SCIENTIFIC ABSTRACT SOSHKIN, I.M. - SOSHNIKOVA, K.I.

I VANMHIN, N?K., red.; ZDAMOVICH, N.A., red.; OCHMRMT, L.V., red.; LITVINOV, S,V.. red.; XWEIN, I.A., red.; ROZOV, B.V., red.; SOSHKIN, I.M., red.; PWOKAMA, V.P., redo; NMAKINAp N~Gog t6khfi-.i;i-a-o -_- [Kizel Coal Basin] Kizelovskii kamennougollnvi bassain. Fermi. Fermakoe knizhnoe izd-vo, 1958, 249 p. (MIRA 12:3) (Kizel Basin-Coal miiies and mining)  STEW. VA., knnci, med. na~ik, SO~IIKINA, N,,I. eti-- gubstltutic3n f 013-owing resection and p: h - .1 aorta for coarctAtion. Akush. i g.',,n. no.l.,143-1" '65. (MIRA 18,.10'i n,, 1. Kal--7edra akusheratva I ginakologil (zav, prof. K.N. Zhmakl I Vbskovskogo ordena Lenina, meditainskogo inst-itata imeni I Oech5nova i rodillnyy dom pri Gorodskoy klinicheskoy bollnit2e No.0'7 (glavnyy vrach P.S. Petrushko), Moskva.  VANINA, L.V.J. doktor med.nauk; SEROV, V.N., kand.med.nauk; ZAKHARCHENK0, N.N.; ROZE2UTLID, L.I.; SOSHKINA, N.I. -1-1---.1. 1 i - - Outcome of pregnancy and labor in heart defects; based on data of the maternity home at the 67th Moscow Clinical Hospital. Sov,med. 28 no.11:5,-60 N 165. (MI RA 18:112) 3. Kafedra akusherstva i ginekologil (zav. - prof, K.N* 2hmakin) I 14oskovskogo ordena Lenine meditsinskogo institute imeni I.M.Sechenova i 67-ya Gorodskaya klinicheskaya bolinitsa (glavnyy vrach P.S.Petrushko), Moskva.  LYAMPEPT, I.M.; GAIACHIYANTS, O.P.i AGABABOVA, E.R.- RALIF., IT.M.; SMIRNOVA,.Iq.N.; YARESHKO, T.; BOLOTTNA, A.'Yu.;-SOSHKINA, N.M. Diagnostic significance qf certain immune reactions i~ rheumatic fever. Zhur.mikrobiol.epid.i i-min. 32 no.3:35-43, Pfr 161. (MIRA 14:6) 1. Iz Instituta epidemiologii i mikrobiologii imeni Gamalei ANN SSSR, ~akulltetskoy terapevticheskoy Uiniki I Moskovskogo ordena Lenina lueditsinskogo instituta imeni Sechenova i revmatologicheskogo kabineta Leningradskogo rayona MosWy. (RHEUZIATIC FEVER) (ANTIHEMOLYSINS) (HYALURONIDASE)  SUDAKOVA, S.A., kand.med.nauk; SOSHKINAP. N.O. (Moskva) Liver function in the active phase of rheuratic fever. Vrach.delo no.11;32-35 N 160. (MIRA 13:11) 1. Klinicheskoye otdeleniye (zav. - S.M.Bremener) Instituta vitaminologii Ministerstva zdravookhraneniya SSSR i I kafedra terapii (zav. - deystvitellnyy chlen AMN SSSR, prof. M.S.Vovsi (deceaseD TSentrallnogo instituta usovershenstvovaniya vrachey. (RHEUMATIC FEVER) (LIVER)  SOSHKINA YEI D. Mbr.) Paleontological Institute) Acad. Sci.,, 1946 "Types of Gemm'Llion in Silurian andDevonian Rugosa Carals," Dok. AN, 55 vo.6, 1947 "On the Taxonomy of the Silurian and Devonian Rugosa Corals," Dok AN, 55, No.8, 1947  SOSHKINA, Ye. D. OVariations in the Outward Apearances of .Devonian and Silurian Type Rugosa Corals* Iz. Ak. Nauk SSSR, Ser. Biol., 1948. Mbr., Paliontolo Dept. Biol. Sci., Acad. sci., -d1948-.  USINA, Ye.I., 1H OBRUCIELV, D.V., redaktor izdaniya; AVD re a or izdatellatva; T32MMIN, M.L., tekhnicheakly redaktor. Devonian corals Pugosa in the 'Urale.j Devonekle korally~dugosa Urala. Moskva, Izd-vo Akad. nauk SSSR, 1949. 159 p. (Akedemiin nauk SSSR. Paleontologicheakii inatitut. Trudy. vol. 15. no.4). (KIRA 10:7) (Ural Mountain region--Corals, Fossil)  I : .. t . - . .. . - ' - 7- - T" 'I ITP D 21500 --o .,: I. ., _.... Dizergertsiya i konvcr;:,ents-J7,- v evolyutsii vcrlkhnedevonski~h -ruc-oz. t, - . .1 1949, s. -11, - 20'. Trudy Paleontol. in - ta (Almd. r-quk SSSR), 4.. IQC - BiblioE--: s. 326. SO: Letopis' Zhurnallr~,pkh Statey, No. 29, i-bslrva, 1949.  