SCIENTIFIC ABSTRACT POPOVA, O.S. - POPOVA, S.M.

B/07 01034101110181024 B004YBO'64 AUTHORSs Sanzharovskiy, Ao.T. and Porova. 0-4 S. (Moscow) TITLE: The Method of Investigating the Diffusion of Cathodically Reduced Hydrogen Through Metals PERIODICAL:- Zhurnal fizicheskoy-khimii,,1960,.Vol-,34, No.,11, pp.12601-2602 TEXT: This paper-gives a report on diffusion measurements of cathodically -redu.ced'hidrogen-through metal follsicarried out by two methods: ,a) diffusion through a metallic cathode foil into a space in-which the pressure rise was measured with a gauge. b) Measurement of the sag h of a cathode foil --isolated on one side-. The sag was caused by-hydrogen diffusing into the fail. Iron and nickel foils (thickness, 50A) were used. Depending on the center of gravity of the chu9ked foil and as a result of tension, sag in the direction of the anode or in the opposite direction occurs in case b at the same potentials-This joint action of mechanical and diffubion'effects requires a careful interpretation of the experimental data. There are 3 figures and 4 references: 2 Soviet. Card 1/2  POPOVA, 0. S.: I-Iaster Chem Sci (diss) -- "Aspects of t:~e atr-,-,cr-fire anrl prr-P.---r- ties of electrolytic precipitates of implicitly crystalline type". Moscow, 1959. 12 pp (Acad Sci USSR, Inst of Phys Chem), 150 copies (KL, No iL, 1959, 115)  -AUTNORS: Popova, 0. S. , Gorbunova, TITLE: ---T1-.--e-S-6ructU-re and Some Pronerties of Electrolytic Manganese (Stroyeniye i nekotoryye .9voystva elektrol-iticheskogo m-argantsa) PERIODICAL: Zhurnal fizichoskoy khimii, 1958, Vol 32, Nr 9, pp 2o2o - 2o28 (USSR)- ABSTRACT: The electrolytic solution used contained manganese sulfate and ammonium sulfate. An additional solution of the same composition but with glycerin added vias also used. The manganese deposit was investigated using the microzcope (Fig 1), the electron microscope (Fig 2), and X-ray apparatus. As the Debyograms show, the manganese deposits, and especially those from the solutions containin,_r glycerin, are almost amorDhic (Fig 6). After warming for a short time at about 1200C the manganese appears to have 'the strticture of a-Mn or y-"n in the X-ray studies. Whichever modification appears is depprident upon the conditions of the electrolysis. T*-,e hydrogen content of the electrolytic deposit was also determined by using the apparatus shown 3 Card 1/2 in figure 3. The content was found to be between 5 and 8 cM,  S~ruc.Lu-re a--,d So-e of 7 Manganese of hydrogen per gram of metal (Table). The greatest --art of t-,e hydro6en escapes up to 12501", while the rest leaves U'l - U up to 3000C (Figs 4 and 5). This behavior differs from that of electrol-.-tic nickel (Fig 5). By iisin~~ nn olnE;tic c,rithodo tile Inner stre-i of tile maneanene wan, determined. According to the ccrlditions of electrolysis this was lound to be betwec--, 5 and 20 kg/MM2 il . There are 6 figures, 1 table, and 30 references, 9 of which are Soviet. ASSOCIATION: Akade-miya naul. SSSH Institut fizicheskoy khimii, Moskva (AS USSR, 1,10scow Institute of Phycical Chem-istryl SUBI-TITTED: April 4, 1957 Card 2/2  13 7 - 58 - 4 - 7 8 42 Translation from: Referarivny-v zhu_rn.L. AUTHORS: Gorbunova, K. M. Popova 0. S. SLty-igina, A. A. Poluk.-- rov, Yu.M. T IT LE: Mechanism of Growth and Structure of Precipitates of Metals Produced by Electrical Crystallization (Mekhanizm rosta i .5tro- yeniye osadkov me talla, vozrikayushchikh pri elektrokristttlizat sii) PERIODICAL: V sb. : Rost kriStallov. Moscow. AN SSSR, 1957, pp 58-66 ABSTRACT: Certain principles of the growth on the cathode of an electro- lytic cell of deposits (D) of metal in the form of dense coatings or loose dendritic structures are examined. K. M. Gorbunova shows that when s n lu crystals -ire tormed, an increase in current I re- sults in the I ZS-K ratio remaining constant because of the increase in the surface of growth. This latter results in ~ transition from growth of the single crystal to the growth of multicrysLalline D (a relatively high concentration of discharging ions occurs) or to a growth of dendritic D (a low concentration of discharging ions). Dense polycrystalline D grow when ZS-S is attained at the cathode. Card 1/3 Subsequently, further increase in I can occur only when there is  137-58-4-7842 Mechanism of Growth and Structure (cont. a drop in the concentration of ions at the cathode. At a given I, the ion concen- tration at the cathode may prove to be close to zero: the maximum diffusion current is attained (MDC). Powder D form upon electrocrystallization tinder MDC conditions. The particles of the powder D are extremely fine dendrites, the angles between the branches of which are determi,ned by the crystallogra- phic nature of the metal. For Zn powder, the angle is 600. In (tense crystal- line D the anisotropy of properties such as the magnetic, the linear compressi- bility, resistivity, thermal expansion, resistance to corrosion, etc. , are de- termined by texture (orientation of all the crystals of the D in a given crystal- lographic direction). The authors hold that in the case of D with crystals above a certain size and small internal stresses (IS), it is more accurate to regard texture as "growth texture, " Texture comes into being as the result of com- petition between crystals of different orientations, as the ionic building blocks brought up to the growing crystals are put to use. The change in the texture axis with change in the conditions of electrolysis is explained by the change in the ratios of the growth rates in different directions. The unique adherence of the texture of Zn and Cd D to a 6th-order axis [ 00011 c on application of an alternating current, with the surfaces bounded not by apices but by the faces of the base, may be explained in terms of the concepts developed by Kaishev and Bliznakov. X-ray and magnetic studies have made it possible to determine Card 2/3  137-58-4-7842 Mechanism of Growth and Structure (cont. that IS anisotropy exists in Ni deposits, and also that the IS of Ni is not directly reldted to the amount of occluded H2, Introduction of brightening tgents in Llie buth leads to the formation of deposits not. hoving the definite clearly defined boundaries characteristic of crystcils, nd the D consist of rounded forms. 0. P. 1. Cathodes-Deposits-Structural analysls 12 tural analysis Card 3/3  05814 18M sOi/76-33-10-12/45 AUTHORS: Moiseyev, V. P., Popova, 0. S, TITLE: X-Ray Analysis of Electrolytic Manganese Deposits PERIODICAL: Zhurnal fizicheskoy khimii~ 1959s Vol 33, Nr 10, pp 2183--2189 (USSR) ABSTRACT: Structural transformatiornin electrolytic manganese deposits have been investigated little so far (Refs 4-9) though they are of great scientific and practical interest. The structural and phase transformations of electrolytic manganese deposits occurring in vacuum heating were subjected to X-ray structural analysis. The deposits were obtained from two baths of the following composition: 1) 150 - 200 g1l of MnSO 4' 5H20+ 50 - 0 + so - 100 g/1 of (NH and 2) 150 - 200 g11 of MnSO ' 5H ) 2 2 4 4 4 - 20 g1l of glycerin. The hydro:- + 50 - 100 g11 of (NH 30 ) 2 4 4 gen separated by heating the sample (to 50, 80, 100, 125, 140, 200, 300, 500, and 700 C) mas determined in a vacuum device (Ref 4). Kurdyumov's formula and a new equation for calculating the lattice constants from radiographs (obtained for plane Card 1/3 polycrystalline samples) were used for the purpose of choosing  0581L SOV/76-33-10-12/45 X-Ray Analysis of Electrolytic Manganese Deposits ~he conditions of X-ray analysis. The radiographs (Fig 2) resemble those of amorphous substances