TOPE VM -transport equationp~Vhxwell equationj geometric optics# nonlinear equa- tion ABSTRACT: Although much theoret',;cal optics is baqed ot on--the exact Maxwell equa-- tions but on -the simpler tianspoit. equations (geozm'ftdcaly~ ics), which have given good resultal especially when apj)lied to stimulated emission, the range of validity of geometrical optics remains unclear. The author therefore compares solutions of the transport equations and the oxact collitions of the one-dimensionall gmll M 2: '*'j. tions, which are rewritten for this comparison in terms of the energy flux (P) and the energy de:fAsity (W). It is shown that whereas the transformed Maxwell equatiors are difficult to solve because they contain nonlinear terms,, the equations reduce to, the vell-know.,i nonotationary trusport -equations If the-nonlinear terms are droppede This provides a criterion for tho validity of the transport theory. It is shcown ul- timately that the transport equation Is valid fully only for pure exponential golu- tions, and tht: results become uru!eliable whenever the solutions are extended to it- elude nonstationary problems thail, do not reduce to exponential ones. These concl%;- Coprd XJ2 UDC: 535.2.001.1 ':'  ACC NRi AF502'2862 sions do not affect the validity Of the transport equations for-noncoherent-11glit-- waves,, provideii. the averaging of Ote--amms of, the va-mes over a random distribution cf Initial -phases -leads--to the same zesult as averaging over time and space. Authar __' and P. A. Namitevich tor b2tereirt and adifice. OriC. theu*a B. -1. 8 ext. hass .16 xormulas. - 41,-. - '~ SUB CODES. 20/ SM DATE: 29JU364/ ORM IMF: 004/. OTH FdW: 001  _L 04764-67 5 IT (1) /T TJ P (c) ACC NRs AP6025977 SOURCE CODE: UR/0051166/021/001/Oiii-~-/C-~i-411 AUTHOR: na2alyuk, A. Po ORG: none 67 TITLE: Symposium on nonlinear'optLcs. A report SOURCE: Optika i spektroslcopiya, -r. 21, no. 1, 1966, 1143-144 TOPIC TAGS: optic conference, opt:,c research, optic material, high energy interac.- tion, high energy scattering, photon, quantum generator ABSTRACT: The author reports on the proceedings-of the Symposium on Nonlinear 0pt:.tsj ~(4-11 &gne 1965) organizecl by the '~:natitute of Physics, Veademy of Sciences of the t Stat 146 delegates from 40 scienln-f Belorussian SSR and the Bel.orussiai , _Q_ J.- fic and industrial organizations ol- the Soviet Union took part in the symposilm. V. M Fayn_presented a paper on "Cfiaractc!ristics of interactions of high energy fluxes and matter," dealing with the problems in measuring the properties of nonlinear parame%crJ. It was noted that the commvnly use4, analysis method of relating the vector of polari- zation to the magnitude of the electromagnetic field in a number of cases (extra %z.gh,1_ energy flux rvaonanca effects) is rot sufficiently accu,.