SOSHKINA, Ye.D. Bioetratigraphy of Devonian sediments in the Urals based on rugosa corals. Biul. KOIP. Otd. geol. 24 no.2:34-62 f49. (MM 11:5) (Ural Mountains--Rugosa, Fossil)  SOSEKINk, Ye.D. --- Genogenetic adaptations of certain Devonian Tetracoralla. Ezhegod.Vses.paleont.ob-va 14:80-90 153. WaA 8:3) (Corals, Fossil)  SOSHKIbTA, Ye. D. '4 Devonian Tetracoralla of the Russian Platform. Trudy ftleout.inst.1 52:3-74 154. (HLU 7:11) (Russian Platform--Corals, Fossil) (Corals, Fossil--Russian Platform)  SOSHKINA, Ye.D. _~*id~_ Development of Tetracoralla of the Silurian in the Stony Tunguska Valley. Biul.MOIP.Otd-geol. 30 no.1:94 Ja-7 155. (MLR& 8:5) (Stony Tunguska Valley-Corals, Fossil) (Corals, Fossil--Stony %anguska Valley)  IVANOVA,Ye.A.; SOSHKINA,Ye.D.; ASTROVA,G.G.; IVANOVA,V.A. Ecology and stratigraphic significance of the Ordovician and Gotlandian fauna in the lower course of the Stony Tunguska River. Trudy Paleont.inst. no.56:93-196 '55. (KLRA 8:12) (Stony Tunguska River--Paleontology)  -ineev 3,EK( , A. :Engd Dissertation: "Biothemic Proc---ss in Chambers for Rendering Carbage Hairless." 1-6/5/50 Academy of Comunal EconorW imeni K. D. Pamfilov EC Vechervaya Moskva Surn 71  BTEPURENKO, V.T.; LITVIN, A.K.; SOSHKO, A.I. Reverse bending test of wire specimens with simultaneous hydrogen absorption. Vliian.rab.sred.na svois.stali no,1:84-87 161. (MIU 15; 5) (Wire-Testing) (Steel-Hydrogen content)  '11'.E'I I 1~1'u ~E A , V A a ;~ --i "'if I Ifi I - '1YM'NYY, A. N. ; KARPENW, G.V. 11 1 ! M-'ec-, :X radlat-Jon in gaspous media or, the -mechanical prc,~erties of steel. rab. sred na svcis. vat. no.3:48-50-1 '64. (MIRA 17: 10)  S/137/62/000/009/023/033 AOO6/A101 AUTHORS: Stepurenko, V. T.,.qoshko, A- I., Litvin, A. K. TITLE: A unit for technical bending tests of metals in liquid media PERIODICAL: Referatimy zhurnal, Metallurgiya, no..9, 1962, 104, abstract 91669 (In collection: "Mashiny i pribory dlya ispytaniya metallov", Kiyev, AN UkrSSR,.1961, 128 - 131) TEXT: A description is presented of the ciesign of a unit for bending tests of wire specimens under the effect of surface-active and corrosion media (with possible simultaneous application of the p*otential) in liquid metals and melts. Results are presented which had been obtained from*bending tests of electro- polished "st.45" steel wire specimens, 0.85 mm in diameter. The tests were per- formed in a '26% H2SO4 and 3% Na*C1 solution in distilled water at different D . and and bending speeds. It was established that with greater D. the number of Lends until the failure of the specimen decreases- the most intensive reduction of the steel ductility occurs at D. ~'_ 2 amp/dm~; the hydrogen brittleness increases with reduced bending speed. It is noted that the unit assures stable results of Card 1/2  S/137/62/000/009/023/033 A unit for technical bending tests of... Ac)o6/Aiol investigations in air, various-media and during the application of an electrode potential. There are 9 references. V. F. [Abstracter's note: Complete translation] Card 2/2  SO KOr,()V Y Y,-~. T C-trtfiirt having an effect, or the friction of rubber. 111ii". (MIRA 17-~!()) rab. Enad r!a- svois. mat. no.2zl3L-137 163. Fffer-t of ricrmal pressure and the rate of slipping on the a-nt--- friction properties of r-abber packings. lbid.-*1381-11-3 ~Wwir resistanne of rublxir packdngs working in couple witb metal our-'races.  