and exhibit a strongly blurred diffusion line and a fairly large,background of in- coherent scattering. Both allotropic variations, i.ea a-manga- nese and y-manganese were obtainedq the latter in, a 10g deposit on a silver base in bath (1). It is very unstable-and soon passes over into the a-variation (after some hours). Data on the variation in the crystal-lattice constants of %-manganese (Table 1) indicate that different deposits (as to the content in hydrogen and the kinetics of hydrogen separation in vacuum heating) were obtained from the two baths. The.deposits may be regarded as a solid solution of hydrogen in a~-manganese (with strongly deformed crystal lattice). The afore-mentioned amorphous structure is brought about by the large hydrogen content in the crystal lattice. In vacuum heating, the solid solution decomposes due to the separation of hydrogen and re- duction of the crystal-lattice constant. The manganese deposits were found to have an inhibitory effect on the decomposition of austenite which occurs when the temperature of the samples (1,080 C) slowly drops. Radiographs (made by A. T. Sanzharovokiy) Card 2/3 of samples obtained by adding B02 to the solution indicate  POPOVA, O.V. Use of intralaryngeal d'arson7alization in scleroma. Vest.oto-rin. 18 no.5:58-59 S-0 156. (MIRA 9:11) 1. Iz kliniki bolemey ukha. gorla i nosa (zav. - cloktor meditsinskikh nauk Ye.U.Novak) Stanislavskogo meclitainakogo iustituta. (IARYNX. die. rhinoseleroma, ther., intralaryngeal d'arsonvalization) 61JIGTROTHIRAPY. in various die. (r d'arsonvalization, intralaryugeal. in rhinosoloroma of larynx) (RHINOSCIARONA, there diarsonvalization, intralaryMeal, in rhinoseleroma of larynx)  AL-*-W" f-w-6 0-0 Col o 0 6 a 0 0 * 0 0 * 0 0 6 0 q 0 4 0 00 10 1 u 11 If is 10 t/ IN If a a a ~4 A a P A Y, L. It $6 12 u to 4c v t. -1 - 401 c WIN I -V "L-i -00 0 0 -00 oo 010 9 1 -00 0 The Soviet "Supergreeu.- V I.- Milif"All 311.1 4 1. It , 1 -00 6~ _ tNpO%,2, t938, No. 11. :i -00 00 ing dyV 0' N (2,V-dirlWYki,4,3 -1 10" ignijup p.t(Aurnr,.tulfonatV) aa, intr,-Itw,,I tnt,, it phW- I' for 11 p I a 'A filill.. - -00 1 tion wit, 2-4 tim', tb~., ~ ` $00 es witherythrooin. The . i lnw-t utti ilct, l. n l b ff v : 4 , c u er xrtt y a y a : 12 IN di l , iy =00 0 It int-I U." "I light 'ell'itivil V in I lie guyll. Illk-ItR11111111 : IlKvtral m-n-itiYali,to oil 12 N it fit,- ~wnr It, What III trs - 0 0 IIm I~in . I I Vx IV I It I% I oft I it '.It I I tip. 1,11v max. ~-Ilmtitatiml zoo 00 Ott- filin by the 41yu 11 IN wa- at 4.1-nit --olol mA. III,- zoo Of ciattlititin of tim filtii 2fier 6 inwii4, IIj. i'lenti'al with I hat 4 the film ishi,h evainc.1 rrAhromis. z:*o 00 -fill W. R. It, Coo 700 00 ago 00 AO 09 till 00 f ASS It. jTALL4P(.K4L LITIMA74st CLASSIPKATICN f: 2:00 00 Ila--- cc u IS 4, to it! 0 tv IV it :IP OF ; Is it St K IT it if x la IS 'is a W 0 .T.-:00004000000 00000000 i 0 o;& 0 000*4000111111,00WO00000-1-4h  it Id B 16 v IF IV a L: u I z A d A I A- 6 004 l. Flocciggs Aw. POCOCRYIES Impt. 00 Few amna d bromme is dw 1111111161m. V. L. Zelikamman &j o. v. X&RO-1111111111i4f. Pmm. 6. No. 1. 22-4(11W)); kh( A ' m. &W.Zbw. 190. No. 7. 113; d. C. A. 0 N is an the C%NW In The tvrkrn. uf the :0 a we. be" thrigittshm sk I ctillhidt with bj=== T ipwo WWI. "W vr"m . cbanpetevimt ox- b h e y t sift aw"W"Amilm. 6i 1 cum 2. 6 4 tk cmem. st A& (gmk to AsNo~) 4o .1 r--5 0 . S., g. .makim. The cciiiicgm. d ibe aikxfi br.- 00 --W emidw. mt. (Kbr 97 KI 30) to -d- Tbe" "m 6111mv opi" of 'Ght- 0 %rv"kWtY coef. of Mina and degm of lot =d1`h= #be A b b& i b f COO a o n t e o n . s ,w 00 a to 1W Md. % of KW. T1w wn4tivity tV um " bra. after the Nd ripmins, after whkb the -a%. eAwppmW. The deafte .6 diqw- ' :;OG %ioniswremodelitst f g Ok and i ierves"d dio", ubm a;nquecilting ttw oo equic ratio (r%). 7. mad P. conlic"W4 that ncgsqi~ Mi. tNwA4m- am he 4-takelid with a %n if f th 00 ..j! 'S n exerm o e W. ft. Itent, m4 TALLMICAL LITINAIWI CLASIOPKAfielf us 77 i 0e ft& cl a 3 11 14 IF a It It 49 Iw ~ 0 s 00 0 00 10 0000 0 o 1~6 , 0 go *41  009000000000090e06606 Is 0.0*0000000*0000000o* #1;0?4-~ *~'F i~`; S 4 * , - I to 'I X 31 if a IJ 14 h :6 .0 A 21 X It U 11 14 r.- L It It IX UP It. -i 0* 00 -00 0 0 00 00 g i A dwd ad dOWN1111ift dw U1110126 11-b- Of gookfim k 0 im. zelilontan And o, V. ropova., st-4.1ollik . 00 I he need for a cor - Proms. 6. 7.1-40NO).- filipts. Indicate -00 00 tectio, and inlpql)wrment in the areffiod of dets. the tan- ning no. of gelatin, And the following coatrul of the 1-00 of of tanning agent to gelatin is wasested: the term "Itlin. 1-00 z tanning no." should be introduced to differentiate ilu~ method frum previous methods. This tanning no. it to be ; 00 11 1v Jetd, fly dropwic widn. of the tanning soln. duriult the 000 test. A s;,ccd of addn. of I 4v. in 11) mill. 6 recounuended fur the dctn. of the Cr no. and a speed of I cc. in 9 min. 00 fix the CHrO no. The final results must be mifirtued for 06 oov the tnirpow 4 cretiting a standard bw gelatin cuiul,iotts~ f W. R. Eichler zoo - o0a zzoo 001 ''coo o# coo 0 0 l moo .00 t:0 0 it :!0o "TAILLONGKAL LITIROL&C CLASSIFICA71- 114- Cloo t)4.1 j.0. voo U 4 AV PO As z., ill - - - F' 0 Ito 0 P" frotlIMPOF sit its gan ~ L 1 4 1w 3 a w wo i . 00000000000000000* 00gilo 0o 000000000060000 : 0 0 0 000000 000060000006004 00 0 0 0 0 0 0 0 0 o o o * 0 o 0 0 0 : 0i  ACCESSION NR: AP4038605 S/0108/64/019/005/0078/0079 AUTHOR: Blokh, E. L. (Active member). _.~qpvov._Q. ,V., (Active member) TITLE: Nonoptimality of cyclic codes which correct single and detect double :errors SOURCE: Radiotekhnika, v. 19, no. 5, 1964, 78-79 TOPIC TAGS: code, cyclic code, error correcting code, error detecting code, double error detecting code, binary code, Humming code ABSTRACT: A Humming binary code with r - 3, 4. 5 ... check digits and With a minimum distance d - 4, which has a length n is an optimum code. The present article proves that: (1) no-cyclic code exists which would be equivalent to; Hvmming's ~binary codes with d . 4; (2) no cyclic code exists with d >2 and r>3 check digits which would have a length n Orig. art. has: 2 formulas. ,ASSOCIATION: Nauchno-tekhnic~eskoye obahchestvo radiatekhniki i elektroevyamil (Scientific and Technical Society of Radio Engineering an4',Electrocommunication) I SUBMITTED: OZApr63 DATE ACQ: 09Jun64 ENCL: 00 SUB CODE: -A DP 2( t NO REF SOV: 001 OTHER: 001 !Card 1/1  SULTANDV, Z. A. ; BABATYWA, G. 1. ; POPOVA, 0. V. Using spent acid for cleaning aromatic compounds. Azerb. neft.khoz, 35 no.8:34 Ag '56. NLRA 9:10) (Petroleum-Refining) (Aromatic compounds)  Levi. 0. "hie laym. Smimov. and 0. V. ~Egnnvn- U.S.SR. 10S.9,37, june '215, Water-.-Ol. Ilycok with a chain of --~4 C aturas or dicii etlier5 are 3daled K. Jn a quantity ?_20 m1./1. of tvaulsiou along with gelatin- Janning subitances. This procedure incrmses the streugth ;of the gelatin. Elasell  TIMOFEYEVk., A.V.II POPOVA, O.V. Application of chemistry in footwear manufacture. Kozh.-obuv. prom. 6 no.5tl3-14 My 164. (MIRA 17;12)  SMIRNOV, O.K.; LEVI, S.M.; RYBNIKOVA, A.I.; KORNEVA, E.D.;_POPOVA, O.V. Hardening and plasticizing effect of water-soluble ethers of hexamethylol melamine and some mono-, di- and triatomic alcohols and polyglycerins. Part 1: Ethers of hexamethylol- melamine and of mono-, di-, and triatomic alcohols and polyp glycerins. Zhur. nauch. i prikl. fot. i kin. 8 no.6:401-404 N-D 163. (MIRA 17: 1) 1. Vsesoyuznyy nauchno-issledovatel'skiy kinofotoinstitut (NIKFI) i Nauchno-issledovatel'skiy institut organicheskikh poluproduktov i krasiteley (NIOPiK).  