-ate. A. M. Lonch-Bruyevi _t and V. A. Khodovoy devoted their presentation to the topic of "Multi-photon procesties The physical interpretation and practical applications of multi-photon processes wcxe_~___ UDC: 621.375.9 : 535.004.1 Card 1/2  L 0064-67 ACC_Nk-__ AP6025-377 discussed. The difficulties of experimental determinazlion of nonlinear propertien in matter were noted. A. M. Samson reported on "Nonlinear phenomena in quantum gene-,?;%- tor". In following discussions, the difficulties in solving the nonlinear Maxwell's equations were mentioned. Other subjects included the feasibility of applying bauin equiations, to the calculation of nonlinearities, probleras of stability and interac- tions in the generating media. S. A. Akhmanov discussed the "Multiplication, addi.. tion and subtraction of optical frequencies," utilizirgy nonlinear optical media. Other speakers reported on their work in the field of 1:ionlinear and coherent optic:;. SUB CODE: 20/ SUBM DATE: none kh Card 2/2  VASIVYXV,G.A., kandidat tekhaichook1kh nauk; KRAPARTSNV,I.V.. Inshoner New OV-10 grain cleaning nachine. Sellkhosmashina no.8:3-6 Ag'55- (MLRA 8: 11) 1, Vuesoyusnyy nauchno-looledovatellskly instit-it sellskokhosyayst- vennogo mashinostroyanipt (Grain-Cleaning) (Agricultural mm-.hinery)  - wx~vw M FZDOSZYXV, B.V., kandidat teekhnicheskikh, nauk; UfAPAITMq I.V., inshener. Clover hulling and cleaning attachment for the C04 self-propelliq: combine. Sellkhozoashina no.6:10-12 Je 156. (KLRA 9:8) (Combines (Agricultural Xachinery)) (Clover)  VAKHROMMW, V.; KffAPANTSICV, 1. The 077-20 self-propelled grain-cleaning machine. Biul.tekh.-okon. inform. UD.9353-54 160. (MIRA 13:10) (Grah-Cleaning)  VAXHRA-qEM, V.A.; J~HMABTSEV, LV. OVY-20 grain-oleaning mahtne, Trakt.i sellkhomeb, 30 no.10: 34-35 0 160. (MIRA 13:-?) ( Irai n--C leaning)  KaAPANTMV, V.V.,, sostavitell [Suburban timetabless Moscow - Monino - Zagorsk, Moscow Railroad; sm=er 19611 Raspiaanie dvizheniia prigoroduykh poazdovt Mookya, - Monino - Zagorsk# Mookovskaia zh.d., leto 1961 g. Moskvaq Trans- zholdorizdatp 19619 125 P. (MIRA 14t6) (Moscov-Railroade-Timetables)  Journal of the' fterican Ceiramic Sodety Vol.' 37 No. 5 May 1, 1954 Cementst Urdeat and Plasterv Stutfy of the micro 'structureo( hitrii-tial cement elanit Ill It- f*teil 11CIlt. "A. K 'MMIK 1 -4 A 'Al' L A. K it A r AN fSEVA. I'1 "k, il I, 19 1019-11 -A study of Ill 1141-vt'd light under the taknoweille fev~:Ik three MrilrWrall V. it 4 1 (a) new clearly visible -ystalfiric forittatiou, (Vry-t Olt q! ~ov,- Cirction), (b) amtrCtilt Isotropir tausi Ithich ION Ow tr ~ 't III Ill,- Cactattion, iLnd (c) inc(mtVlrt~~jy lIy,jrtjtrj Ar~till- ill 0111ur The tuture of the ncw foinvO io-.i% and of the i-ti,n4v Ill; 1,, 4 nVA known Thrct photoA of :ittucture. 'I i, Z.  SHVXIN, A.Te., prof.; LIMAN, A.Ta.; GUY TSU-SINI, inzh.; URITU, TS.D.. inzh.: KWANT-SIVA. Li. , Insh. ---., - - ., Rapid hardening Portland cements for making precast reinforced con- cretes. Bet. i shol.-b-9t. no.2:68-71 7 '59- (JURA 12:3) (Cement) (Concrete-Testing)  KHAPAVA, Sergey Arsenlyevicli " ~,, (Bacteriuria] (Baktoriuriia Tbilisip Go.s.izd-vo ftSabehota Sakartvelo") 1963. 1'5 P. [In Georgian] (MMA 17:4)  KWAYEV. A. podpolkovnik zapasa For vidtory. Grazbd.av. IS'no.2*-16-18 If 161. (MIRA 14;3) (World Wa~, 1939-1945-Aeritti operations)  KIIAPAYEV,_A_.,,.,podpolkovrdk zapasa Competing Dor the title of communist lator group. 