SCIENTIFIC ABSTRACT LATYSHEV, YU.M. - LATYSHEV, G.D.

AKSHM, U.N.; YTT-PISKIY, L.I.; GORBUROV, N.G.; GUBSKIT, V.U.; GURVICH, M.D.;J~ LE701VIN, L.I.; LIMITS, T.G.; LOGI- NOVA, H.K.; LURIYE, D.A.; LYAMR S, G.D.; MIROSHNICIMIKO, G.K.; MOGILEVSKIT, B.Ya.; NEMKOVSKIT, M.I.; CR Al IY, Ya.P.; SA- VITSKIY, A.M.; SIMKA, S.F.; SURKOV, G.Z.; WWGULI, B.P.; SHUBIN, V.P.; DONSKOY, Ye.Te., red.izd-va; KALINITSKIY, R.Ya., red.izd-va; ZAMAKHOVSKIY, L.S., tekhn.red. [Mechanization and automation in the machinery industry] Mekhani- zatsiia i avtomatizatsiis v stankostroenii. Khartkov, Kharlkovskoe obl.izd-vo, 1958. 119 p. (MIRA 13:2) 1. Kharkov. Institut *Giprostanok.' 2. Direktor institute "Gipro- stanok* (for Orleanskiy). (Machinery industry--Technological innovations) (Autom9tion)  EWT.(d)/EWT(m)/EWP(q)/BDS AFFTCIASb- P4Ld JD/HV -r.ACC,,S,O, N., AP3000679 S/0096/03/000/006/0016/0020 AMMORS: Borzdy*k#, A. M (Doctor-of technical sciences); LaWshev, Yu, V. (Engineer) TITLE: Search for steel and alloys to be used in-stationary and portable turbine units Teplo SOURCE. energetika, no. .6, 1963, 16-20 L TOPIC TAGS: heat-resistant,/- steel, alloy,', t' urbine vane, sheet steel ABSTRACT: Studies and experiments were conducted at Tsentraliny*y nauchno-. I:ssledovatellskiy institut chernoy met6lurgii (Central Scientific Institute o Ferrous Metallurgy) on heat-resistap't steels and aljoys for turbi f ne parts.: V_ Ch (KhL4Nl8V2ARI emical compositigns of steels )(PEP-164 (nM244TAD r "fi i - . EI 692 N3_5 ND JWI;-6~2 CEI-612K MN35 ') 6a;n 1-725 (,KhN35VTR) (KhN34T~f VK7 "UP are tabulated., The - F-ed standard for stRol and alloys for turbi vaLies,~, was a work-life of 100 RIO hours at temperatures ranging from 550-800C, t e temo6ra-; Mat r als for fasteners were tested for operation up to 12 000 hours at tures between 560-800C. Sheets were tested at 700C for 50 000-100 000 hours~of Leard-1/2--_  --4- L i8519-63 ACCESSION M: AP3000679 wokk-life. The proper heat treatments of recommended steels are described and the mechanical properties of several materials are listed. Orig. art. has: 6 figures and 6 tables. ASSOCIATION: Insiftut kachestvenny*kh staley TaNIMM (Institute of High-Grade- Steels at TsNIICh14) SUBMITTED: 00 DATE ACQ: 2lJun63 ENCL: 00 SUB CODE: ML NO REF SOV: 005 OTHER: 000  j, ACCESSION NR: APS005001 S/0125/W06~ 00/6649 0 de-var, B. I. (Doctor of technical sciences); German~ S._I. (Candidate ical sciences); -Latvja=- X~, - 34,'~-(Engipeer);' ekotilo, L~ V. tEagineer);.- YbA (Enginep. ,'TITL1v-_ Mechs-aiied are voldineof austenitir,, heat-resfivmt'k725(W35V7?) ailoy'.-~ .SOURCE:' Avtomaii eskaya avarka, 0. 1 1965 4J49 -.-h"t_ x6aisia-fit- allo , nitkel base alloy? electraslag melted-alloy, everal'" ries 'of -ABSTRACT! S .se ell 'itibmer -d ~-iid'__weldift --of -31725 ,-,a,48i~~:iiie,~beat'-'resistant ano' 10. 35--6.114 1% -m~` 44~416% "Cr- , fim-38% Ni % r -1.31r-~1.73ZTi, O.-005Z B) hav,6 been conduct". . Conventr1oiK, Metled :41loy-var, f6und to have a poor veldabi4ty because.:of,tbe susceptibility of the -weld'and-the-veld adjacunt zone to hot~cracking. Thatefore, electroslag.melted joy.-Was.--Used~in form of large, 1340-1800 mm i diam6ter, ring-U00 x 200 and ,150:%,206_:m-m'--." cioss.sectic and rolledl~94 and 24 mm thiclyRutended for the 1iousing of a large Ho turb~lneil Weldinj of electtoslag-viellted allby,vith electrode wir,e of base-vetal composition yielded veld metal-bigbly suseviptibIe-,to hot crackiniz. T. - 7  veral;~btber.~:dlectr,,,.dp-s ~vtria. tested ~SatisfaJ rY-,:reSuIis- -e 4taindd with , . e 4 Si,' 7.'78Z*'Ih, 14' 36.07% Ni 0.1 -2 .792 Cr. vir .05% vire under ANF-47 and HO). Arc welding with this andx3;28% 'ANY-42:2*-; fiiicis-'~ielded v7 eld metal v,4 a sati6factory beat-resistance.and ductility. a.. alao-.,bee'n----develope d,, for manualw% core.,ha The developedtechnologY was Successfully u8id for welding --the, Sa4 turbine. housing at the Kharkov Turbogenerator Plant. Orig - art. has., - 8 figures -and, 3.. -tables. ::ASSOGIATION.*.--., ins titut',.:elektroavarki imi Ye. 0o Patona, AN UkrSSR (Electric Weidinr,_ ~Instftute~ -AN 'Uk.:SS~);-*KhTGZ im. S. 14. K rova; TsNIIChII im. Bardina .--mmr-id EDI ~-~;-.A!Aug64 ENCLI~ 00 -SUB CODES M, 19 ATD PRESS:' 318T OTHERI 001 k J C R"  LATYSHEVA, A. Wings of a good initiative are getting stronger. Okhr. truda i sots. strakh. 6 no.10:9-10 0 163. (KRA 16:11) 1. Sekretarl Leningradskogo promyshlonnogo oblastnogo sovo-W profesBionalInykh soyuzovo  IATYSHEVA,, A.V.; SINYAKOV, Yu.L., red.; LEVONEVSKAYA, L.G.p tekbn. FR[. [At a now stage; from the work pracUm of laningrad trade irdons] Na novom etape; iz opyta raboty leningradskikh profsoiuzov.'Ieningrad,, Lenizdat, 1960. .109 p. (MIU 15:1) 1. Sekretarl Leningradskogo oblastnogo, soveta profsoyuzov (for Laty sheva) . (Ioningrad-Trade unions)  IATYSBEVA.-Anaatasiya-V-Iadirairovna. [Regular production conferences; from work practices of Industrial enterprises In Leningrad]Postoianno deistvu- iushchie proizvodstvernye soveshchaniia; iz opyta raboty pro- mysblenrqkh predpriiatii Leningrada. Leningrad, Le-azdat., 1961. 74 P. (MIRA 15:10) (Leningrad-Industrial vanagement)  LATY~SH~EV ~Iasjya.Vladimirovna; MORSHCHIKOV, V.D., red.; ANDREMA, L.S.j tekhn. red. [controning the carrying out of work by the factory and plant local comittee)Proverka ispolneniia v rabote fab- zavmestkoma. Moskva, Profizdat, 19AP.. 62 p. (Bibliotecbka profsoiuznogo aktivista, no.17(41)) (MMA 25:9) 1. Sekretarl Leningradskogo oblastnogo soveta. profsoyuzav (for Latysheva'). (Trade unions) (Auditing and inspection)     JArPYSHHVA, Go, arkhitaktor. "'~ lvt',;.~4r)~-- 7'-x 4,Q;4- Plans for prefabricated demounta.ble farm buildings. Sell. stroi. 