GHURAYEVA, A.M.; SHEBERSTOV, V.I.; POPOVA, O.V. Effect of polyethylene glycol on the induction period and subsequent speed of the photographic detrelopment. Zhur.nauch. i prikl.fot. i kin. 9 no.23122-124 Xr-Ap 164. (MIRA 17:4) 1. Vsesoyuznyy nauchno-issledovatellski-y- kinofotoinstitut (NIKFI).  POPOVAY O.V. Usually large choanal polyp. Zhur. ush. nos. i gorl. bol. 23. no.2 -.79 Mr-Ap 163. (MIRA 16:8) 1. Iz kliniki bolezney ukha, gorla i nosa (zav. - doktor med. nauk M.S.Yedved6vskiy) Ivano-Frankovskogo mditsinskogo insti- tuta. (NOM.,TUI-DI?S)  S.I.J. ; Vjj,7:~,':SKjY L--VI Yu.B.; ICOGIRIEVA, S.N.; POPOVAJ, O.V.; V.,')--TEII-GVA, T.I,'. Diffusion method of haardening emulsion layers. Zhur.nauch.i pril-1. ~ot. i kin. 7 no.3:161-168 ltr~-Je 162. 1. Vsesoyuzn3ry mauchno-iSL-1c-dovatel'skiy kinofotoinstitut (J~,JKFT) J filial Vsesoyuznogo mauchno-is,-~Icdovatellskogo kinofotoinr;tituta,, ShostIca. (Photographic emit1sions)  LYUBIMOV, V.I.; KAGAll, Z.S.; V.ASILEYKO, M.A.; POPOVA, O.Ye. Decomposition of volatile organic acids by microorganisms of "active sludgell. Mikrobiologiia 32 no.4-700-702 Jl-Ag 163. (MIRA l7x6) 1. LyuborotBkuyu laboraLurlya nauchno-it3oledovatallokogo otdola tresta "Mosuchistvod.  YEGORGV, N.S.; POPOVA, O.Ye.; BITTEYEVA, MiB.; BULGAKOVA, V.G.; GOV-1AN, K. Influence of the products of vital activity of bacteria an the growth and antibiotic properties of various actinorjcetes. Mikro- biologiia 29 no.2:269-275 Mr-Ap 160. (MIRA 14-7) 1. Biologo-pochvemyy fakulltet Moskovskogo gosudarstvennogo universiteta. imeni M.V.Lomonosova. (ACTINOMES) (9ACTERTA)  GOLUTVINA, L.F.,.kand. tekhn. nauk, PAVLOV, S.A., doktor tekIn. nauk; IVANOVA, Ye.I., -nauchnyy zotrutink; POPOVA, P.A!, nauchnyy sotrudnik; ZADVORNOV, V.P., nauchW-9-0'1~a-ar Operational properties of fireproof coated materials. Nauch.- issl. trudy VNIIPIK no.14,%83-92 163. (MIRA M12)  "UrT., G A cun7ry n tlBtegory : or-entai.ion Indus ry Ab3. Jour : Rei Zhu NO it.) 195Q,Nc 14 1:: Author : Uptl~rcrnN. Instit-Ae : Tilb-le : II-,Y IP e c 'a, o fCr;,.n~-. Prpssinr, in a Goritintioijf7 tIreFs on the )Ila] i i-z of CopTizLr Distil late ()ri c- !~Jr)8, 7, '~O ~-;-I b s r.; c t, The efl'eert ol (rra;- ~lre~zsint-- -Ir a contill1r.'U.13 ,ress (t'.P.) cn Oic ciml-ity r~f copnv-c alcr*'01 has been inveizTigatedi. "I .it!, :-ncrr-!".Sel:l pr~-~:siircl! ;Llhn oor teri-t of. rnvtI,nn(~I in the dI ~i IA I 1A t,z"in- -A Thv~' fir-A ovtlp-t romle('Llor, c, r wit ~i r n f tn i r: 1) c, p c rr-. -a r Althoul-1- ne si-i-;iif'icvnt difformcp in 1A 'e c. t' c - corycsitinn discovered, distillafe 1, rlerivef! f'rcin Ihe mtst oT Che Pirst, nnd IIP)  SNOPKOVAJ V.A.; POPOVA Pathogenic staphylococcus carrier state among Foersonneel, rarturlents and newborn infants in maternity homes Olos. 4 Wid 5) in Karaganda. Antibiotiki 9 no.3:276-279 ?-x 164. (MIRA 17:12) 1. K&fedra mikrobiologil (zav. - G.P.Mar) Karagandinskogo meditsinskogo instituta, Karagandinskaya oblastnaya sanitarno-epidemiologicheskaya stantsiya i laboratorlya stafilokokkovykh infek-tsiy (zav. - prof. B.V. Voskresenskiy) TnstiLuta epidemiologii i mikrobiologii imeni N.F.Gamalei.  2~0182 S 76/61/035/009/00=)/015 A j /_9 j B1o6/B11O AUTHORS: Andreyev, K. K., and Popova, P. P. TITLEt Burning of pentaerythrytol tetranitrate PERIODICALs Zhurnal fizicheskoy khimii, v. 35, no. 9, 1961, 1979 - 1984 TEXTt The authors explain the reasons for the different behavior during burning of pentaerythrytol tetranitrate (PETN) as compared with other nitro eaters similar with regard to composition and thermochemical characteristics, The experiments were made on pressed specimens of PETN ( Y - 1. 25-1-30 9/cm) at constant pressure in the pressure range of 16 - 750 atm. The expeximents at high pressures were conducted by A. P. Glazkova. PETN is comparatively stable to burning; only at a critical diameter of the charge d - 30 mm, it burns under atmospheric pressure, The burning rate is only 0.023 g/CM2-sec. (0.28 for nitroglycerine and 0.043 9/cm 2.sec for nitroglycol). Only at a pressure of 16 atm steady burning sets in at room temperature and d - 6 mm. The burning rate is here directly proportional to prensure, and at 10 atm it has a value of roo.6 g/cm2-sec. For PETN the combustibility is, there- fore, much lower than for nitro7glycerin or nitro-glycol, Nor do two Card 1/4  27682 3/076/61/035/009/005/015 Burning of pentaerythrytol tetranitrate B1o6/B11O the corresponding value for nitro-glycol. In conclusion, it may be said that the peculiarities during the burning of PETN may be due to the fact that PETN is solid at room temperature. The above-mentioned upper pres- sure limit may be used for changing burning into explosion. When large amounts of PETN are ignited and the pressure is then increased above the upper critical value, the flame is extinguished, but the heated layer re- mains and becomes even thicker since exothermic decomDosition in it is maintained. Moreover, additional heating by the surroundings heated during burning is also possible. Thus, a flare up of a high amount of explosiVe may occur which may lead to an explosion, especially when the PETN is in the form of a powder of low density, so that the hot combus- tion products can penetrate into the interior of the powder. When PETN burns in the molten state, marked pulsation appears at slightly increased pressures (6 - 8 atm), which leads to a strong acceleration of the burning. I. A. Tereshkin is mentioned. There are 3 figures, 1 table, and 3 Soviet references. The reference to the English-language publication reads as follows: G. K. Adams a. G. W. Stocks, Pourth symposium on combustion, The Williams and Wilkins Co., 1953, p. 239. Card 3/4  POPGVAV P, 1), Effectivenees of prb7entlon of nldphyloc6ccAl lnfoll-t~r;na In parturient3 and newborn inf&nts by immunizatlor, with native stapbylococcal toxold. "'bur. mik--,.A,!cl., PpId. i I=Un. 40 no.10j6.1-68 0 163. WIRA 17%6) 1. Iz sanitarnc-bakter.'t.,-;Logici-teskcy labore-torii Kdragandlns~oy ablasti Kazakhskoy S5R I Instiilate. epi.-NimiologiJ J irdkrob1clogli Imeni Gamalay AWI SSM.  APDREYEV, K.K.; POPOVA, P.P. (Moskva) - Burning of pentaery-thritol tetranitrate. Zhur.fiz.khi"-. 35 no.9:1979-1984 161. (MIRA 14:10) 1. All SSSR., Institut khimichaskoy fiziki. I(Pentaorythritol) (Combustlon)  85958 S1020160113'/C051'~35/ 35XY BO 16330 5~ 4 AUTHORS: Andreyev, K. K, and Popova, P. P. TITLE: Combustibility of Protective Explosives--- PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 134, No. 5, PP. 1142-1145 TEXT: The authors report on their investigations of the combustibility of protective explosives which sometimes burn-up instead of exploding. This combustion leads to an evolution of methane which when mixed with air may take fire or explode. The combustibility is determined by critical values of interrelated parameters. They are: 1) The minimum pressure, 2) the minimum temperature, and 3) the minimum diameter of the charge. The authors deal with the critical diameter. Tho oxplosives Investigated (density I - 1.3 g/cm3) were burned in a conical case (h = 5 cm) made of three layers of glued Cellophane, or in a glass cone, both inside and outside coated with perchloro vinyl varnish. The experiments were made at 100 - 120 atm. The change of the critical diameter with the change in density, and the influence of the latter on the rate of combustion were Card 1/3  85958 Combustibility of Protective -Explosives S/02O/6O/1'z/C0';/C35/C3_XX BO16/BO54 determined. Table 1 shows the composition of the ammonites investigated which contain no nitro ester. On the other hand, pobedite 1TY -2 (PU-2), 51T-i (VP-1), and S71-3 (VP-3) contains up to 9% of nitro ester mixture. Fig. 1 shows the experimental