ACCESSION NR: AT4023781 S/2723/63/000/002/0'-138/0143 AUTHOR: Sokolov, Y~. P.; Soshko, A.I.; Ty*nny*y, A.N. TITLE: Effect of normal pressure and sliding rate on the lubricating* properties of rubber packing ~'SOURCE: AN UkrRSR. Insty*tut roashy*noznavistva I avtomaty*ky*, Vviv. VHyaniye rabochikh ared na svoystva, materialov (Effect of active media on the properties of mate- rials), no. 2, 1963, 138-143 TOPIC TAGS: friction, lubrication, rubber packing, rubber packing pressure, rubber packing sliding ABSTRACT: The laws oi 5xfternal friction, reflecting the relationship between frictional forces and normal pressures for smooth hard surfaces, are generally used without change for rubber-metal friction pairs. These laws do not take into account the effect of such im- portant factors as the variable sliding rate, the wide range of normal pressures, the type of lubricant, and the properties of the rubber. G. M. Bartenev (DAN SSR, 103, No. 6, 10M0, 1955) first showed that a relationship can be derived, depending on many factors (see Fig. 1 of the enclosure), for the friction between rubber and a solid surface. Investiga- tions of the effect of sliding and pressure on friction were performed on We MI friction u~rd -.-.]L/3  ACCESSION NR: AT4023781 ENCLOSURE: 01 0.02 405 a2 A~ aj 0 0.3 44 0 41 .2 Fig. 1. Dependence of the coefficient of friction on the sliding rate: a - according to the data of Bartenev for a viscous lubricant and a standard pressure of 80mn/m2; b - according to the data of Shanni- kov during water lubrication. Card 3/3 o P ~m RM 7 Tu" gum  S(CHKO) A.I.; TETE119;KlY, V.h.; TYNNYY, A.N.; KHOMITSKlY, YlOr." STEFYUK, TAU. Methods of investigating effect of ionized gas atraosphh-ere5 an the properties of metals. 'Vli.4an. rab. sred na svois. mat. r0.3:/,0-4'7 164. (~Jj RA 17:10)   t6 L 320r' -65 ACCESSION NR: AT40499Y - rr- use'd." -~,-m- he.-~ l!stremth'.ahd,-.do osion., stee ource - o e a, rays-.,.,a- an ansity 6f 600 ~rdei ocuries, an eve e:-a pard us, cot -p ~ ples#~- e-~.%-`--p~ t6d of a high ~ressure-.boinb containifig 'thei~-so-ur-c;e.:- n~iedium And t"t',-sam ih - l 08kp.,-Ohov that the teas ile anid: results ,. r&ported, for, stee f - -lie ';trength a ~t she at, l l a on "However, the 't-material were-unaffected-by th A i2ed len of c gig, n-ifican~ 5 m-,!~ 37%)-s ity plateau wasAecreased Ok ongation- was ru 0 r -decrease 6%.-in idhiz'ed nchanged in i nized ai j but d hy4i ea. Orig~.-bxt.-2:i-, 1: has: :2 tat;les andl figures. ASSOCTMON,,.None 60 -ENC SURaTTPM: 20Jun63 MK SUB CODE: 000 NO REF 41 J b- Card 212  L 03-118-M EW(m)/EWP(w)/EFF WAj*(t)/3WP(b) JD/W NR: AP501%56 UR/0369165/001/003/0312103W .4, AUMORt Tjn~, N. I Soshko, A. Is TITIE t Mechanism 011racture of brittle materials exposed to-surface-active media ez- SOURCE: Miko-khImicheskays. nekhaniks, uaterialoy, Y. Is no. 3, 1965, 312-316 fra Topic TAM cture mechanism$ brittle material, organic glass, surface actives medium, tensile stress, fractuxestress, crack type defect, crack formation, sur--, face energyj fiee.diffusiong.sacroscopic cracki.crack propagation surface diffu-I on t he authors present the results of an investigation of the effect of ABSTRACT tain surface-activemedia. (water alcohol) on the stren er gth iharacteristics and c 2he effect of a vacuum Hg), airi~ mechanism of fracture of organic glass (10-6 M waterb and ethyl alcohol on the strength characteristics of organic glass in-the. ..presence of momentary tensile.stresses was investigated-on using a tensile testing machine with attachment assuring the