12 no.2:-21-22 F 158. (MIRA ll-.2-,) (Farm buildings) (Buildings, Prefabricated)  LATY M VAt G., inah. Structures for housing livestock in Bulgaria. Sel. stroi. no.4: 27-28 Ap 162. (KRA 15:8) (Bulgaria:-Dairy barns)  SOV/ 137-58-9-19394 Translation from: Referativnyy zhurnal, ~Metallurgiya, 1958, Nr 9, p 178 (USSR) AUTHORS: Latyshnvp,, K.A., Braynin, I.Ye. TITLE: On the Graphitization of 55SZ Steel (0 grafitizatsii stali 55SZ) PERIODICAL: Sb. nauchn. rabot stud. Donetsk. industr. in-t, 1957, Nr 2, pp 109-114 ABS T RAC T: To investi-ate the conditions of 'graphitization (G) of 55S2 steel, a steel of the follov.,ing composition (in %) was used: C 0.54, Mn 0.78, Si 1.54, Cr 0.03, Ni 0.03, P 0.025, and S 0.018. The rolled metal had the microstructure of sorbitic pearlite with a fine ferrite lattice. The critical points Acl 7801C and AC3 8400 were established by the method of incre- mental quenching. To accelerate the process of G and to obtain finer and more uniform graphite formations, the specimens (S) before annealing were quenched in water after being heated to 900, 1000, and 1100'. The structure obtained was that of martensite with RC 63. S differing only in their tempering temperature were separated in batches (B) and then underwent joint heat treatment. The first B was annealed at 6800 for 44 Card 1/2 hours and had the structure of granular pearlite without  ---19394 On the Graphitization of 55S2 Steel formations of graphite. The first and second B underwent graphitizing annealing at 7400 for 120 hours followed by cooling in water; the structure was martensite, ferrite, and separate formations of graphite with RC ZO. S quenched from 10000 was annealed for 10 hours at 7600 and had a struc- ture of granular pearlite. Then, together with the third B it underwent the graphitizing annealing at 740o for 12 hours, The structure of all these S was granular pearlite. As the result of various conditions of heat treatment of S it is established that the use of 55S2 spring steel for G is not expedient, because the process of G of the given steel progresses very slowly; the ele- vation of the quench temperature to > 9001 does not accelerate the G pro- cess of the structure. G. Z. 1. Steel--Processing 2. Steel--Structural analysis 3. Graphite--f4etallurgical effects Card 2/2  KOAWANTMOV., Ye~Aep imihenex-kapitan-ley-bensnt; LATYSHEVA, K.V.., mladshiy mauchnyy sotrudrak Deactivation of the internal surface of circuits in nuclear-pover plants* Mr. obor. 47 no.11:74,-76 N 163. (MMA 16:11)  S/200/61/000/007/005/006 D238/D302 AUTHORS: Popoval N.I., Millman, F.A., and Latysheva, LE. TITLE- The oxidation of isobutylene to methylacrole-Lin in the presence of copper catalysts PERIODICAL: Akademiya nauk SSSR. Izvestiya. Sibriskoye otdeleniye, no. 7, 19619 77 - 82 TEXT: The object of this work was the more detailod investigation of the formation of methylacrolein byfthe catalytic oxidation of isobutylene, using copper catalysts and its identification and ana- lysis. Difficulties were the highly exothermic nature of the reac.- -'%,-ion and the great polymerizability of methylacrolein which at roor temperature polymerizes completely in two hours. Methylacrolein is of great value in the plastics industry as a source of many pro- ducts. Two basic methods of preparation are outlined - that already mentioned and the croton condensation of formaldehyde and propionic aldehyde. Detailed results of the oxidation of isobutylene are Card 1/4  S/200/61/000/007/005/006 The oxidation Of isobutylene D238/D302 showny revealing a high yield of carbonyl compounds and selectivity of the reaction. The catalyst undergoes partial reduction to cup- rous oxide reaching a steady state composition of about 70 % monova-- lent copper and 30 % divalent copper. Comparative reBUlts are gi- ven for the oxidation of isobutylene and propylene, In both cases the carbonyl compounds have a high unsaturated aldehyde content and as the carbon monoxide content in the gases at the end of the reac- tion is zero there appears to be no aldehyde dissociation on the ca- talyst. The yield of isobutylene at a volume speed of 6000 reaches 413 grfrom a liter of catalyst per hour. Methylacrolein was synthe-- sized by the croton condensation of formaldehyde and propionic alde- hyde in the presence of a boron fluoride and water complex working to data taken from Wm.F. Gresham (Ref. 6-. Patent SShA(USA Patent) 2549457, 1951) but elaborated and made more accurate &ring the course of the work. An increase in the formaldehyde-propionic alde- hyde ratio to ascertain the level increases the yield of methyla-.ro-- lein, of which 53 gr. were obtained, after fractional distillation, with physical constants in accord with those given in the literatu- Card 2/4  S/200/61/000/007/005/006 The oxidation of isobutylene ... D238/D302 re. The possibility of polargraphio analysis of aqueous solutions of methylacrolein was shown; calibration curves plotted its disBo- ciation potential worked out for the first time. To identify the un- saturated aldehydes their physical properties were studied. Aqueous solutions of methylacrolein obtained by each method gave identical curves with similar potential. Similarly, aqueous solutions of these aldehydes and alcoholic solutions of their 2:4 dinitrophenylhydrazo- neB have the same absorption maxima in the ultraviolet spectrum. After distillation a group of aldehyd&s was obtained containing 82.5 % methylacrolein and 6ince part of the latter is polymerized the content is in fact higher. After describing the experiments on oxidation of isobutylene -- relatively pure isobutylene was obtained by the dehydration of isobutyl alcohol, the authors conclude thats isobutylene oxidizes selectively to methylacrolein in the presence of copper catalysts; carbonyl groups forried during the reduction contain 82. 5~'% of methylacrolein: The syntheses of methylacrolein by the croton-condensation of formaldehyde and propionic aldehyde was investigated; certain physical constants of methylacrolein were Card 3/4  S/200/61/000/007/005/006 The oxidation of isobutylene ... D238/11302 determined for the first time, in particular the half wave dissocia- tion potential and the absorption spectra in ultraviolet light of aqueous solutions of the methylacrolein. There are 5 tables~ 4 figu- res and 10 references: 2 Soviet-bloc and 8 non-Soviet-bloc. The re- ferences to the 4 most recent English-language publications read as follows: I. Ballardy H. Finch, E.A. Peterson, USA Patent 27672219 1950; H. Finch, A.D. Benedictis, USA Patent 2779801, 1957; Smit, Holmsk USA Patent 2774928, 1950; W.F. Forbes, R. Shiltong J. Am. Chem. Soc., 81, 787, 1959~ ASSOCIATION: Institut khimii vostochno-sibirskogo filiala SO AN SSSR, Irkutsk (Chemical Institute of the East Siberian Sectiong Siberian Branch AS USSR, Irkutsk) SUBMITTED% July 26, 1960 Card 4/4  DLMOV, V.N.; KOBWOVA, Y.N.; PBCHKRNMY, V.F.; BUMISHWIT; S.Tu.; KWLIN, A.L; POZIN, L.Z., DtrAKONOV, D.I.; LATrSMWA. JLG.; DDBRUIN, T.M.; LARIONOV, V.V.; XgfW. Te.A.; IMMY, A.P. Terminology and symbols used in applied geopbysice. Prikl. geofis. no.27:223-235 160. (MIRA 13:12) (j?rospecting--Geopbysical methods)  DAKHNOVp V.N., doktor geol.-miner. nauk; KHOLIN, A.I., kand. geol.