fesults. Sence, the authors conclude that the critical diameter of all explosives investigated (except for the waterproof pobedite VP-3) lies between 7 and 13 mm at all densities and at 100-120 atm. This value lies far below the usual measure of blasting cartridges. The critical diameter of pobedites is smaller, but the com- bustion rate is higher than that of ammonites, The latter also applies to dynamites. The rate of combustion decreases with increasing density (contrary to statements made for other explosives in Ref. 1). The critical diameter -, as a rule, also decreases in spite of the decreasing combustion rate. The authors assume here a considerable effect of the exothermic reaction in the condensed phase on the flame propagation. The critical diameter of pobedite VP-3 could not be reliably measured by means of the method used by the authors. The combustibility of VP-3 proved to be much higher than that of VP-1 at 100-120 atm. This is probably due to the catalytic effect of the mineral components of admixtures added to the saltpeter to make it waterproof. This catalytic effect is, however, not Card 2/3  85956 Combustibility of Protective Explosives B016/BO54 universal. The great difference between the combustibility of VP-1 and VP-3 disappears at lower pressure (20 atm). The authors conclude that the relation between the critical diameter in the mixtures investigated and the combustion rate is more complicated than is generally assumed. The authors' experiments were made with commercial substances. They showed that the combustibility of the individual explosives used in coal mining differs very much, especially at slightly increased pressure. The authors recommend further investigations on this matter. A. P. Glazkova is mentioned. There are 1 figure, 1 table, and 2 Soviet references. ASSOCIATION: Institut khimicheskoy fiziki Akademii nauk SSSR (Institute - of Chemical Physics of the Academy of Sciences U~SR) PRESENTED: June 3, 1960, by V. N. Kondratlyev, Academician SUBMITTED: June 3, 1960 Card 3/3  POPOVA. P.S. Studring the nature of water aaturation in the Y-17azm Reservoir. Vod. I Ban. takh. no.9:7-9 5 '58. (MITtA 11:10) (Klyazm Reeervoir-Water-Pollution)  BUDAGOVA, G.G.; B=IAVICH, T.N.; POPOVA, P.S. Role of helmintho and of intestinal protozoa in bacillar-y dyeentery. Ked. paraz.i paraz.bol. no.4:351-353 Jl-Ag '53. (MTRA 6:q) (Dysentery) (Worms. Intestinal and pa-rasitic)  BURAGOVA, G.G.; RUML&VICH, T.H.; POPOVA, P.S. Work experience of the da7 hospital for the treatment of helzinthiasis. Ked.parax.1 paraz.bol. no.6:551-553 &D '53. (XLRA 6:12) 1. Is Instituta malyarit i meditsinskoy parasitologii Hinisterstva zdravookhranonlya FSM (direk-tor instituta S.N.Pb',,-.ovskiy). (Worms, Intestinal and parasitic)  SADYKOV., - Influence of light conditions on the for---ation of cotton fib--r. Uzb.biol.zhur. 6 no./+:5-12162. WIRA 16:7) 1. Institut aeneUki i fiz-4ologii rasteni-7 AN UzSSR. (COTTO1,,1 (PLAIMP EFFECT OF LIGHT OR)  YAZYKOV, P.P.; 'T2MSHENKO, M.A.; POPOVA, P.Ya. Effect of the nutrient area and rate of fertilization on cottom- yield. Izv. AN Uz. SSR no. 9:31-41 156. (NORA 14: 5) (Cotton-Fertilizers and manures)  POPOVA., P. Ya.J Candidate Agric Sci (diss) -- "Changes in the quality off raw cotton and fiber as a function of certain conditions of feeding the cotton". Tashkent, 1959. 23 PP (Tashkent Agric Inst, Inst of the Genetics and Physiology of Plants of the Acad Sci Uzbek SSR), 150 copies (KL, No 25y 1959, 137)  SMIRNOVI B.P.; POPOVA, R.A.; DANILOVA, G.P.; NISKANEN, R.A. Paper chr2Tatography of bile acids In the form of methyl eaters (R. COO.C14H 3) . Biokhimila 27 no.2:197-201 Mr-Ap 162. (NIRA 15:8) 1. Laboratory of Lipid Biochemistry, Biological Institute of the Carelian Branch of Academy of Sciences of the U.S.S.R., Petrozavodsk. (PAPER CHROMATOGRAPHY) (BILE ACIDS)  STU PAKOVA ) L. F. , inzh. ; -~' ,q~OVAJ ~R.A. Earth roadbed made of opallm Ivt, 2p, no.2:16-17 F 165. 18:6)  85615 6,1130 3, &-0-6-0 S/0;:O "G/Ooo '011/00~- '00= B012/BO6'~ AUTHOR: Popova, R. K. TITLE: Some Characteristics of Fog Formation in the Southeastern European Part of the USSR PERIODICAL; "Ieteorolol-i4ya i Eidrologiya, 1960, No. 11, pp. 29-31 TEXT: Da'a supplied by 27 weather stations during the years from 1946 to 1955 were used for clarifying 'the specific characteristics in fog formation in the southeastern European part of the USSR. As many as 5852 cases of compact fog and 1275 cases of transparent fog -iere studied. All fog formations were divided into four groups: advection fog, advection radiation fog, radiation fog, and frontal fog. The following was established on the basis of these investigations; Advection fog is predominant over all the territory. Of all fog formations observed during the past 10 years, 62A, were advection fog and 14% radiation fog, while frontal and advection radiation fog constituted 12~/. each. According to data by I~ V. Koshelenko (Ref. 2) on the central part of the European USSR, Card 1/1-11  85615 Some Characteristics of Fog Formation in the S/050/60/000/011/003/005 Southeastern European Part of the USSR B012/BO63 advection fog is mainly observed at the western periphery of the quasisteady anticyclcnes over southeast part of the USSR (32%) and, more rarely, at the southern periDhery of the cyclones (27%o). About the same data are supplied by N. V. Petrenko. A. A. Bachurina, and N. 11. Romanov Oef. 4). In the territory concerned, mcst of the advection fog (787-) is due to the clearly marked advection of the very warm and humid air masses along the south and southeast cyclonic periphery. At the western periphery of the quasisteady eastern anticyclones, however, only 2C~ of the total adve~,--.ion fog is observed. In the southeastern part of the European USSR a cloudiness reaching down to the ground as fog is observed so often that a clear relationship is observable between days with compact fog and the hei.-ht of the locality concerned above sea-level. As to its origin, this fog may be advection, advection radiation, or frontal fog. This is illustrated by the comparative data of two weather stations in the region of Saratov: Saratov AMSG and Saratov City. The first is 160 m, and the second 88 m, above sea-level. Twice as many foggy days (excepting those with radiation fog) are observed in the first one. In 220 cases (44ci~'), a cloudiness reaching down to the ground was recorded as fog near the Card 2/3  85615 Some Characteristics of Fog Formation in the S/050/60/000/011/003/005 Southeastern European Part of the USSR B012/BO63 higher station. In 262 cases with fog simultaneously at both stations, 7776 of the fog first formed near the higher station and then dropped. Similar conclusions were drawn by G. A. Ivanova at Dnepropetrovsk and Podgornoye (Ref. 1). The correlation coefficient between the mean multiannual number of days with compact fog, on the one hand, and the sea-level, on the other, amounted to 0-767m calculated for 27 points. HH_+ 200. The regression equation reads: X = A , where x is the mean 8.6- ,,ultiannual number of foggy days, and H is the sea-level. The total frequency of compact fog, as well as its duration and intensity decrease from northwest toward southeast. Transparent fog is observed rather seldom in the northwestern and western regions of the southeastern European part of the USSR and much more frequently in the regions east of the Volga river. In the former two regions, radiation fog was found to predominate, while east of the Volga river the transparent fog consists not only of radiation fog, but advection and frontal fog as well. There are 4 Soviet references. Card 3/3  KOKOTOV, Yu.A.; POPOVA, R.F~ Sorption of long-lived fission products by scils and clay min- erals. Zhur.prikl.khim. 35, no.6-1242-1245 Je '62. (MIRA 15:7) (Fission products) ("Joil absorption)  3/080/62/035/006/007/013 D204/D307 AUTHORS: Kokotov, Yu. A. and Popova, R. F. TITLE; The sorption of long-life fission products by soil and clay minerals PERIODICAL: Zhurnal prikladnoy khimii, v. 35, no. 6, 1962, 1242-1245 TEXT: The sorption of 90 Sr' 137Cs and 144Ce on a variety of Soviet soils and clays was studied in continuation of'earlier work, by measuring the partition coefficient K defined as where P = am- d ount of the ion sorbed by 1 kg of soil or clay and C = amount of the ion in solution, under equilibrium conditions. For 90Sr, the dependence of Kd on the pH of soil suspension was found to be pro- nounced but varied with the type of soil. Maximum sorption occurred at pH 6 - 8 in soils where considerable substitution of Ca 2+ by A' Card 1/ 3  S/080/62/035/006/007/013 The sorption of D204/D307 could, however, be considerably increased by adding salts to the solution. There are 4 figures and 1 table. 