performance of tests in liquid-media. It was -found that in the presence of surface active media,(water, alcohol) the fracture-- streds,is 10 -and 40% lowers respeett"It,'. than in the presence oft vacuum or air.' Card IJ 3  L on18-66 ACCESSIOK NR: AP5019656 and the surface of the organic glass specimens is covered by a much smaller uLtmher of cracks. The small mmber of cracks forming on the surface of the specimen is a characteristic sign of the selective nature of the action of the surface-active medium on the development of the crack-type defect, whether this.defect may have''.. been rooted or has arisen in the process of deformation of the.specluen. On the. basis of these findings the mechanism of fracture.in.the presence of,surface-! active media may be qualLiatively descrilred as follows: -the tensile stresses act- -on the specimen reduce the Interatomic bonds in the crack apex' The surfaco--,'. ing active medium, which, through the mechanism of free diffusion, enters the crack apex, reduces the surface energy (by virtue of, the action of the.process of physi Cal adsorption). The decrease in the free surface*energy under'the action.of the surface-active medium is the greater the more surface-active the medium is. To-w gether, these two factoks intensify crack,developuent. As the stress exerted is into increased, one of the.cracks (orseveral cracks combining into one) develops a macroscopic crack which grows at a fixed rate until an instant. when the level of the-stress acting on the apex of the crack becomes adequate for its growth. This process, depending on the ratio.between the rate of crack:propagation and the rate of the surface. diffusion of the. weAium, - id of. an Intemittent rathex than contIL_ ous nature. OriN. art., has: 5, figures& 2/3 777   SOSHKO, A.I.; TYNINYY, A.N.; GUDIMOV, M-1-1. Durability and fracture mectianism of polymethyl methacrylate under the effect of working media. Fiz.-khim. mekh. mat. 1 no.5:507-511 165. (MIRA 19:1) 1. Fiziko-mekhanicheskiy institut AN UkrSSR, LIvov. Submitted April. 20, 1965.  ACC NR: AP5628364 SOURCE CODE: UR/0369/65/001/005/0512/0515 AUTHORs Soshko, A.I.; Tynnyy,.A.N. ORG: Physics-engineering Institue, AN UkrSSR, L'vov (Fiziko_mekhanicheski~~T_._', instituf AN URrSSR) TITLEz The effect of residual stresses an the nature of the failure of amorphous vitreous polymers in liquid media SOURCH-. Fiziko-khimicheskaya mekhanika materialov., v. 1, no. 5, 1965, 512-515 TOPIC TAGSi amorphous polymer, Dolymer st ructure, solid mechanical property, polystyrene, mechanical stress, internal stress$ ;omoressive stress ABSTRACT: The present article investioAted.the.,following: 1), the effect of the technology of the preparation of p6lystyrenr/and poIXM21hy~lmetha_ rXlate c-, -on the magnitude and-nature of the residual..4tresses.in these'materialss and. 2) the effect of residual stresses in the .process of failure of PS and PMMC subjected simultaneously to load and to working media* The tests showed that.. residual compression stresses appear'in thesurface-Jayers of the PS spec! mens, and tension stresses inside the specimens. In all cases (about 110, specimens were tested) the internal cracks,propaqate~uniformly along the working part of the specimen, and with further application of the load,brittlel___.i failure occurs (the tests were made at room temperature). Data on the Card 1/2   .4 TYNNYY, A.N. Influence of residual stresses on the character of the fracture of amorphous, vitreous polymers under the effect of liquid media. Fiz.