- minernauk; PESTRIKOV, A.S.; GALUZO, Yu.V.; AFRIKYAN, AN.; YUDKEVICH, R.V.; FOPOV, V.K.; POZIN, L.Z.; LARIONOV, V.V.; VENDELISHTEYN, B.Yu.; GORBUNOVA, V.I.; DZYURAK, M.D.; YEVDOKIMOVA, V.A.; ZHOKHOVA, R.G.; MMNIKOp N.N.; MANCHEVA, N.V.; MORDZOVICH, Ya.R.; OREKHOVSKAYA, Ye.P.; POKLONOV, M.S.; ROMANOVA, T.F.; SEVOSTIYANOV, M.M.; TANASEVIGH, N.I.; FARMILNOVA, N.V.; FEDOROVIGH, G.P.;-SHGHKRBININ, V.A.; ELLANSKIY, M.M.; YANUSH., Ye.F.; YUNGANS, S.M., ved. red.; YAKOVIEVA, Z.I., takhn. red. [Using methods of field geophysics in studying gas-bearing re- sery irs]Primenenie metodov pr-omyslovoi geofiziki pri izuehenii ga- zonoanykh kollektorov. Moskva., Gostoptekhizdat., 1962. 279 p. (MIRA 16:2) (Gas, Natural-GeolpAy) (Pro S'Pacting-GeophysicaLl methods)  LATTSHETA, H.I. Method of phagocytic experiments. Zhur. mikrobiol. apid. i im=. no-1:76-81 Ja '55. WaA 8:2) 1. Iz kafeclry mikrobiologii imani H.P.Gamelai (zav. prof. V.D. Timakov) II Hoskovskogo maditainakogo institute. imeni I.V.Stalina. (PHAGOOTTOSIS, exper. technic)  ~_H T Y sw a 11'q' P - _-C. USM/Medicine Immunology FD-2611 Card 1/1 Pub. 148 - 22/25 Author Latysheva, N. I. Title The opsonizing capacity of child and adult blood serum Periodical Zhur. mikro. epid, i immun. 4, 97-100, Apr 1955 Abstract The opsonizing capacity of the blood serum of children up to six months old was significantly lower than that of adults. The speed of absorption of typhoid and whooping-cough microorganisms during phagocytosis in children up to six months old and adults was found to be determined by the functional activity of their leukocytes and not by the characteristics of the blood serum. The phagocytic ac- tivity of the leukocytes of children during their first six months of life was found to be less than that of adults. By the time the children are two years old, they acquire the capacity to opsonify microorganisms effectively. The results of the experiments are presented on two charts. No references are cited. Institution : Chair of Microbiology imeni N. F. Gamaleya (Read - Prof. V. D. Timakov). 2d Moscow Medical Institute imeni I. V. Stalin (Dir, Dotsent S. I. Milovidov) Submitted : Octobe r 30, 1954  USSR/Ganeral Problems of Pathology. Immunity U-1 Lbs Jour : Mf Zhur - Biol., No 14, 1958, No 65900 Author :--141~yshev-,- N.I. Inst : Second Ro-s-c-o-w-Re-aical Institute Title : Opsonizing Properties of Normal Sera, Orig Pub : Uch.zap. 2-y Mosk. med. in-ta,, 1957, 7,, 157-165 J~bstract No abstract Card 1/1  L.ATYSHEV.A, N. 1. -1 ---- - ,-~~41.r . Rztent and rate of phagocytic reactions in children and rdul's' Pediatriia 36 no.10:76 0 158 (MULI Ila!) 1. 1z kafedx7 mil=obiologii imeni N.P. Gamnlei 11 Moskovskogo meditsinakogo instituta imeni N.I. Ptrogovae' (PHAGOCYTOSI,S)  NDNINA, P.V., kand.tekhn.nauk; GIAZOVA, R.A-, starsbiv nauchVy sotrudnik; POIIJMIYENKO, Ye.A., iuzh. -0, Results of tests on Kovo hydraulic looms. Tekst.prom. 20 400 no-2:36-39 F 160. (MIU 13:6) 1. TSentral'Wy nauchno-isaledovatellskiy institut shelkovoy 'promyshlennosti (for Glazova). 2* Glavnyy inzhener shelkotkatskoy fabrild imeni Sverdlova (for Latysheva),, (Looms) (Synthetic fabrics)  LATYSHEYL_2,~., assistent Caries in the teeth of children PnIlowing mening-Itis and birth injuries. Teor. i prak.stom. no.j:94-97 t63. (MTRA a8-.3) 1. Iz kafedry terapevticheqkoy stomatologi-I (zav. - prof. Ye.Ye. Platonov) Yloskovskogo meditsinskago stomatologichaskogo instituta. 0  S/105/62/000/007/002/004 E200/El35 .AUTHORS: Gorushkin, V.I., Doctor of Technical Sciences; Krumina, A.A., Engineer; and Latysheva, T.S., Engineer TITLE: On extending the range of problems solvable by means of small digital computers PERIODICAL:-Elektrichestvo, no.7, 1962, 28-29 TEXT: The difficulties connected with the strict limitation of the range of numbers in small computers may be avoided to a great extent by resorting to, operations over numbers represented in "normal form". Any number in normal form is.represented as x = qx2 Px (1) where 1/2 < qx < 1; qx is the mantissa, px is the order of magnitude. The number represented in such form is recorded.in two adjacent memory storage cells of the computer: in one cell one reggrds the mantissa qx and the other p. .2,-30. Card 'ED  3902Z s/lo5/62/000/007/002/oo4 On ext'ending the range of problems ... E200/El35 All arithmetic operations may-be carried out over numbers represente*d in normal form. However, in most machi'nes there are no commands for such operations. The arithmetic operations with such numbers are carried out by means of special programs. The rules for carrying out arithmetic operations over numbers represented in normal form are given below. Additioh is carried out as follows: say the numbers A qA' 2PA and. B qB- 2PB a:re to be.added. First one equates the orders and the difference PA - PB Xs found. Then if PA PB 0, then qA is multiplied by 2(PA -PB*) and added to q B: PA PB C = A+ B = qA 2 + q 2 (qA2PA -.PB) PA %A PB) + qB 2PB (2) PA - PB PB PC (qA2 + qB 2 qC 2 Card 2/ 4  On extending the range of problems... S/105/62/000/007/002/004 E200/E135 If PA - PB > 0 then q. is multiplied bY 2 PB - PA and is added to q A C= A + B = q 2 PA + qB 2PB q 2 PA + PB -APA PB (PB pA) + (q B 2 ) 2 A (3) -- (qA + qB 2PB - PA 2PA qC 2PC. For multiplication the mantissas are multiplied together and the orders are added: PA PB PA +'pB A - B = (q A 2 )(qB 2 (qA %) 2 (4) Division is carried out thus: A qA2PA qA 2PA - PB qC 2PC (5) B TB Card 3/4  On extending the range of problems... S/103/62/000/007/002/004 E200/El35 Programs for multiplication and division are written directly in the base program. The program for addition and subtraction is used as an independent routine. The method described above makes it possible to use fixed point computers of type M -3 (M-3) to carry out operations over numbers lying between the limits of -0 30 - 2-2" and 22 or approximately between 10-300 000 000 and 10 300 000 000 (the ma4~hines "Strela" and "Ural-211 operate with numbers in the range from 10-19 to 1019). Thus it is pos'sible to t1transform" a fixed point computer into a floating point one. ASSOCIATION: Energeticheskiy institut im. Krzhizhanovskogo (Power Engineering Institute imeni Krzhizhanovskiy) SUBMITTED: September 25, 1961 Card 4/4  Lk,TYSHEVA T S. Idnear variation - the length of a curve. Izv,AN SSSR.Ser,nat,, 27 no.1261-66 Ja-F 163. (MM 1612) (Calculus of variations) (Curves)  LATYSHEVA T.S. Measure of a set of values assumed by a function in points where the gradient vanishes. Izv. AN SS6R. Ser. met. 27 no.2.273-278 ~h-Ap 163. (Functions of several variables) (MMA 16:4)  AM4016098 BOOK EXPLOITATION S1 Laty*sheva, Tamara Sergeyevna Programming and solution of problems on two-address machines (Pro- grammirovaniye i resheniye zadach na dvukhadresny*kh mashinakh) Moscow, Izd-vo AN SSSR, 63. 