6UBHITTED: May 23, 1961 Card 3/3  S/186/61/003/002/012/018 EIII/E452 AUTHORS: Kokotov, Yu.A., Ponova. R F and Urbanyuk, A.P. TITLE: Sorption of long-life fission products by soils and clay minerals PERIODICAL: Radiokhimiya, 1961, Vol-3, No.2, pp.199-206 TEXT: The expansion of the atomic industry and power stations And fall-out from atomic explosions makes the study of reaction of fission products with soils important. The present work gives the first results of an investigation of the most toxic fission products, Sr90 and cs137, by some soils and clay minerals. The distribution coefficient of the isotope between solid and liquid phases Kd was taken to represent sorption. Kd = r/ci, where r is the number of mols of solute sorbed on 1 kg of adsorbent and Cl is the equilibrium concentration (mols/litre) in the solution after sorption. The coefficient was found from the change in activity of the solution on sorption, measurement after sorption being measured on the liquid freed from solid by centrifuging. The volume of solution was always 50 times the weight of sorbent. Before measurement, solutions of Sr90 weru diluted with their own volume of 1N HC1 to prevent sorption of Y by the glass and kept Card 1/7  S/186/61/003/002/012/018 Sorption of long-life fission ... Elll/E452 for 14 days. Activity was then measured In special cells for counting on liquid samples, a type CTC-6 (STS-6 counter being used. Active solutions were prepared from a Sr;O solution of high specific activity in 1 NHN03 with a salt content of 0.1 mg/mcurie of chemical-reagent purity. The distribution coefficient was measured for six samples of sails of different types: clayey podzolic topsoil, grey soil, chestnut soil, leached black earth, southern black earth and heavy black earth. From the results and published data (Ref.l: V.bl.Klechkovskiy, L.N.Sokolova, G.N. Tselishcheva, 5, 136. Atomizdat, M. (1959); Ref.2. N.A.Timofeyeva, A.A.Titlyanova, Izv. AN SSSR, seriya biolog., 1, 111, (1959); Ref.3: J.R.McHenry, Soil Sci.Soc.Amer.Proc., 22, 6, 514 (1958)) it appears that, on the whole, the coefficient is higher for soils with a high exchange capacity, determined in the present work at pH =-6.4 (which is close to the pH of the suspension of all but two of the test soils). The authors note that the values of the coefficient (range 170 + 30 - 1150 + 140) determined under their conditions determines tiie intensity-of isotope migration in a soil with water. From the ion-exchange equation (Ref.4: B.P.Nikollskiy, ZhNKh, 3, 1, 59 (1958)) the Card 2/7  s/186/61/003/002/012/018 Sorption of long-life fission ... Elll/E452 distribution coefficient of Sr90 depends finally on that of the macro-component present in the system. For soils this is usually C&2+, and Fig.1 shows equilibrium values of Kd for Sr9o as a function of the logarithm of Ca.2+ concentration in the original solution for leached black earth (curve 1), southern black earth (curve 2) and Ca'9+ as kaolin. Fig.2 shows Kd an a function of the logarithm of ratio of the amount of calcium in the system to the exchange capacity of the test sample for kaolin and leached black earth (curves 1 and 2, respectively). Sorption of Sr90 could, the results show, be reduced by adding a macrocomponent, in amounts exceeding the exchange capacity of the soil, which competear with SOO. The authors have studied-in this connection the nitrate@ of strontium, calcium, magnesium, potassium, ammonium and sodium, this being the decreasing order of effectiveness. The authors also show that washing of the root-bearing topsoils with salt V/ solutions would be~practicable only for soils of comparatively low exchange capacity and with concentrations (of Ca2* or Mg2+) not less than 0.01 N. The authors also studied-the effect of the pH on Kd for their test soils and also kaolin and bentonite. The Card 3/7  S/186/61/003/002/012/018 Sorption of long-life fission ... Elll/E452 results are shown in Fig-3 (curves 1 to 4 relate respectively to heavy black earth, grey soil, kaolin and chestnut earth) and Fig.4 (bentonite and leached black earth represented by cur-ves 1 and 2, respectively). These curves show the complexity of the processes studied and the need-for choosing the right pH if soils and clays are used for sorption of Sr90 from solutions. Dealing next with cs137 whose known (Ref.1; V.M.Klechkovskiy, L.N.Sokolova, G.N.Tselishchava. 5, 136. Atomizdat, M. (1959)1 Ref.5: D.W.Rodes, Soil Sci. Soc. Amer. Proc., 21, 4, 389 (1957); Ref-71 A.A.Titlyanova, N.k.Timofeyeva, Pochvovedeniye, 3, 86, (1959); Ref.9: T.D.Wright, J.Monahan, UKAEA. Research group. Unclassified. AERE E/R 2707. Harwell (1958)) strong sorption on soils and clay minerals the Authors attribute to its fixation in the hexagonal voids in the tetrahedral layer of the clay minerals. This effect has been studied by other investigators (Ref.10: H.W. van der Marel, Soil Sci. 78, 3, 163 (1954); Ref.11: R.F.Reitemeier, Advances in agronomy, 3, 113 (1951); Ref.12: O.Ya.Samoylov. Khimich nauki, 4, Izd AN SSSR, M, (1959)). The authors studied Cs137 from 0.01 and 0.1 N and sometimes I N solutions of nitrates of various cations of the first and second groups of the periodic table, ammonium nitrate and nitric Card 4/7  IV Sorption of long-life fission ... S/186/61/003/002/012/018 E111/E452 acid, by'clayey podzolic soil, southern black earth and kaolin. The order of decreasing effect on the distribution coefficient of. .some ions tested is' Cs+,'Rb+I NH4',-K', H+. The results showed that micro-quantities of caesium are fixed by soils (kaolin is less effectiVe) and that therefore washing of the root layer of soil is likely to have li.ttle effect.' There are ~ figures, 3 tables and 3.2 references:.5 Soviet-bloc and 7 non-Soviet-bloc. The four most recent references toEnglish language-publications read as follows; J.R.McHenry,.Soil Sci.Soc.Amer.Proc., 22, 6, 514 (1958); D.W.Rodes, Soil Sci.Soc.Amer.Proc., 21, 4, j89 (1957); W.E.Prout, soil Sci., 86, 1, 13 (1958); R.K.Schulz, R. Overstreet, J.Barshad, Soil Sci.,' 89,.16, 1 (196o). SUBMITTED: April i8, ig6o Card 5/7  KOKOTOV, Yu. A.; POPOVA.,-R. F. Sorption of long-lived.fission products by soils and clay elements. Part, 3: Selectivity of soils and clays with respect to Sr9O under various conditions. Radiokhimiia 4 no.3:328-331+ 162a (MIRA, 15:10) (Strontium-Isotopes) (Soil chemistry) (Ion exchange)  s/186/62/oo4/003/012/022 E075/E436 AUTHORS: Kokotov, Yu..A., Popqv TITLE: Sorption of long lived fission products by soils and