'IyI i snab. Sov, Voor. Sil 21 no.12:30-35 D 161. (~'MVL 15:1) (Russia-Army)  KHAPART. A, A pilot of long-rang,i and nonstop flights. Grazhd. av. 20 no.9:4-5 3 163. (KIM 16:8) (Air pilots)  _4 AP5008 o056/63/C481003/001/09#" A A)R' t- ?Lb~~ MY A, bf- TMU; ElectntniLaet radiatiot-, IrcI!V W neutron. in- an qLiteriml magnetic field ISOM-T: ZbamO eksperimenzallnoy t teereticbeakoy fizilci, L8, no. 3, 19650 . -T r,-I- 2 ~TOFW MO: neild-ron, _zeutrai radlWillion.- neutron polarizetion, ntutron gpin pre- eettal on, electratfugtetic radietion ABSrACT,. It is obown -that since'a"neutron moving in a i-onstant and bomqgerjeous wagneilic field has am &iomalbus migtet ic m=ent, it is capabl! of emittizNj radia- tion, due to 8PXTtmaeou.a transiticme cf the neutron betmten imates of different magnet Ac- moment cyrientai,,jons. Mm- enerfW of interaction betwi%en the ne'Ltron and the T1-41ation Mc: d is determined, It in shCVn that the neutron radiation is IW-dAj chr~=,.tic for euch fixed d1rection rdAtive to the neutrcn velocity, but the ra- diaticr. frequency to different for different directions. Ine radiation iii shown to be sceompcmied always by a chaqla in- opin orientation. Uhan the radiating nea- trons mre in-Itially unpolarized, qpattnneous polarizatior of the neutron be= is C.'a  3 SICK- I 7~ -zcm -ir MI- ~~in~mequiree a prefe-rred ori- e..__and,pafil~mr e~-UmT-ift A *_--ne~trcb~' Al --entation ;7ppositt, VfA76f ifie magnei*de field. Tbe polar!zation properti-to of the neutr-in radlatlai are investigated. The probability of neutron radiation is com- pai-ed Y.-Ith the corresponding probability of qmntaneous ~ decay and it it; shown that -1--'e prccesvi-s comected w1th rediation of electmma~netic ~-avaa by neutrons -f nracttcil int-i--reat on4 ir the case of larg- -.e~giea or at hi4-,t An &mlysie of the behav!:- of. ~onjqitudi- ronn in f,. mf Lgf.e~jc field slaws re r-. r - od -at ie- exi-Rrimenta-Uy 4hen longitudiml~,y 1,oar,2_ed slow neutrona anai-netic f'leld. Orig. art. has, 45 formlas. Mcs.iovskI7 gosudarut,reiTOT universitet (Moscow State Univertoity) STALMMMt 12flepti~ IMLi 00 TM :ODE i NP Ifl- RF CTM 1 001 F ia~ OCY5 Card 2/2 C C  EHLPATNV, A.S., gyardii myor takhnichesKoy slioshby Device t6 imitato explosionn for mock mj,nea. Artilleshur. no.8:59-60 Ag '53- (MIRA 130) ZMines, Military)   16(1) AUTHORi Khapayev, M.N. SOV/55-58-5-4/34 TITLEs Erpansi~o*'n-oi Ahe' Hypergeometric and of the Degenerated Hype.,-- geometric Functi-)no Into Series in rerms of Bessel Functions (Razlozheniye gi:pergeometrioheskikh i vyrozhdennykh giper- geometricheskikh funktaiy v ryady po besselevym funktsiyam) PERIODICALt Vestnik Moskovsk,)go univeraitetagSeriya xatenatikij wkhanikip ut- ronozii,, fiziki, kldmlio 1958 Nr 5,PP 17 - 22 (USSR) ABSTRA.CTi Por the degenera-.1ed hypergeometric function F(a,c,z) the author obtains a double series in terms of Bessel functions. He pr.)