0182 p. illus., biblio. Errata printed on the inside of back cover. 4600 copies printed. At head of title: Akademiya nauk SSSR. GosudarstVenny*y proizvod- 1 stvenny*y komitet po energetike i;elektrifikatsii SSSR. Ener- geticheski~ institut im. G. M. Krzhizhanovskogo. TOPIC TAGS: Computer, computer prog;amming, two-address computer# fixed radix, floating radix, M-3 computer, Minsk-1 computer, command* operating code, scale factor, branched program PURPOSE AND COVERAGE: The book cont4ns detailed programming pro- cedures-for tqo-address computers with illustrative examples for the Soviet M-3-and,14in.sk-l computers. It is based on programming lec- Card 1/0~_ ------------- !'  ~AM4016098 turves delivered by the authoi at the Krzhyzhanovskiy Power Institute general information on programming, differences in com-. putation systems, operation codes, programming procedures with fixed radix and methods.for going over to a floating radix, the 6*onsrtruc- tion of logical circuits,-and solution'of problems with the computer.. The book is intended for scientific workers, engineers, and students engaged in programming, and can serve as a textbook for the training of programmers. TABLE OF CONTENTS,[abridged]: Foreward 3 Ch. 1. Scbematic diagram of M-3 and Minsk-l electronic digital c9mputers. -Introduction to programming',- - 5 Cb. 11. Positional- computation systems _12 Ch. M., Conversion of numbers from one positional system-to .4,Card.. '2/  AM4016098 another. Binary-decimal notation 21 Ch. IV. Computers with fixed and floating:radix and operations on numbers in the computer 35 Ch. V. Command. Operation code 47 Ch. VI. Programming Problems 65 - Ch. VII. Branched p'rogr ams. Block diagram of program 76 ~Ch. VIII. Transformation of comma~ids. Cycles 88 Ch. IX. Cy6le with recovery 104. Ch. X. Standard programs and their use 120 Ch. XI. Introduction of scale factors- 135 :Ch. XII. Programming using normal Xepresentation of the number (with,floating radix) 143 ~Ch. XIII. Operational Programming 156 1 7 Ch. XIV. Insertion of initial datalin the computer and adjustment pf program 165 Ch.-*Xv.* Solution of problem in the,,computer,- 176 A -'-177 ppendices Card 3/  . LATYSHEVA,:V.A.; GORYANINA, L.R. , Heats of reaction of oxides and hydroxides of the zinc subgroup eieme'n'ts with solutions of perchloric' and hydrohal-ide acids. Zbur.neorg.khim. 7 no.4:732-738 Ap 162. OGRA 15:4) (Hydrogen halides) (Metallic oxides) (Heat of reaction)  Nl_ tA r . . . . .Th he~ii PI 'Ac hq&draleg of olddes of i1m:75,*j A and bW= 0c onc an n c acids an hy-m ac dc Acl S. S, A. Shch L. S L'I u " I and hall ~ Mon L lie ~h " 4 1 . . 9 0 Y au , Y gg . I tht . 9153).-111 known that ions of Zn attd CU(11) In.' i water soln. can form unstable evinlylex ions with halom' ions.' Thert-forc it was rtasoifable to expect that for Z%l; . and Cu the eftects of neutruliTation by acids differing by ~ nature of unions would not be e( of reac- - i tion of Zn(OH)s, Cu(011~, and'Ba(OHb with 2N HCI, l H33r, 111, 11CIO4, and.11140, were dctd. by direct method, with acid always in large excess. HCI and HNOs were used -for comparison as anions which develop min, tendency to- i ward complex formation'. Heat effects for Ba(OIIN were 40ox. equal for all acids used, corresponding to Thomsen's ;results. ZnO in 2N HCI coincided with Peppler's results. Heat effects for Zn(OHb, ZnO, and Cu(OH)j in the Indl- catedaelds are not equal and increase with transition from Cl- to I-, C104-, and IqOj-, which affirnis the reaction of I W4 and Cu++- with an!ous in soln. The differences be- ~tween ZnO and Zn(OH)s in all acids are almost equal and correspond to the literature conits. for hydration of ZnO', with formation of Zn(OH)j, Heat effects may attW%I -,'a reactions between components of soln. but give no basil fort detv. of thermal stability and compn of complex ion ; formed.. X. BednIol 4 743 :~rY Al W  LATYSHEVAI V.A. -- "The State of Some low in Aqueous Solutions," Cand Chem Sci, Leningrad., lZ4. (RZhKhim, No 20., Oct q4) Survey of Scientific and Technical 1)issertations Defended at USSR Higher Educational Institutions (10) SO: Sum. No. 481, 5 May 55   aA in Ti r. - - w z t cftt-zt of ibermody-n-am-lic qu-nutities aF~ AS, and 66H on tlzrz siab~lities of the halogm cobiplem-es of Zn, Cd, and Jig a-, w6l k:s the relation t>etween these and tl)e 'Dnj<'tl.1 PoteljLkI6 Of the balOgEnS RYC diSrussed. Th~~-; qu2niitirs zi?c tahllWed fur tile StLPVVL,;e forlwations of ZnCll- arti Zul,- -. In going ftoin the iodides stabffit.~ of the comiAexes incTea---es- M--,o-AM vnalvg-iif tbii~ h hydration for t1vt rnol~. ZnClj, ZnBr, Znl%. CAM., CdDr,. tQ I)C, rCS-jl.. -42.1, -51.2, -36-~, A4.7, -44A, and -26, rey, 7   5(2,4) SOV/54-59-2-9/24 AUTHORSt Shchukarev, S. A., Lilich, L. 8.p Latyshevaj V. A., Chuburkova, 1. 1. TITLEt On the Heats of Reaction of CdO and Cd(OH)2 With Hydrogen Halides and Perchloric Acids (0 teplotakh vzaimodeystviya Cdo i Cd(OH)2 a galogenovodorodnymi i khlornoy kislotami) PERIODICAL: Vestnik Leningradskogo univereiteta. Seriya fiziki i khimii, 1959, Nr 2, pp 66-71 (USSR) ABSTRACT: From the measurements of the heats of reaction of metal oxides and their hydrates, information is obtained on the state of the ions in solutions. The method of this investigation consists in determining the beat effects of individual'processes in the re- action of metal hydroxides and oxides with the acids. (Destruc- tion of the oxide lattice, dissociation of the acid, formation of H 20 molecules from the H"t' and OR- ions, and formation of complexes between the ions of the metal, of the water and the anions of the acids.) As in the investigations of the present paper only one metal was used, the difference in the heat ef- Card 114 fects lies only in the complex formation and is dependent on  SOV/54-59-2-9/24 On the Heats of Reaction of CdO and Cd (0H)2 With Hydrogen Halides and Per- chloric Acids the various acids used. The perchloric acid which shows no tendency to form a complex was assumed as a zero solvent. The Cd-hydroxides and oxides were synthesized in a crystalline form, and checked for purity by means of X-rays and chemically. The measurements of the heats of reaction of the mentioned crystals with the.solvents HCI, HBr, HJ, and EC104 were carried out at 250 with various concentrat'ions of the latter. The results are compiled in a table and represented in