clay minerals. III. Selectivity of soils and clays for Sr90 under different conditions PERIODICAL: Radiokhimiya, v.4, no-3, 1962, 328-334 TEXT: The authors continued their study of the distribution of coefficients of Sr90 between aqueous solutions and soils and clays of the USSR. It was found that differences in the dependence on pH of the distribution coefficients for the various soils can be explained by their different contents of the 2+ macrocomponent (ion Ca2+). An increase in the'quantity of Ca in a system leads to a lowering of the height of the maximum'of the curve relating the distribution coefficient for Sr90 to pH and shifts the maximum towards the higher values of pH. Analogous changes occur when consecutive macrocomponent exchange takes place for the series Na+ I ;Nlg2+, Ca2+' Sr2+, Ba2+* The absence of full correlation between the,,values of distribution coefficients for Sr90 with the exchange capacity of soils and, Card 1/2  S/186/62,/004/003/012/022 Sorption of long lived fission ... E075/E436 also, changes of the coefficient during dilution of the soil swspen8ioris is explained by the changes in the amount of macro- component (Ca2,I) in a system at a constant exchange capacity of the soil. The data obtained can be used to choose for a given soil the.conditions giving the best selectivity towards micro- quantities of Sr90. At p1l values close to neutral,-the best selectivity is exhibited by the soils and clays that have the maximum exchange capacity and contain the minimum quantity of salts. Especially good sorbent under these conditions is the Na-form obtained by washing out Ca2+ from a soil with an alkaline NaCl solution, followed with water to pH = 6.5 to 7. For the moderately alkaline media 11-forms of clays and black earth are good sorbents for Sr90.- In alkaline media a clay mineral from the vermiculite group Showed especially high selectivity for Sr90. In acid media clays and soils are not suitable for the sorption of Sr-90. There are 6 figures. SUBMITTED: May 24, 1961 Card 2/2  s/.186/6~'/'004/002/009/010 C' 0 E075/El36 AUTHORS: Kokotov, Yu. A. , P2k0_'v~a_,__R,_F Liu Ching Chih and Mao Shih Ch I i TITLE: Sorption of long-lived fission products by soils and clay minerals, II. Sorption of 144Ce by soils PERIODICAL: Radiokhimiya, vA, no.2, 1962, 227-228 TEXT: The authors investigated sorption of 144Ce by two different soils: 1) Southern black earth, and 2) turf - strongly podsol soil (podsol horizon) * The sorption from aqueous solution of micro-quantities of 144Ce on these soils as well as the sorption on ion-exchange resin K~(-2 (KU-2) from 0.001 N KN03 was investigated in relation to p1l. It was found that 144ce is strongly sorbed by the resin in strongly acid solutions and strongly sorbed by the soils in weakly acid solutions. Sorption of 1114Ce was decreased considerably on all 5orbents in alkaline solutions The authors investigated also the possibility of desorbing 144 Ce from the soils by treating them with salt solutions, nitric acid and various complex-forming Card 1/2  L 54462-65 ACCESSION MR: AT5013638 MUOOOO/65/000/000/0076/0079 541.i83:546.36:631.4+552.52+553.677 AUMR: Kokotov, Yu. A.; Popov&, R. F. TTM: Radiachromatographic study of the sorption of trace amounts of Cs-137 by soils, clays, and micas SOURCE: AN SSSR. Otdeleniye obahchey i tekhnicheskoy khimii. Radiokhimicheskiye metody opredeleniya mikroelementov (Radiochemical methods for determining trace elements); sbornik statey. Moscow, Izd-vo Hauka, 1965, 76-79 TOPIC TAGS: column chromatography, radiocesium sorption, radiocestum desorption, soil column, clay~columnmica column, cesium fixation, isotope assimilation ABSTRACT: The authors carried out radiochromatogtaphic experiments on the de- sorption of cesitm-137 in order to shed awe light on the mechanism of sorption of this isotop and clays. An analysis of the chromatograms obtained showed that Caf3YY soils is sorbed simittaneously by the two mechanisms of ton exchange (with a relatively high selectivity of sorption) and fixation. The fraction of C8137 fixed during sorption by various clays, clay minerals, micas, and soils was determined. It was found that Cs137 is fixed most extensively on vermiculites Card _1_/2  ACCESSMN M: ATS013638 (particularly on hydrobiotite) and black earth. The lavest fixation was obsyffed~l on kaolinite and red earth. The ability of aoila to fix trace amounts of Ca is not a function of the mechanical composition of the soil alone, since it is also a function of the mineralogical compositions In the authors' view, dif- ferences in the degree of fixation of trace amounts of C9137 are one of'the reasons for differences in the assimilation of this isotope by plants on these soils. Orig. art. hast 2 figures and 2 tables. ASSOCTATION: None SUBM=D* 13Feb63 ENCL: 00 SUB OODE: GCIIVP NO REF S07: 004 0MR.. 007  KOKOTOV, Yu.A.; POPOVA, R.F. , URBANYUK, A.?. Sorption of long-lived fission products by the soil and by clayey minerals. Radiokhimiia 3 no. 2:199-206-16l. (MIRA 14-5) (Strontium-isotopea) (Fission products) (Cesium.-Isotopes)  CC NR: AP6032120 sou:,a coDE: ui,/0346/66/000/010/003010033 AUTHOR: Roslyakov, A. A.; Bisenov, K.; Palichev, V. _Z22ov, Mukhamed'yarov, F. Sh.; Sal'nikov, F. Ye. ORG: Alma-Ata Zootechnical-Veterinary Institute (Alma-Atinskiy zootekhnichesko- Yeterinarnyy inst~itut) TITLE: Problems in the epizoology and diagnosis of Rabies SOURCE: Veterinariya, no. 10, 1966, 30-33 T071C TAGS: animal disease, infective disease, rabies, precipitation reaction, diagnoGtic madicinQ, veterinary medicine ABSTRACT: Rabies may be diagnosed rapidly using the precipitation reaction, and preventive measures may therefore be undertaken in minimal time. As rabies-antigen does not appear in equal quantities in all parts of the brain, it is necessary to take samples from all of them; studs of the spinal cord is particularly necessary. In the Gur'yev and some other oblasts of Kazakhstan, Babes- Negri bodies are found infrequently. Study of histological sections also increases diagnostic accuracy, though care must be taken not to mistake other inclusions for Babes-Negri bodies. Card 1/2 UDC: 619:616.988.21-036.1-07(574.  ACC MR: AP6032120 The seasonality of rabies (beginning in December, with highest' incidence in January-April) in the Gur'yev oblast is of epizoological interest. it is suggested that prophylactic. I and preventive measures be undertaken in the fall. A table shows the results of the authors' investigation using a diagnostic complex including examination for Babes-Negri bodies, precipita- tioa reaction, and bioassay. (WA-50; VCBB No. 121 SUB CODE: 06/ SUBM DATE: none/ ORIG REF. Oll/ OTH REF: 001/ C!:-d 2/2  'ACC NRi AP6032120 SOURCE CODE: UR/0346/66/000/010/0030/0033 AUTHOR: Roslyakov, A. A.; Bisenov, K.; Popova, R. G.; Palichev, V. M.; 1--Mukhamed'Tarov, F. Sh.; Sal*n:LTo-vF. 7C. ORG: Alma-Ata Zootechnical-Veterinary Institute (Alma-Atinakiy zootekhnicheako- veterinarnyy institut) TITLE: Problems in the epizoology and diagnosis of Rabies SOURCE: Veterinariya, no. 10, 1966, 30-33 TOTIC TAGS: animal disease, infective disease, rabies, precipitation reaction, diagnostic medicine, veterinary medicine ABSTRACr.. Rabies may be diagnosed rapidly using the precipitation reactions and preventive measures may therefore be undertaken in minimal time. As rabies-antigen does not appear in equal quantities in all parts of the brain, it is necessary to take samples from all of them; siud7y of the spinal cord is particularly necessary. In,the Gur'yev and some other oblasts of Kazakhstan, Babes- N Legri bodies are found infrequently. Study of histological sections also increases diagnostic accuracy, though care must be.taken not to mistake other inclusions for Babes-Ne~gri bodies. Card 1/2 UDC: 619:616.988-21-036.1-07(574.12).  