-khim. mekh, mat. I no.5:512-515 165. Fffect of media on the fracture energy of polymethyl methacrylate. lbid.:522-526 (MIRA 19:1) 1. Fiziko-mekhanicheskiy institut AN UkrSSR, Llvov. Submitted April 10, 1965.  'i V., polkwinik Observe the stat'Ltj rights of commmists. Kcipm. Vooruzh. Sil 5 no.2z,:2'7-31 D 164. (IdPA 18:2)  ail? j r Jj!' Nil I o 1-41 i i ?I a o- m I - k . ' . :4 4 'a P V~ C3 ~ 5 r .g -3 P i1v till o" N -FES i Ed U , E ga Hi 1'".41flfil i ti  wffifi~ lglwt~,hz SOSHNIK, I.Ye.., inzh. Shaft furance for burning lime with mazut fuel. Stroi. mat. 8 no.12sl8-19 D 162. 1 (KRA 16s1) (Limekilns) (.Mazut)  KUSHCHP P.Ya., mayor meditsinsk67 sluzhbyl. SOSHNIK, Ye.M., mayor meditsinskoy sluzhby* riysicians' kit. Voen.-med. zhur. no-5:89 MY 161. (MIM 14:8) (PHYSICLUE-EQUIPbOIT AND SUPPLIFS)  _T_ _ACC NR,' M;603~4D_7` SOURCE CODE: UR/0413/C6/660/020/0163JU163 INVENTOR: Bogdanov, S. A,.; Kaloyev, A. V.; Make7ev, A. D.; Shipilevskiy, G. B.; Simonovj L.' 1_ERnFmar~y, . qh Kalinovskiy, N. F.; Vaynshteyn, L. A.; Pann, L. A., Kudel'skly, V. A.; Skrypnik, I. A. ORG: none TITLE: Device for automatic-control of a wheeled vehicle. Class 45, No. 187433 [announced by the State Union Scientific Research Tractor Institute (Gosudarstvennyy soyuznyy nauchno-isoledovatellskiy traktornyy inatitut); Khar'kov Trictor-Plant (Khar'kovnki. --It(3rnyy zavod)) SOURCE: Izobretenlyag promyshlennyye obraztey, tovarnyye znaki, no. 20, 1966, 163 TOPIC TAGS: agricultural machinery, automatic controll-l= tractor/ 7". 1.,4- ABSTRAM. An Author Certificate has been issued for a device for the automatic control of a wheeled vehicle, which includes a duplicating feeler, a feeler-deflec- tion transducerp an electric gate valve, and a hydraulic steering-gear amplifier. To simplify the changeover to and from automatic control. it is equipped with a three- way cock with a han3le. The cock's input is connected to a pump, one of its outputs is connected to a distributing hydraulic amplifier, and its second output is connected  ACC NR, AP6035917 to the electric gate valve. In order to smoothly change the rpm, between the pump and the cock's input is mounted a throttle. Orig. art. hasi- I figure. SUB CODE1 13/ SUBM DAM 3ODec65/  SOSHNIKOV, A.A.j LEVITANUS, A.D.j KUSHNIR, M.P.,, inzh. 4sults of testing the T-125 wheeled truck tractor. Trakt, i ff,~Vkhozmash. no.2:2-6 F 165. (MIRA 18W 1. Glavnyy konstruktor Kharlkovskogo traktornogo savoda (for Soshnikov). 2. Zamestitell glavnogo konstruktora,'.'Miarlkovskogo traktornogo zavoda (for Levitanus).  N T )_1E_MP_Qh_Y1EW_P_(_1_ Y_ ~~04213 (A) SOURCE CODE: UR/0331/65/000/010/0009/0011 AUTHORi Marchenko, N. D.; Livanov, A.P*; Kononenko Soshnik M. P Mushta, IVOF4 0v, &A& .ORG: (Marchenko, Livanov, Kononenko, Mushta) Caucasus Branch TsNIIM&~,~- (Kavkazskiy filia" TsNIIIMS); (Soshnikov). Khar1kov Tract r 0 ManF. (Kharlkovskiy traktornyy zavbd) VITLE: New wheel3d tractor for hauling trees SOURCE: Lesnaya promyshlennost', no. 10, 1965, 9-11 ropic TAGS: tractor, towing vehicle'; forestry USTRACT: The authors describe a four-wheel tractor constructed by the above-meirtioned orga nizations for experimental forest hauli ng purposese. rhe new vehicle was built on the basis, of a tractor of the regular r-125 type and was designed for hauling trees-with top ends suspendedi rhe tractor can be used in connection with timber carriages orJog trailers up to 20 tons at speeds up to 29 km/hr. The tractors can al so 77~ oe equippeid-with a'bulldozer. The vehicle is driven by a 130-hp, L700-rpm, six-cylinder diesel engine of SIJD-462 type., It is 6200 mm, long, 2310 mm wide and 2600 mm high* The weight is 8000 kg,,,, The pull, 7j~~ UDC:--634.0#3770'4 Card 1/2  m  _N12-1 77~N YA IWX MR: ArbUOIbUb 64/0870 SOURCE, PODE:. UR/0051/65/019/006/08 AUTHOR: Zapesochnyy, 1. P.; Shimon, L.,L.; Soshnikov, A. K.