a figure. The values of J. Thomsen (Ref 5) are also indicated for com- Darison. The table and the figure show that at low concentra- tions of ECI and HBr the reaction proceeds endothermically, at an increase in concentration, however, it becomes exo- thermal. The minimum shifts from HC1 to HBr to lower concentra- tions. In oaBe.of HJ, there is nearly no minimum at all. The HClO solution produces a straight line which becomes ther- 4 mically more and more negative with an increase in concentra- tion. There is a good agreement of the values obtained for the Card 2/4 two former solutions with the values of Thomsen, but a  SOV/54-59-2-9/24 On the Heats of Reaction of CdO and Cd(OH)2 With Hydrogen Halides and Per- chloric AcIds noticeable deviation in case of HJ. Thomsen used solutions in the stoichiometric ratio G_ : Cd ++ , whereas in this paper this ratio was varied between 20 and 400 with an excess in G_ (G_ - halogen ion). The values obtained were also compared with values of other authors who determined the formation heats by other methods (Refs 9-15). As in previous papers (Ref 2), the hydra- tion heat of Cd was computed by the formula: h,e+ -AH+U -2h - + 2H. In this formulap 4H - heat effect of the re- 0 OH action: Cd(OH)2 + HC104~' Uo Am lattice energy of the hydroxide, hOH- - hydration heats of the Olf'-ions, H - heat effect of the formation of H 0 from the hydrated ions. The value /g_12 437-5 kcal on is obtained. This value is in good agreement with the values known from publications. Yatsimirskiy (Ref 18)t hCd++ - 436 kcal/mol, and Mishohenko and Podgornaya (Ref 20): 445 kcal/mol. There are 1 figure, 1 table, and 20 references, Card 3/4 8 of which are Soviet.  SOV/54-59-2-9/24 On the Heats of Reaction of CdO and Cd (OH)2 With Hydrogen Halides and Per- chloric Acids SUBMITTEDt January 16, 1958 Card 4/4  5.(2) SOV/78-4-10-5/40 AUTHORS: Shchukaiev, S.A~, Lilich, L. S., Latysheva, V. A., Andreyeva, D. X, TITLE: On the Heats of Interaction of HgO With Aqueous Solutions of H01, HBr, HJ, and EC10 4- PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 10, pp 2198-2203 (USSR) ABSTRACT: This paper is a continuation of the papers of references 1-3 on the heats of interaction of oxides and hydroxides of the metals of the 2nd'group of the periodic system with halogen hydracids and chloric acid. The authors try to evaluate the total variation (6H) of enthalpy on formation of halogen com- plexes by comparison of the heat of interaction of the metal oxide with complex-forming acids (Rcip HBr, HJ) and with EC10 4 which is not complex-forming. So far Ba, Cull, Zn and Cd have been investigated. The investigation of the interaction of HgO now presented permits a comprehensive survey regarding the behavior of the zinc-subgroub.-The,-,dependence of AH on the 298 Card 1/3 acid concentration (1-4'm6le/1) is presented in table 1 and  .S.OV/78-4-10-5/40 On the Heats of Interaction of HgO With Aqueous Solutions of HC1, HBr, HJ, and-HO10 4 figure 1. The dependence on kind and concentration of the an- iohs is determined by complex formation. The formation of mercury-halogen complexes is exothermic in the concentration range investigated. The heat of hydration of the Hg2+_ion cal- culated to be 4A1 kcal/mole is in good agreement with the data in publications (Table 2). With increasing atomic number of the cation of the zinc-subgroup and of the anion of the chlorine- subgroup the endothermic nature of the complex formation de- creases and the exothermic nature increases (Table 3)- With increasing atomic number of the cation also the difference be- tween the formation enthalpies of the Cl-, Br-, and J-complexes increases (Fig 2). A senondary periodic dependence between the atomic numbers of the metal and the influence of the acidi- ty upon the enthalpy of the interaction between the oxides hydroxides) of Zn, Cd, Hg and chloric acid was found to exist Fig 3). This dependence is explained by a different weakening ~ of the interaotidn of the cations with-the water, similar to that observed by 0. Ya. Samoylov (Ref 16) in the system al- kaline earth chloride - hydrochloric acid. The concentration of the hydracids affects the nature of the dependence of the Card 2/3 enthalpy of the complex compounds on the atomic number of the  SOV/78-4-10-5/40 On the Heats of Interaction of.HgO With Aq~eous solutions of 01, Or, HJ, and HC104 cation. There are 3 figures, 3 tables, and 18 references, 12 of which are Soviet. ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova Kafedra neorganicheskoy khimii.(Lenir, rad state University imeni A.. A. ZhdanovjCha'ir of Inorgiinic Chemistry) SUBMITTED: July 20,. 1958 Card 3/3  3HCHUKAREV. S.A.; LILICH, L.S.; LATYSJM-VA.__y~A.* CHUBURKOVA, I.,. He at of reaction of CdO and Cd(OH) with hYdrogen balides and percbloric acid. Yeat.IoGU 14 no~10:66-71 159. CNIRA 12:6) (Cadmiun oxide) (Cadmium bydroxide) (Heat of reaction)  LATYSHMA, V.A.; LILICH, L.S.; SIRWO, A.S. 11------------'- 41-- - - Effect of certain salts and acids on the rate of oxidation of I- ions by pe3t ions. Veet.LGU 15 no.10:121,T-130 160. (HIRA 13:5) (Iodides) (iron)  '" LATYSHEVA,, V.A.; KOZACHENKO, R.I. ~ t-,- - - - ~ --.- - Heats of interaction of 2anthanum perchlorate solutions with perchloric and halogen acids. Vest. LGU 18 no.22: 135-139 163. (MIRA 17-1)  LATYSHEVA, V.A.; KOZHM-IIKOV) O*A* --,~ --. Double adiabatic calorimeter for measuring the heat capacity of liquids. Vest,LGU 20 no.22:109-114 165. (MIRA 18:12)  --------------- --1W-; I.1. ii -, 0 1.1-%~l4 ~, . 0- -- 0 -67-0 o '00 o 4; 1~0 0-1.7; 12 Sol A to 011411um"161111"m a' A 35 it v a Nil on 3436 by ammil 4241"dio flo.-A-A-M 0 t, j I - 4 f t., -Pit, psi-ClII4! .ql so '-so lie, -00 a Obs"Tad"S imi ON Wallis cumbar miad &i f F*fmi WW. 1. KulThatrw and D. IAktui%hrV. paysik, Jr. SAYWalp" 7 262-A(IM6). alla too ,so it trung mppm1rq In Or ditintrVaillmi III rillikurflirr W11111. 04 IS r bdr4 connected with the "Imma. go & IlzrIt pain' by the fast cie"rom rocapluS from the 00 nadmi. Fan umtrm in considemble no. ;m COO 1=0ugh so a watri filter 10-15cin. thick. A. Ti. f"n 00 0 00 11! :zo 0 goo h* 4 i A 10 . I L A&IIALUitfKat IMIIATIME CLASSIFICAM-ta vo 0 k Rill, 01 .1. 