L 54530-65 WMA99 !ACCESSION NR.- AR5014445 TJR/0169/65100(Y/00 5/B10 61BIO 6 551.675 (470..44/46) SOURCE: Ref. rh. Geofizlka, Abs. 5B593 AUTHOR.- P-OPGVaR TITLE: Conditions for the formaUon of advective fogs in the southeastom European part of the &SSR CITED SOURCE: Sb. 150 let Meteorol. observ. Kazansk. un-ta. Kazaal, Kazansk. un-t, :1963, 80-84 TOPIC TAGS: fo ~(dvrective fog, climatology, af r mass TRANSLATION: Advective fogs are the predominant type of fog in the southeastern European part of the SSSR in the cold season of the year and develop during the cooling of warm and moist air masses of Atlantic or Mediterranean origin. Synoptic conditions for the formation of fogs and the characteristics of air masses were analyzed for the period from 1946 through 1955. In 43% of the cases advective fogs are the result of thermal advection and the condensation of water vapor in the surface layer of the atmosphere; in the remaining cases they are the result of lowering of clouds to the earth's surface. In the warm half- year, advective fogs develop as a result of evaporation; they occur after the falling of rain  ------------ ACCESSION NR: AR5014445  GELLER, L.I.; SAKAYEVA, S.Z.; MUSINA, S.S.; KOGM, Ya.D.; BEIO=EVA, L.A.; OSTROVSKAYA, R.S.; VOU)KHO7, Ya.P.; LUKIYANOVA, Ye.S.; POFO IA,,~,~.; MOSKATELINIKOVA, Ye.V. Effect of noise on arterial pressure; etiology of hypertension. Ter. arkh. 35 no*7:83-86 J1163 (MIRA 17:1) 1. Iz kliniki ( zav. - qtarshiy nauclmyy sotrudnik L.I.Geller) Ufimskogo nauchno-issledovatellskogo instituta gigiyeny i profes.qi.onalinykh zabolevaniy ( dir. - kand. med. nauk G.M. IlAhametova) -  -CAr P' aiec e -a e - KONDRA'-r'YEV, Ye.14.; DF V, -RAS FOK A.; K YIN:; AY N ,liKLYLIt, T, 1 1'r-, nA.rvtj . I -- KkN 0 1- ~ 1p, L, V ALUSEYEV, y n furmq::~t~q w"11 I i - c 11 -ILI 118,9 u.9ing rol'ormerrr,. ,j.i7,. prom, 9 nl).11,-14-17 164. (1,2RA  IVANOVA, V.N.; M1191AYLOVA, M. I.; POPOVA) R.S. - ~ - Inferaction of C/,, ~--ansaturated ketones with aliphatic orgar,6- magnesium compcwids. Zhur. ob. khim. 34 no.9:3100,-3110 S 164. (MIRA 17:11)  DROKOVA, I.G. Ifirokova., 'FUPIK,, N.D. [TLpykp N.D.] "aratene in the &lg& lhLnallelli 6alina Teod. unds-' :Ine conditiona of laboratory cultivation. Ukr. bot. zhur. 21 no.5T44-49 164a (MIRA 18.-2) 1. Otdal blokhlamii Tnstituta botanik-l' AN UkrSSR.  MAZIM, Ye.G.., kand.med.nauk; IMMUNNIKOVA, Ye.V.; 013UKIIOVSKAYA, L.T.; FOPOVA, ft. V. Child's body reaction to repeated injection of increased doses of BCG vaccine b7 entereal method. Vop. epid. i klin. tub. 5:37-45 158, (MIRA 14:12) (BCG-PHYSIOLOGICAL EFFEGT)  POPOVA, R.Ya.; PROTOPOPOVA, T.V.; VINOKLIROV, V.G.; SYOLDINCV, A.P. Functional derivatives of malodnialdehyde and their reactions. Part 14: Condensation of some allyl halides with vinyl ether. Zhur.ob.khim. 34 no.1:114-119 Ja 164. (MjRA 17:3) 1. Institut farmakologii i khimioterapii AMN SSSR.  POPOVA, R-Yae- . . Some derivatives of N-toBylurea. Med.prom. 12 no.11.*19-20 N'58 (MMA 11:12) l.' Inatitut ferinal-ologii i khimioterapii ANN SSSR; (UREA)  MPMA, R. Ta. Some derivativeg of az7,lsulfozqlurea. Ked.prom. 14 fto.6tl2-14 Je 060. (NMA 13:6) 1. Nauchno-lesledovateliekly institut farm"cologli i khimia- terapli Akademii moditainskikh nauk SSSR. (URM)  S~URNOVY B.P.; POPOVA, R.A.; NISKAIEN, R.A. Qi=titative paper chromatography of higher fatty acids in the form of methyl esters (R-C-00-CW3,. Biokhimiia 25 no.2:368-375 Mr-Ap 160. (MIRA 14--5) 1. Laboratoriya biokhimii lipidov Instituta blologii Karellskogo filiala Akademi:L nauk SSSR, Petrozavodsk. (ACIDS, FATTY) (PAPER CHROMATOGRAPHY)  Ii '. 'r '. - - POPOVA, R. A. "Results of Crossbreeding the Local Horse with the Trotter in Kolkhozes within the Operational Area of the Cherepovets -State Breeding Farm." Min Hi.--her Education USSR, Leningrad Agriculture Inst, Leningrad, 1955. (Dissertation for the Degree of Candidate in Agricultural Sciences) SO- M-955,, 16 Feb 56  10 Fir pp IR 4 qm.! Rpig;'R .gF i 6.- . x fn jE. N-U-Na iq 2' 1 B P r A EL ai  POP~',V, S.A.; Gl,,L'F,'i,'!D, ,,.Ye. Strr--tis,~2 prnerpte-d by surface 7rinding, of hard Rl'oyE -.~' -'t,n.1 ',nFtr. "12 no.jl:-J5-3( !; "1 1 i f~l- (Grinding and poliFhing) .11  POPOVA, S. A. "A New Method in Stimulating the Action on the Vessels of the Ratiha and Limb During Hypertonla," Vest. Oftalmol., 28, No. 2, 1949. Docent.  S/075/60/015/004/012/030/xx B020/BO64 AUTHORS: Poluektov, N. S. and Popova, S. B. TITLE- On the MuAual Influence of the Elements Upon the Intensity o. Radiatiozil"in a Flame. Communication 2. Compounds Formed in the Extinction ofvlCalcium and"bt,rontium Radiation With Aluminum, Zirconium, and Uranium Salts V1 I PERIODICAL: Zhurnal analiticheskoy khimii, 1960, Vol, 15, No, 4, pp. 437 - 442 TEXT: An extinguishing influence upon the radiation intensity of Ca and Sr exert, apart from Al. mainly Zr, Be, V, Th, Ti, U, and Cr, which is said to be due to the formation of compounds of the mixed oxides of these elements, and the alkaline-earth metals in the flame, which reduces the concentration of the atoms Ca and Sr in the gases of the flame and the intensity of their radiation. By using two atomizers supplying one flame, the authors showed that the most probable reason for the reduction of the luminous power of Ca and Sr by Al salts is the formation of difficultly volatile compounds of A120., CaO, and SrO in the flame at the moment of Card 1/4  On the Mutual Influence of the Elements Upon S/075/'60/015/004/C;-,21~;,33C)/XX the Intensity of Radiation in a Flame. B020/BO64 Communication 2. Compounds Formed in the Extinction of Calciii.-.. Strontium Radiation With Aluminum, Zirconium, and Uranium Salts evaporation of one drop of aerosol of the analyzed solution, The luminous power of Ca and Sr is not reduced if the aluminum salt is introduced into the flame by a different atomizer. To investigate the composition of the compounds forming between Ca (Sr) and Al, or other extinguishing elements, the method of isomolar series according to Ostromyslenskiy-Job was used, the reduction of the luminous power of the element in the flame being chosen as characteristic value of the formation of the compound, The flame spectrophotometer previously des 'bed which consists of a universal monochromator o the YM-2 CUM-2 a photomultiplier of the types S rtype, ~3Y-19 (FEU-1;,j Wnd ~3y-22 (FEU-22)?Za mirror galvanometer, and an acetylene- and propane-butan~-air flame were applied. The mode of inter- action between Ca and Sr salts, as well as Zr and U salts was photo- metrically determined (Table 1). Table 2 shows the composition of the solutions used to determine the composition of the Sr.