-r*s the asymptotic character of this expans.on for a-*oo. With tthe aid of this expansion F(a,b,c,z) is dev(loped into a double series in terms of degenerated hypergeortetric functions. Thip asymptotic behav:.or of the.e'olutionis of the hypergeometric equation with thit parameters a,b,o 1,1and of the degenerated equation with tho parameters a,c) in then investigated, if a-~oo , b-+m and I z 1 (or a -) oD zj - 1 ) . ab lal Card 1/2 Expansion of the Hypergoometrio and of the SOV/55--58-5-4/34 Degenerated Hypergeometric :?unctions Into Serilas in Terms of Besael Functions There are 3 references, 1 of which is Soviett and 2 are English. ASSOCIATIONs Kafedra matematiki fizicheskogo fakul'teta (Chair of Mathematius of the Physical Dapmrt;ment) SUBMITTED: January 24, 1956 Card 2/2  - ~ KWA77, M. M. Expansion of Bon3al functions with la,rge values of the argu- ment and index as applied to Beseel functiona with an index of -1 . Naueb.docl.vys.shkoly; fiz.-vat.nauki no.2:83-85 3 '59. OCIRA 13:3) 1. 14ookovskiy gosulArstvenW univeraitet im.H.Valemononovae Nannal's functions)  SUCHNIKOV. A.G.;ICWAYZV, Y.M. A 'problem in aerial electric prospecting. Vest Moak. un. Ser. mates mekh., astron., fiz., khiid. 14 no.2:113-1;!O 159 (KIA 13:3) I 1. Kafedra matamtiki Mookovskogo onuniveirsitata. (Electric prospecti - =onautics in geology)  q CO 24 AU- T T-10 RS Habinoviah, Yu.L., Khapayev, 11.1.1. Z011/20-129-2-9/C IV I~17- t Linear Equations Involvin;~ a Small Parameter ',Iith the Hir,,.eit Derivative in tho Neighborhood of a Regularly Jingular Point "`E.'~IODICAL: Doklady Akademii nauk SoSR,19500"01. c; ) 129,11r 2,,,)T) 268-271(U5 R ABOTRACT s Consider the equation (1) 6kE k E"I '- 0' k=o where q Z)VI(s) wheze the z) are holo- ik.( morpbic for z-0, q o,M-1 (0)/0, so that z=Q is a rc(~-tlarly singular point of' the ecuations Lrw] = 0, LO[w] = 0. Let I . be a root c-f the defining equation of (1) which fo:r 640 passes over into the root j, of the defining equatiin of the degeneratEd system (d .0) 0[W Cl. Let w0(Z) bB the lution of -ZOEWj - 0 for which lin. 1; w(z,e) the Card 1/2 z -)o  66724 SOV/20-129-2-9/(6 .Jinear 1~quations Involving a Small Paramator '-Vith tho Highest Deriv.&Iire Ln the Neighborhood of a Rogilarly Singular Point Solution of 0 for which lim. 1. The authora Z-)O Z show that under ,ortain assumptions for E .. 'PO the solut,-Lon w(z,&) passes ov-~r asymptotically into w 0(.). There are 4 refe.renconi 3 of which aro Soviet, and 1 Belgian. ASSOCIATIONsMoskovski.y goeudarstvennyy universitet imeni ?,%V.Lor-1onoqova (Moscow State UnLversity imeni M.V.Lomonosov) PRESENTED: July 3, 1959, by I.G.Petrovskiy, Academician SUBMITTED: July 2, 1959 Card 2/2  827~2 S/188/60/000/03/1)1/008 16o,334v) B019/B056 AUTHOR: Khagayeyt M. M, TITLE: The Asymptotic Expansion of q2t!Ljql Functionsl~ PERIODICALs Vestnik Moskov3kogo universiteta. Seriya 3, fizika, astronomiya, 1360, No. 3, PP. 3 - 9 TEXTs In the first part of the present paper an asymptotic expansion of the Bessel function y,(z) Is given for large Y and z - V'v-T in powers of 1/y. In the second part the degenerate hypergeometric function F(a, 0, Z) is avymptotically expanded for the case in which a, c, and z ten?. to- wards inlinity. In the last part the