0- U W1 AV KI 11 S- -a q ,. tv tv It to 14 K 11 It U It U U11 oln 'Plia, a*** *!so* 00000000001 0000000*000000000000*00: 000000*61L a too oili  got 000 004 000 00, 00 0-1 -41F -~qp V a 9 n u 10 w b b V 0 li 21 0 A M Is a -a-la-Z -T 10 A fin A --4 plipplal-ti '"Poll '0/7 ' I '37A4*AnuW Ramp"o-ft 1prodwo by 1"ladia" at GO" V4*-wM4WOW-A- KWlMdWIVW md G-Wymcbmw. PAys. Zab. 09)d *1 vM.WWWW ADF 37A WM nmbvm hum a ltd-Ile warce W=inW ja WMW- 00 1 ' I " HAS the WAD an expaudw cbmbm SM "&I=$ pvctr&tW0fck*6bcavypwtkks. AbwtI0dvcLtmtrw*.kiowmmj f. obs-wed on awb ex m=jm A it Is tb j d d d wv w mc cm a e p UM there is with the emissw of htavy padkjm The pwwr-r&y&cU0tyw= IsO xozq'nW with &Gclg,4 counter &add* h0j. " vow PWW eawmito #$ dip OPMV-W,wM 2-Bdm).fowW by Fvio. workam No evideam was qbhd~wd at is ymWiatbm due to 4 nocim dia. ' WOPWAM Of IWI-PlViOd. 6 hr- Asi fV0rQ bY Smwwldd AW Pakwak (ope Abstracts 1319 &W IM 710 Observed V-radiation had i off x 10MV-44 is pass44 ibst:00.4bcrapawy is due to the use Of difimatmutran rm- "tbhpcjAtjsUOdcrgqftjQrtbw F. C. a his -SLa 141ALLOSTAL LIMAINS1 C"$V#$CA'tV% F-we a a W-ww :1 p Al a 41 16 .60 *90 90 0 0 : a0 0900 00 so* '00 woo '09 \1 v0 0 -S0 m- n ito -.4 0; 0 '9A 9, 1 V 61 0 0 11 1 N a 4 3 1 V 10000P 0 0 0910960 ( 46060000009606*4 1 04 0 W'Pllo 0 0 0 0 0 0 0 SO 0 41 * 4 0 00 la 0 0 0 0 0 0 41 0 0.9 0- 0 & 0 0 0 64 (A 0-  FIT . I, a A , a a a it V a so 0 41 U ts a *,I* A O~ ' _ - _' Ardliclid milictsaivilY i-dacced by i~~ f %% 00" . Kurt halov, Nerneofty Elul 1 p . . Swiltsay. phyjik. X. Si4mlatrittit a rAl.outiam 0 -00 00 . , oudy will, a (mitet counter of the tatbasm-livily induml by IJIIW tw ' i olroll, n I d. Re and th save the twhwhw rMdt'. hf*. 4 prrinds Iwo f h ll o a lives 2 "$in- WW W firs, ill addilloft to thov lound 0 fir Ft,rtni: Re: 2 ywrkxfv, ttne f4 wt hr, in addilkin to that f(TU"d hy Fermi: f-k: 4 wrdk AIrtivilY t4 a 411-br, .00 hall life. hl'.1ti. NitI.LAt =00 z 09 coo 4 1 1 to 91 zoo abij It so. I L a .116LUJI16KAL L111PA11009 CLASSIFKATIVI, !::0 0 I Ilk titi I. A-",_ tit - - it It S j I to o o I of 41; 1 V, fA I I It OW d to 606090 09 Qlj*  0 RN MV, 0 6 7 , 1 'A A 11 U U 0 a 9 0 0 0 J) a it 4 CWX a avolielin4i a 9 0 . I -00 Vk .00 IdWalav"m go beires WhAt a0m;'Aftitrom. P9b-W-UW-AaYa. 0, D. LaWishev L I Rusiso. and R. A. Ekbdba - Sri U R S S 8 IN . . . . . . .1 )On di A " uttgniltiom of 9 in BMft was ddd. wit4 an expan"in vbsmbrr. by using a vowt. xwm of r*uUms and a (%M.t. so SUIUM-ebunber distance. A num. disintcpstkm *a-* =00 ubtalmird by imt=tjo an. of wattf. This nmx was about 21A th 00 o ings value obtainod when no water was interposed. R-pt t- thin Sayen, the cum o1jl- Ui-d by using Pb shed instealf of water hW the panic =0 0 ' ~ ~ %bape. 0. 361. P. 00 Os a z * 00 4, . -09 00 i;goe R.C:f we 0 fa -00 il It U Is AV 10 W 0 .0 00010,00 0000 0 0 0 00 0 0 1 0 0 0 0 0 op 0 0000 00000 0 90 0 Ste: 40 n I no 0 11-~ 6 *;* 0 0 0 0 0 0004 0 06 0 0 0 0 0i 4 0 to 0 0 0 0 0 0 0 0 go * o 0 0 0 q is ~'  9A 00 - - t I &I d24j4d.! cq a if V a si a i PS a 13 b$ is is u 111 0 x 0 1 a a 0 1 g 1 1 2 . Mir isme t 1 s a v _1 I A 4 - - - 4. - o all Aaq 00 0801,01, - ., '. I . I _ .' . ., "al-to 7ii OW" d VMbW 91111111di"11111 SM b$NAWAMOM by dVw RoArsow mA n. 1). Lat A W- 41 -J retkW PV&Wm (cf. C. A. 20 MON) that the envtIve .00 . 11ort, for the capture of 4m omitt."t, "100 vllr~' 111latrveriv 44 low oaolt.", VV+Wjj' *'. 4"J.'t ,iv allitialklate Ill. 1".*"w it, jj~ 10 -h% ej by slat, mouisuk.*110 llklf~asaasm f 111c silk J l 0 61W., al j flar sclattding watts jalytt. nm e3Z. slorte larrhanned with tatt"t" Of V U11 Cu St I X , f - . 1 1. . Au. It was, fund that the "Utive W-=It in lartificial radioactivity o '3 diffeserst for the various targets; this is cootrars, j., o z 11"llar"' th"WIN which rArd6rt% that lisp rrialiml 1,rjw~o j,o 411 00 -If Willialtait CLASIWK Allots L 1 slow, S,.:Na,.m S010,13 .1. U 9 AT 00 It so D it it It 4 of Is 01 0 e 0 0 0 o o o 0 0 0 0 0. JP 0 e 0 0 0 a 0 0 0 0 V bp 0 to to 00 It, -An L ,18 od '--j- ft --- 1~ -j7 jj a 3m 0 0 0 i0 9 a 0 09 9 0 ;  W W W W W 0 0 to 0 a M fat I)#$& to 01611 1 1 I It U 11 16 11"a I V a 14 S JI r, 31, V U if X IA V V All at 41 it #4 a A L-A I ll P-0 a-I A - M. V - I II MJMLa M UhI A III.II I 2---,L- , , I a- f.6t'll's "D 41coot 1111 INCZ I W 1, W1 19CF1111.11. wol- 00 00 .00 446t P b Ch f h MM C K d Ga M . * ro e t e ger- er ounter. eno iwv opper o . and G..Latywherv. Cmpipes Relidus ("Ws,) de I'Arad. dirs Sciewts, 00 X; V.S.S R. 20. 1. PP. 21-23, dmd Pit, 25-11%, 193M. In Englexh.-Ily reducing X*q I lie it-SM Alive In t;q,ikvl to -Illitcl C irvoit a Io I fit ohnio. It k It ititill much r&&W to 000 : 11tvarra"Oft- 04D merit sulirm from the di%advantage that the counts must Ix- limit"t to 64111 Vill MKI per min. if theregistration ofcounts Is to Ile reliable. Itisshown Z how to alltlw t1mirelically for lost counts. M. Kozodarv (ibid. pli. 25-18) roe gi%vs foirther details and pin"ks of the circuit. F. C. C. 9 fee Ogg coo goo 0, U 14 AV -0 It llsic.j 1, 0.0 all am 414. It, - 4 Joe to A q 4 *Too 0 *is 0 goe, goo 0 0 so  0 as Was::"- 03', 004 004 a 0 0 0 a q 00 A I -L A_L_ )0 27 IS A 30 11 3) 13 la jS ji 11 ji X AU j, 4) 41 00 Q A A-A U. Y-1-PL-A, T Z., &A 00 CC CID t! A 00 *a- --*a The spectum of radiurm C P051trons. A, 1. Alikhanov 99 and G. Istysbev., Comp. rod. ",ad, sd. 11. J?. s. s. 2o. -00 429-300M)(in VnIfish) .--With improved counters the Posittm spectrum of Re C was detd. with a magnetic -00 apectrograpb. Eleven abrupt drops In the curve werv -00 found. they corttspond to 11 -141oem with the energies: 1210, 1290, 19W, I=. 16M, IM, 1760, 1820, :NAlo. 220U and 2420 e. kv. Intensities of the lines are calcd. frinn the thtoreticul curve of Jaeger and Hulme (C. A. 29, 3LINI). Study of the spectrum of pK"Itrmm emitted by -419 "a zt radioactive substances is the most witable method fiw obtaining the spectrum of -r-mys with energies hiSbet than 2incl. L. R. Steiner as 0 00 00 0 00 00 x 00 00 goo zoo :4 0 00 fl r- ;rA b U 0 11 AA I % a N W 14 0 Aj 0 3 9 0 0 V 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 O's 0 0 0 0 0 0 0 0-0 9 If 000.0 000 00  Q9 woo**** 11 milk III .,soft h-ly is b It IS P__Q 4-3 T . " " T_ V_ _V' is -I PMCVX 1 70U) --'ip 0 00 Ai '_66 -00 JAU-411C 111CO1.0 010 '(' ;iiAk J), PA) 4b A U.S. of Alwyl-ing onergirs Ili Comists Ownwil). of A Viagnetic OjImtruglaph 'Asth tAti Gpiger-Multer onintm for mcmfing the electrons by the 00 Off, owsit t~f tho md4l ekcinin %1" trum 44 Ra-C. I hr rneff). stwof tit Illo.0 A all. 44 IwAks. Volulmstw-41 %Ilh tip Ilarm of R ~C obtai" isom the relative imteasitw~ pamitron qmctmm =rVcod-CkC=n Spectrum are the goo mrtie. The thembcal curve cAk. from Jaeger and HuW.P's 00 al illoory 4A.. JUS, 637) wbkh gives the depeollence A the internal "wfi. on the rrsy enrrp Im quailrolmar transitiousiswrified. The principal bard V-1ines of the RA.