-Zr compound, The curve of the ratio between the atomic numbers of the metals in the Sr-Zr compound is plotted (Pig.. 1) on the basis of the photometric results; the photoelectric current is recorded in percent of the maximum Card 2/4  On the Mutual Influence of the Liements Upon S/075/60/015/004/012/030/XX the Intensity of Radiation in a Flame. B02O/BO64 Communication 2. Compounds Formed in the Extinction of ra':,_.a,; Strontium Radiation With Aluminum, Zirconium, and Uranium Salts as a function of concentration. Table 3 gives the calculation technique for the Ca-Zr compounds with the help of various correction factors, Fig.3 gives the diagrams obtained from the composition of the compounds of Ca and Sr with Al. The maximum in Pig~ 4 (as well as in Pigs. 1 and 2) corresponds to a molar ratio of.Ca(Sr):Zr = 1:1 (for nitrates). Thus, the compounds in the flame are likely to have the compositions CaZrO3 and SrZrO 3' In CaCl2and zirconium solutions (Fig. 5) the maximum of the curve lies, in the case of a propane-butane flame, at a ratio of CalZr-312, where Ca3Zr207 is likely to be formed, while the curve shows no distinct maximum in the case of the hotter acetylene flame. With Ca and U. com- pounds of different compositions form, while with Sr and U, compounds with a molar ratio of Sr:U - 3:2, but also 1:1 and 20 are formed (Figs. 6,7). There are 7 figures, 3 tables, and 16 references: 5 Soviet, 1 Swedish, 4 German, 3 US, 1 Japanese, and 2 British. Card 3/4  FOLUEUOV, N,S.; POPOVA, S.B.; OVCHAR, L.A. Flame spectrophotometer with a spectrum recorder and its uses. Zhur,anal,khim, 15 no.2:131-137 Mr-Ap 160. (MIRA 13-7) 1. Inatitut, obahchey i neorgenicheekoy khimii All USSR laboratorii v odesse. (Spectrophotometer) Mame--spectra)  S/075/6o/ol5/02/01/004 13005/BOO6 AUTHORS. Poluektov, N. S., Popova, S, B.,, Ovehar, L., A~ X TITLE, A Recording Flame Spectrophotometerland Its Use PERIODICAL. Zhurnal analiticheskoy khimii, 1960, Vol,, 15, No, 2, pp. 131-137 TEXT: Flame spectrophotometers using monochromators of the type 711t-2 (UM-2) (Refs. 192) or attachments type C0-4 (SF-4) (Ref. 3) have ~several' disadvantages for flame-photometric determination of elements in high dilution which are described in thq introduction to the present paper, In a pre-vious paperg (Refo 7)9 the authors described a recording spectrophotometer with increased spectrum range for the determination of certain rare-earth metals. In the present paperp an instrument of the same type is applied for determining several other elements, Apparatus applied and mode of operation are described in dete;il. The speo-tro- photometer consists of a universal monoehromator type UM-2) connected with a mechanism for turning the wave-length drum Mg. 1) and Card 1/3  A Recording Flame Speotrophotometer and Its Use 3/075/60/015/02/01/00/ B005/Boo6 great advantages over ordinary spectrophotometers, especially for the determination of metals in presence of other elements with molecular spectra or single lines in the spectrum regions at which the metals are analyzed. There are 8 figures,, 3 tables, and 14 references, 6 of which are Soviet. ASSOCIATIONI Institut obahchey i neorganicheskoy khimii AN USSR, laboratorit v Odesae (Institute of General- and Inorganic Chemistry of the AS UkrSSR, Laboratories in Odessa) SUBMITTED; February 21, 1059 Card 3/3  POLUXUOV' S.B. Mutual influence of elements on the radiation inteasit7 4-n a flame. Report Ifo.2: Compounds formed in the quenching of radia- tion from calcium and strontium by salts of aluminum, zirconium, and uranium. Zhur.anal.kbim. 15 ao.4,437-442 JI-Ag 160. (MIRA. 13:9) 1. Institute of 4eneral and Inorganic Chemistry, Academy of Sciences, Ukrattian S.S.R., Laboratories in Odessa. (Calcium comDounda--Spectra) (Strontium compounds--Spectra)  ZAVEIEVA, F.D., kand.mied.nauk; POFOVA, S.I.-L-kliniclieskiy ordinator Comlination of peripheral tubercu-Ious 1)mphadenit.is and tula-renda (notes from practice). Vop. epid. i klin. tub. 5:253-25,1 158. NIU 14:12) (LM-THATICS-TUBmcuLos is) (TUIAMAIA)  PCIPOVA) S -L.; Yt~.N. Testing Sovlet s~-i-.hetic ~` berz. Tnudy -C, f 1.:2. f r-I ~ A -:7. 0 ) -Ltl -LC.4j 0  GRIMICH. K.P.; ZHINKIN, D.Ta.; ZUBKOT, I.A.; POPOVA, S.L.; TOMOT, A.N. Folymer naterials in the fishing indastryo Plastozaasy w .11-.18-19 160. (MIRA 13:12) (Polyters) (Fishing-r-Implements and appliances)   PO-pm,t, S. ~U. "Study of the Process of Deterioration of Net Materials." Sub 29 Jun 51, RL'oscow Technical Inst ol~ the Fish Industry and Economy imeni A. 1. Riko:,an Dissertations presented for science and engineerirk-, degrees in koscow during 1951. SO: SUM. No. 480, 9 May 55  h-UKOIEVA, T.V., red.; PQTGVj',. S,R,, tekhn. red. [Theory and design of linear acc6lerators]Teoriia i raschet lineirykh uskoritelei; sbornik statei. Moskva. Gosatom- izdato 1962. 347 P. (kRA 15:10) 1. Akademiya nauk URSR, Kiev. Fiziko-tekhnicbnyi instytut. (Particle accelerators)  ROCHEV, N.W.y glav. red.; VAVIIDV,~F.P., red.; IMTELI E.I., red.; GORELIK, A.I., red.; GUDIAN, I.S., red.; KUZNETSOV, G.U., red.; MVEDET, G.A., red.; MODYANOV, Ya.V., red.; PANTELEYEVA, A.A., red.; POLYAKOV, V.V., red.; POPOV,. S.A., red.; TOPOVA,_S.M., red.; RMEVSKIY, S.S., red.; RU- DAKOV, S.V., red.;,SYUTIKIN, A.F., red.; USOV, A.I., red.; WITINOVA, I.K., red.; SHKILI, P.T., red.; CHEBYKIN, N.P., red.; MEZENTSEV, S.A... red.; MOROZOV, V.S.,, red.; OPLESNIT, I.I., tekhn. red. [Forty years of the Komi A.S.S.R., 1921-1961; studies on the cultural and economic development of the Komi Republic]40 let Komi ASSR, 1921- 1961; ocherki o razvitii ekonomi I i kulltury Komi Respubliki. Syktyvka2*p Komi knizhnoe izd-vo, 1961. 154 p. (MIRA 14:11) (Komi A.S.S.R.--Economic conditions) (Komi A.S.S.R.-Culture)  H&WINSON, G.G.;_P0FOVA.__5-..M. New Tertiary nollusks of the Baikal type from lake deposits of southwestern Siberiae Faleontezhuro no.4:105-109 159. OURA 13s6) 1. Baftallskaya limnologichaskaya stantsiya Tostochno-sibirskogo filiala Akademii nauk SSSR* (Omsk Frovince-Mollusks, Fogail)  POPOVA, S.M. New Miocene lamellibranchiates frm Lake Baikal region. Palsont. zhur. no.2:33-42 161. KERA 14:6) 1. Baykallakava atav,'--4-a AN SSSR. (Polovinka Valley--Lamellibran~hiata, Foaail)  LOGAGHEV, N.&.,~, POPOVA, S.M, Find of mcliuske of the genus Co37D--;cu:La in Quaternary deposits of the Iake Baikal reaion., Dokl. AN SSSR J-43 no.l-.188-190 I'Lr 162. (IMIRA 1-:2) 1 .1 1. Voston.1-mo-Sibirskoy geologi~-,heskiy in3titut Sibirskogo otdeleni7a AN SSSR, Predstavleno, akademikom A.L.Yanshin7m. (Sulthpay Baybet R-3gion-Geology, Stratigraphic) (lamel.-Libram,hiata, Fossil)  POPOVA) S.M. Paleogene and Neogene .1'resh water imollusks in the southerr; part of the Soviet Far East. Geol.i geofiz. no.7:50-63 163. (MIRA 16%10) 1. Limnologichoskiy Ingtitilt Siblr3kof-,o otflfilenf.pi AN 313,111t, Listvennichnoye.  LOGACHEV, N.A.; POPOVA, S.M. Fossil mollusks of the Bayanday series (Angara-Lona intervluve) and the stratigraphy of Tertiary sediments in the1ake Baikal region. Geol. i geofiz. no.8:26-37" '63. (KRA 16:10) 1. Institut, zemnoy kory Sibirskogo otdeleniya AN SSSR, Irkutsk i Limnologicheskiy institut Sibirskogo otdeleniya AN SSSR, s.Listvennichnoye. (Baikal Lake region-%llusks, Fossil)  POPOVA, S.M.; SAICONOV, V.V.; MARTINSON9 G.G. Bivalve mollusks of the marine families of Solenidae, Mactridae, Cardiidae, and Aloididae in Cenozoic deposits of the Baikal Lake Region. Dokl.AN SSSR 149 no.1:162-1(16 Mr "63. (WRA 16:2) 1. Limnologicheskiy institut Sibirsk*o otdeleniya AN SSSR9 Gosudarstyennyy'treat po geologichaskim izyakaniyam na neft' v Vostochnoy Sibiri i Geologicheskiy mu* Im. A.P.Karpinskogo AN SSSR. Predstayleno akademikom N.M.StriLkbovym. (Baikal Lake region-MA-lusks, Fossil)  POPOVA, S.M. Study of the Paleogerie and Neogene fresh-water mollus-lics of the Baikal Lake region and ~'he Sovie"t Far East. Trudy Lim. inst. 4:151-271 164. (MIRA 17:11)  LOGACHEV, N.A.;__EOPOYA , S.M.:. More about the find of Tertiary marine mollusks in the cis-Baikal region. Izv. AN SSSR. Ser. geol. 30 no.8:118-120 Ag 165. (MIRA 18:9) 1. Institut zemnoy kory Sibirskogo otdeleniya AN SSSR i Limnologicheskiy institut Sibirskogo otdeleniya AN SSSR, Irkutsk.  TURSUIP V.M.; CfEBOTAJtEVA, L.G.; FILWOVA, L.M.; PPPOVA, S.M.; PPMB,UZHESNKIY, N.A. Lipoic acid. Part 1: Synthesis of racemic lipoic-acid and its derivatives. Z*mtr. ob6 khim. 34 no.110662-3664 N 164 (MIRA 18al) 1. Voesoyuznyy nauel-mo-isaledovatellskiy vitaminnyy institut.