hypergeometric function F(a.bgc,z) is asymptotically expanded for the case in which a is large and 1) - aAl 2 c .2va . It must finally bit said that many of ths known asymptotic expansions may easily be o',)tained if the equations corresponding to those with small parametero and ~aigher derivatives are known, when the canonical solutions in the neighborhood of non-essential aingularities are studied. The author thanks Yu. L. Rabinovich for valuable a~.vic ex Card 1/2  36998 S/044/62/000/003/045/092 -;-000 C111/C444 i-,UT11G,1St Sveshnikov, A. G., KhaRa y, M. M. .11L TITLE: On a problem of aerial electroroconnaiBsance PERIODICAL; Referativnyy zhu:7nal, Matematika, no. 3, 1962, 77, abstract 3B329. (I'Vestn. 1,11osk. un-ta. Ser. matem., mckhan., astron., fiz.0 k',iimii." 1959, no. 2, 113-120) TEXT: Considered is tha influence of the loweut stratum of the fog on the radiation resistano) of a vertical electric dipole. The J4, authors introduce E;n effective dielectric constant which character%ses the electric propei'-ties of the fog, and for a vertical electric dipolet situated over the ideally cond-icting plane earth, they obtain the ax- pression for the rate of chang.- of the radiction resistance of the dipole caused by the lowest stratum or the fog. One points to the fact thit a similar con&Lderation also mie.2t easily be carried out for an horizontal dipole. [Abstracter's notri Complete translation-3 Card 1/1  8*7392 S/020/160/135/006/006/037 10 #0 0 C 111/ C 333 AUTHORs lChapayev, M. M. TITLE: Asymptotic Expansions of Solutions to Ordinary Linear rifferen- tial Equations Having Small Coefficients With Their Higher Derivatives in the fleighborhood of an 'Irregular Singular Point PERIODICALi Doklady Akadem:.i nauk SSSR, 196o, vol. 135, No- 6, pp. 1338-1341 TEXT: The author considers the equation (1) n Ek-mjk(z, m W(h) + ik( Z, E )vl(k)0 k-m+1 k.0 where 00 OD (2) 7 k(71 1 &aA k,n(z) z Z-9Bkts 0=0 13-0 and the degenerated equation Card 1/8  87392 S/'020/:60/135/006/006/,)37 C 111/ C 333 Asymptotic Expanaion-3 of Sclutions to Ordinary Linear Differential Equation!) Having Small Coefficients With Their Higher Derivatives in the Neighborhood of an Irregular Singular Point 0, m - 0) VI(k) = 0 holds. Pk (z' Let -Fn(z, E 1; lim PB. (z,O) - BMto (0) / 0, The point at in- finity is irregularz f8or (1) and in general also for (3). Let the equation n M (4) Q( ~ F- ) z xk k-m B 7 Ak B 0 k.M+1 .1 k,O(F- ) + k-0 k,0 possess only aimple roots k(6 ). To every rcot Ak(e ) there corresponds a formal solutJon of (1): Card 2/8  87392 S/020/60/135/006/00(i/037 C 111/ C 333 Asymptotic Expansions Of SDlUtions to Ordinary Linear Diffe:7ential Equations Having Small Coefficients With Their Higher Deri-ratives in the Neighborhood of an irregular Singular Point Go (9) Wk(%z;,'E ~k (0? z + z Ck,s(e ) Z- s] L 8.1 Let e'~O, lilz3 Furthermore (12) S , ~O) - arg k(E) - ~,,(F_) I , 2 k K n e'P k' - arg ( Ak' A,') 0 0 are for 2 1 k!~ m; arg AAO form+ 1.jk < n, where A k: Tk C-k = 0 an.d. C the only simple the only simple roots of C~( A 0) elk roots of k 2: " b (01 - 0. It is k=0 k+m,o Card 3/a