(* mpectrum we of quadripole ar*in. A. J. M. go jr 90 Zell _916 40 Alm.st IAI KAL A.1118ATUdIt CLAWMATION 0.0 IF A w 1 An JI x a it a f4 1, 11 fw 0 4 a I W an * 0 0 00 0 *see*****  MEMO AW "10 1tif t t Wl l 1 loo gem SID a rpov Afga U.S.S., -s IM, L -b . d IU4,bai bi lawn a 4 w ith i m- n " W s $F v 00 4p rvvg4 =M T" aw" cd MWIIY -PIXIt M 01 11 dAup drOA sub ana"Odift wkb a y4im of ubkb tbe mirV cas be csk~ AM the p-h-a -win hm istsimal ecieva Cc "YL It is C "360 =04M Ibe tvW istmull d f 4b I f R 09a &- a m o mp m o y c y is ccMq*Mbb Wfib the Whi, 11) -of dw stfoarst rum of ! r.00 Gow tboxy d.J&W &W Hubw (A.. ISM W7) is too bxr Wit No Mh eneW of 1414 kev. -00 = = W COO A. M. -I L& NATAUMMAL LITERATME CLA"Wr-TW" SID003 It c"v 009 U a A, D 1%1; - , I I I I I p *D&PCv* KEVIN RISE . 090006006 a * :,: : & 0 0 0 0 111 0 * 0 0 0 0 a 0 400 goo zoo =00 ==-;T tsoo woo rims 911two 491WIll 0 A 100 0 a 0 0 0 0 0 : 30 ",a o M*31Lj 0 0 a 111 0 0 0 0 0 0 0 9 0 0 0 0 o 0 0 a  Doi 0 11 11 Is 16 ly 11 1 v 0 AN A x v b A 91 11- A. r a. 1_1 _L -k-Y 6 6 1 L 11- __ -M __ MAX a 16MIM AM) psoftef-Is It Sptctrurn of fadium V positrous. A. I Aliklmil.1% '611.1 J. P_Ntll. Phv~. W. S. S. 14.1 )ONO). All IK'sillous at,, I '141tA to ilmo tmlvrl~iml of Thr Im"I Ilf 911 1114' 'At-ilk , * Of %XCAII't ItUffl, IIIAl Of IIIV 11111411 I.IV, I ta%-~ I, &I, %tvallu v. kV. I Im: inliel -m-ul-iml Ivml' I.- Ow It. RaIllittalill : 0 11 9 9 it a IS v a I$ a Al 41 4u 61 atie J_ %_A _J p v F so Igoe ? Oj j~ noo t: LlIfMATLINI EtAWfl(AIM14 ;400 ZT) I. i ai 4 r q -1 0 '1 14, -01-0--1 -VIVA Am- A I a aw 0 111 IN I it Q .1 1 u W3 it" - I g " 10 " p rp to It se It a 11 it n III low n 1 11111 "a 0 0 0 0 0 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 o e o 0 0 o go 0 0 0 0 0  r aS Coo 0 0 0 0 oo* 0 0 a *is 111-A --a a. IN IS 11 UAR No issurnigs a go memo pottirs"s Avg OW1115,11211 VNVIN MAIL$) Ths, laws JhM -0 - - -00 00-9 hd)mdW& LA 9 ID. MV . _ L A- 1 1. VAM;k jqW. IjWj, w 7 7-ti- d*-k Is kMwWV4 SW The nWm iD. -00 00 terisitko ct do ).Abm AMA,- , !,I& TW thtwy -00 .8 CWHWOM wM Ila fontiltim or Pdr, -0 1l ago* U*X&' A a Tft ~ F" Of tbi~ pwbobift ct rebum or , a pqwn= to ' a-vwtkb ftw M OcSild u-pid (I X*ekV in Itbe COO 00 -w TbC' siodain 1~ dowallaclL IWO coo 00. 2 see i L ISO 4*0 -00 too too! SJV" MAN w"Aftv WWI t ..I Mgt c"v Got (1111411 alf env Ali Ig ' ad a 0 a .1 Nr a 0 4 1 zb i k 0 1 0 0_0 '0 0 w 0 0 0 0,00000 000  6,1 #laid i s 01111tillsail 11 41 Ir a x a at a 43 ad Ott C111, Its _Vf. , 1-0 Cm R c I - f= a . I.ft'aw or ?rays STAMIWv. A. A- A%-o LA-tvam, G. 0. .1. Phys- 490 t V.S.S.R., 5. 4. pp 239-247, 'natural 00 8 arworum of RaC is invWipW VAth a imgmic ph empk-o-ing the Danyoz aWPOCtic focus- tra-1trosm go, 'A mvt&d l'y ing nutbixi. the 0-irkNitcArts beizj 1-4 00 voirKi4knet disctutgo in 66W-MUllet countem 1 -09 06 Magnitudes a M vire Jacrmincil for intense )-lit" .00 06 14H.W. I lit the-" Air initiml cot1wrston it wo Ow. '1 1w tathw% of the probabititics of internAl voincitton r* 41 so a in the K- Asitil L41rdh for various )-lines air deter- minod. MultipolArity of hard )4inm of RaC is also deterinimd. 40* so a =00 410 V so* Do 00 R I goo 00 V 0 0 so Zoo At*.ILA AITALLUP60CAL LIT(RAILWE CLAIIIFI,:ATIOW tj 5AI0*,) .11 OkY 301 SW _i" j.too U 5 AV 00 IS' 0 lb a 19 0, it it Cr K K CE It at a a it or m I dna 0 0 0 1 0 0 0 0 0 0 0 AD 0 0 00 0 0 0 0 -0 0 0 0 * * 0 0 0 0 4 0 0 0 o o 0 a 6~0 6 0 0 0 a 0 0 goo 0 0 a 000 0  10000 9000000 0 0 0 9 0 0 0 0 0 0 00 ooo:ooooooo::,o ViF ~00 0 ~09 0 ~00 0~0 4 M t4 I$ a is Al i, a h v m H u 11 " 1 0 U-po x U41 a -U-0 41#9 Al. 1.1-1.tllt 1100 lop __ _. -.- I ~ ... - ~ - 11-11 ~. - , ; ~..04) 00 klubdOld MAUSIiSt Ot fast oWcUMS. L. A. Mal% lilt - -00 to ~kij suit 0. 11 _. 14lyf4ttv. 16il. .-'J~ R. S. A ..oo ser. t~vs- S, (wilt 11m) 00 -tud flu III,- I"Idt*~StfIrr 1*1111 formu14- of Willw- (C A. 3). -to le I". Ira 9 slid R,~,41411101 W. A. while fal l1b Me reviltsaft M% vinalki than Oiowti Jtj the NIIII'l i-00 IMMIS slid 00% grealct Owl Ott lAolict!"1111V IN iatirt. 00 00 it! No 0 o 0 00 coo 09 a 709 me-Z c:: 900 -.490 ;-.00 A s I k A tIALLI1r(.1CAi LWRATt-Rf CLAWFICATICh Z: 4RAT. to., a.An. 00 s-oal .;v c.f 0.( IjIMC01V 00 T I S N fu 0 0 Of 0 11 It 01 ft 1K a Ot 5 of ct U it O(HO n 4 It I w 14 0 0 9 0 0 0 &1; 0 too 0 0 0 0 0000906:1*69600* 0 0 0 0 0 0 0 0 At PIS.01 0 6.0 CO 0 0 0 0 0 41 0 9 0 0 to 00000 0 * 0 0 0 0 0 0 9 0 a 0 9 0 0  0 qp 0 0 0 0 0 0 0 o 0 0 0 4 6 1 9 to JI 12 13 W Is W u I it Al 33 it A Al A? It so a 41 a a is , I JL Spectrum MCOR 01OWillill from thO -la" of ai Ikedie adarium it 1. 4 ~- (U. Surd L. A. Kul'cbitskil. S. kwd. yi. (U. S. S. .) It. 200-6(JDII).- 00 Th. do 0 -kctrou sPectrum was measured by detS. the velocity of the charged Pnkla in a magnetic fidd by loo ve means of a Ociscr-11411cr counter. The Mwetrum con- 00 %Ws of the energy (-y4 Iwo. Itu), IWX), 100 2200and 282De. k=v. klic'milti've inten4lies3.0.3.7, .99 00 10.0. 6.2. 6.05 and 100 OW a weak max. -at ISM e. kv. moo 0 0 z ComPari%w with the buser-coavrniou poidliton spertmni measured by Al&hawv wW D-be v (C. A. 33. ISMS) =60 00 shows that the rssl4w of tbt tektive lnteiLities due not .00 Unity but 2.77,1.7.1-1. 1-05.2hand 1.0. resp. Assuin. ing that the linn 1350,15M and 220Q we of d4xAu rather COO 00 thin of quadrupolar ofi&. these data am in good agree- -09- overit with the tbeory of Pxtr and Hulme (C. A. 32. to 0 99141). The ISM, 1900 " 2M lidats axe quadrupolar. 00 The 2620 line arisn from the rewtion Th C' - 71 D; the .00 others from t1seTlIC-ThWreaction. An=-Icvrl wheme is given. For the ISM line The ratio prob- Co 0 abUitks of a-particle to -r-quantum radiation is 5.7 X 108. see F. If. Rathmann Ad 1 moo too t t3oo boo vv. A S x . SA O(TALLUPCICAL Lllt*,TL;gt CLASSJFKATIGN It 4 rr j too djlllla~Qi 431131 (W 4)"T Aid C.C Atoo Ll 59 AT -0 A N- M A S a*A 0 N 61 0 A It 7000 1 KO I M ' ' V 100000000000000000000oooooooo.o*oeo_oo L9069 90 414000, A .0 0A 0 0 0 .000 00 N 0 00-0-9 0 0 0 00 -t-*A A _~Lq 00000  b V., 1169 539. IW6-:75-- -~ff t from hard s. DAVWSO" Z- S., Al--4=11L YX I S. S-W-7 -51- 1-2, pp. 15-25, 1942-The P hOID-cffect from the LT y-line 2620ekV was invest. 11galcd by a magnetic tMtrogtaph with e1wron fmising and registration or clmtwns by 2 counters In coincidence, The abs. i value of the efficctive cross., cclion for the nh measured. A relation -s found betw. in Pb was the probability or 2h2 M q It=t!on-in the k ~'. :-VIR" I made of Me and L-shells or the atom. n es value of the angle of spreading or the electrons In tbe photo-effect- Mal  .0.11000000000000000 go** 0 0 0 0 0 Of k- if 14 IS if It if op #I v 11 w11 At it issakitupoll v to Ad AI.Pe A-11,11JAL A. --L..'ka, R r 0 PI A 14 V f L 4- A LOYU 01 - il-, Ar A magnetic IsPectfolloPh. V. N' C-v -1-1 t1) 1 - khev if%". Tech. Jim. Ariul. S-0. lital. '0"u, Of* ser. Phy,. 10, 411-Vii 11#111). -0. aud L. vale. the 4xv, form, and intriisily of -t-,tlwctrA] linr* frinst tbe\ polurtric ter of the nuiPtrtic slicvuoiraph. The mleng. ;Lrr=,7fot filloAr Unit tic"llillear nu-itul. and Poly. ~hv,~mmio umm-~. S. P4k-,WCf .00 00 .00 oe 0 .00 goo zoo A4 0.4 jil, 41,11-SKA. 011ALLURGICAL LiTERAT LA I CLOSIFICAMN L. 0 93.1n. soloor .1 41P CIV of, uIS AV PO It I A I N -50 3 lb Godl 000  _4! 7 A PNOCIU111 A,* PSCVtOj,l% W:,Ig -rays with matter go V. LvXv (U=qP=: Tech. last.. Kharkov, V.S-S.R. .-- Rm. Modffx Phys. 19, 1-00 '4 132-45(1947).-A discussion of the work by the author. 00 'd al.. with the magortic spectrograph. The relative -y- 400 Al line Intensities for Ra C obtained from a study of its recoil 09 electron spectra and internal conversion, Positron spectra 400 irl We," follows: 0.60 100. 0 37, 0.41, 2.422. 0.40. 0.54, -00 0 0.7 . 1.19, 0.44, OX* 2.4l,' for the lines 2420, =X), 201K), 18W. 1761, IM). 1620, ISW 1370 12290, IZ14, and I IW k.e.v. The relative -r-line i~'Iensltlts for Th (C + 600 so a C') obtained from a study of its natural O-ray spectra and woU electron spectra are as follows: 10,0, 6.5, 11.0, 6.6, 10.0, 100 for the lines 1350. 115M. low, IBM, 221A and 26M k.e.y. 7be effective crom sections of the pbolorl- fect per morn in Cu, Ag. Ta, and Pb, obtained from a 09 -a study of their photocketron spectra, attd. with sm im- roe 0e 4r r'aW irbograph. were found to be in the ratio (I -2):(0. ~. 1.1):(74 - 8):(Ia) - 11). jrh!s cross Ste. t~v- v., varies with Z in the interval from Z - 29 to Z coo 92 In the mamner e. - k.Zl- x - 4.6 - 0.25. The ab%. value of ff. for Ph was fou;,ii 1. be (1.3 - 0.41) X 10-14, In Autement with the theoretical value. Thecou. !age j clusioni al the Mar relativiitic quantum mechanics In 1300 the relon of several M.C.v. Cortzleo are fidequattly vril. V fi"Ivexpl. 21 rderenc2s. C. F. Powell Ito* a tie* MITALLU"ICAL LMOATOM CLASSPICATION slow tie* Isla J "it I oat T-"- I#- I I, 1 71 114111 i;IpFIC%i Ali U 4 Al 0 1 #fill P n it 0 a SUN An 4 1 V rW 0 0 9 1 0 a a 0 0 9 41 00 0goo 0 oil 0 a 0 0 o 0 0 0 o1  LATYSHEV, G. D. Usm/maci"i fteloi Gamft Rayi ivr/~Oe 48 ear, mapetic- S Rucl physic pectrograph "Inner Conv'6ralm or Gamm-Radiation. of RaC11. 1,.Positron Spectram,".V. V. Gay,.G. D. LatysheT, M. V. Pasechnik., ~. V. Tallvik, Phy4lootich ihot,.Acad Sol USSR, pp "1z Ak Nauk.SSSR, Bar Fiz" Vol XII, No 6 .Coctinuatloom of Alikhanov and latysber's studies m the si~bj&t, using a perfeoted magnetio, speotograph. Presents table of this positronspectrum., contrasting.reaults with -those of.91lisp axed those of, Alikhan~"7 and .25A9T8i PA 25/49T81  UWANalear PbYsIcs Gama Rays NoVID" 48 ftoisar. Pbyilos Ileotrons Ocaversion of Gamia-Radiftion, of Rew. II, Det6mIning the Wl!,Apolarlty of Lines)" V. V.- Gey. . G. D. Iatysbef, M. N I' Rwmsh~ ?hjVs- lootech Inst, Mad Soi DISM; 2 pp riz Ak Nank SBSR, Bar Pit" Vol-Inp xo 6 PettermUes m1tipolarlty of gam-linem as i& function ~f the ratio of the coefficient of,conversim with palr-productim to the ,'coefficient of.conversion in X-electrons. PA 25A9T82  -ML-1 04 Do s9 a i-i 0 00 00 @go' 00 A, 00 *g7s V 0 0 a 0 a 94 si t 31 1: 0 41 At a m _7111. -111- "1 If I, =T-11 w1i IIAXA- I-A-A-A a A-LI-s- )KL~~ttl -$I* M. Rdb of do neMeMb at of Y48000 6 the Cm on, V. V., IArfmy.- pt D,-4w%V UYMIN. & I. '- SW -Sr ft. 12 (No. 6) 731 Icy. AWA )Vmk (1948))n lim 1414 keNI has been agcp%W by Yutawa and Saksta 1PAV. J*-A Amsk .5w. JAP" Mr. 17) 10 (19)5)) to be -340-1 sW * IUMU Ifts. Aer.. A io *,- 6x 10-4. wMat for ForbWden Quadrupole &I enersks -; 3 m0 -' ~hi the dipole cm be 2X1 2 The, Outbom daurnkned do MUO Vowbumall by ft mew dmnUd in pya, 1. obtalaft a -J~ 7W n lt w de nn 1-6xlo ron sp . wo aw r Ow poo could rxK be In trrm by'> Wl~ 7bry comlude that & wA value. must be closer to Oat of the thcomucal paper lka quaw than to fti. of the Mmd. (For carmcilm to tk~ pesent pow we Abair, 723) (1%9)). C. I. J. - --- ------ ?WE CLASIVICATIOP Ow 5111411we am& -00 -00 -00 =0 a sloe see lee KA Ay pop AS it a i si h i. it i KO JGA a 0' 0 dmC 000000#00000000  IATYSHEV) 0. D. UM/Nuclear. Physics G~~ Rays NOVID8018 Nuclear Physics Electrons "Fine Structure'of Gamma-Lir-9s.of RaC," V. V. Gey.,. G. D. lAtyabe'O; M. V. Pizeobnik~ Pbysico- .teoh Inst, Aced, SoiUSSRs, 8 pp ".Iz Ak Nauk SSER, Ser Fiz" Vol XII.. No 6 WasUreB the lines of inner conversion of K- electrons for lines for 1041h.- 1PT60~ and 2):L98 Kev. 25AWSA- PA 25/49781i  **A I I . - --V - - *I toy on M WIN IND Akj) a I" toot Ow Vtopm.1% P"M 2029, The fine strdc~zrt or -'r-lizes or' R&C. 1. V. Gal, q - jL-;Abjb 97. -00 - . - . "rid M, V. Fassawk. boklady-Akad. Sauk G.S.G.R. 63 , 239-Z3(1948) .010 Wit j.a ' Now. 21.(In Rustian)6 .66 ' lir A detailed study.: we isadii of ~ the, I*Z*,Ipd iss of the y-spectrum 00 of RaC 0 bj nowwing'Ahe 41hatroo - apedra of the I-level Internal 149 conversion fo UU r the lime 1, 1?60g and 21" key* The total widths 496 of the last two linew and the positions of their respective ookponents ^fte 41016 agree with ths~ details of the corresponding positron spectra. The 1.00 components arol 6.2 key apart. In the line 14U key each component Is % * split into two'llwa 2*4 key &parts This fine structure of the three 139 e 04i 11 ~- lime studied is beat Interpreted W a rotating model of the nucleu, Too V 0 40 In wbiab the lines oomspooding to a rotating straeturs are super- Imposed upon a", spectrum of fluadmntsl lima corresponding to some a* Internsl nuol"T, changes ublab aq be of a vibrational character. 410 4 Asmulng this interpretatlcw~,Llps author calculates the nuclear radius ae 0 of Rec" R (10 in a 0.3) 20..: on. Subatltut4ng this Into the " f N1041 forwas, R obtaft r a 1,49 x lor coo Awldl (an, Rov. 71* 739?(?94 ?) s'Wootudying, i9e scatt*rInSof rapid nwutrozs~ found Us* -the xslas 1,52 z ICE" ca- while Prestan A 10 - I L A OTALLM"&L LffIRATWI, CLASWCAT" we* IR S" IMaDA" 1"M "MOV WAS a- SOV masi an Gov gli U AV 0 P *Dip ;"I 84~;j ;-no No i Ic, t 0-091 0,41 0 0 0 9 0 0 eve 41 0 0 0 * i s *oloooo*o wo 0 0 0 0 0 0 9 0 0 0 0 e -S;411 W . 0 0 O's 0:0 W0,41,01 -40 -0 . - .~W* a 0 a 0 0 a 0 0 a 0  0" 0 0 v or* 00 00 00 (fts, Bel, 71, 865 (1947)), tmon his masurements of the C