~ IY 1ORG: none 1ITLE: Effective excitation cross sections for atoms of alkali.metals during colli- sions with slow electrons. II. Potassium ~'SOURCE: Optika i spektroskopiya, v. 19, no. 6, 1965, 864-870 !TOPIC TAGS: excitation cross section, potassium, alkali metal, iresonance line 'OkBSTRACT: The slow-electron excitation cross sections for 28 lines in the principal Aand subordinate series of the potassium atom were experimentally.measured. The spec- ,it-Pal lines were photoelectricallyrecor.ded us.i.ng the most nearly mono.enIergetic elec-.: ,1trun beam possible at low current densities. The experimeintal conditions are des- cribed. Control experiments confi d the linearity of the relationship between in-~ rme 11tensities for all lines up to vapor pressures and beam currents greater than those .iused for the measurements. Curves are given for the excitation cross section on the Card -112---- UDC 5139. 186. 2  L 13W6-66 1ACC NR: AP6001635 Aresonance line at 765 as well aa for the components of the second doublet in the 1principal series at 4044 and 4041 A. Absolute functions are given Ifor excitation of. Ilines in the principal, sharp and diffuse series. Curves are given showing the ex-_ r ,, !citation cross sections for the lines as a function of the~princlpal.quantum number. The results are used for evaluating the-part played,by successive transitions. It is found that the contribution made by successive transitions to S-levels (starting I at n=7) is small. However, the contribution of successive transitions for the lower. , 6S level is about 15%. These transitions play an extremely important part at the SS level. Successive transitions are responsible for approximately twic'e.the fraction.:~ of the population at this level caused by direct:excitattion by electrons ftom the normal state of the atom. The contribution.made by successive transitions to D-Iev-; fels from the levels of the principal series, as well as from r-levels, is small 1(less than 10%) with the exception of the 3D-level (which is the final level for all lines of the fundamental series). It was-imposisible to evaluate the cross sections'! Ifor D-levels due to lack'of-data for lines of.the.fundamentallseries. 'Orig.,art. jfhas: 6 figures, 1 table. !SUB CODE: 20/ SUBM DATE- 28Sep64/ ORIG MF: 009/. oTH Fxr,. ooo jrn J .Card 2/2  6 0,:5) /3 -7, / 3 3 AUTHORS,~ An~ir~-yev, V. S., Sosbnikov, E. M. TITLE.~ Low-freqwincy Jivider. PERIODICAL-, F!~-,.rcsvyaz', no. 2, 19E',0, 3,2 - 37 262014 S/1 o6-./6O/OOO/OO2/00,1-,/O0q A055/A133 TM-'.- The 5~e..h-orE des.~Iribe a low-frequency divider with a transistor- -s-wi,itch in the feedba~~k sir~;,Uit. and using a selectl-lv--~ PC-smpllfier- With a dcuble- -T br-idzr- a~--- z!a!-'ezitive To. the ~nowlAdge cf the. au-~hcnrs, only Sohmidt (58~= a~,, th,~~ end of ",.hs abi5trra~,'.) has allready treeted tb~'E problem Lin Bei~ld,;S the sell~.tlva RC-8.mDlifisr (t-ube 6)% E6zh4'1j' and tq=- 0!4 [P!41), the divider :contains an auxiliu7 amp-lifi~r 6P15n The resorvazni~s fr-quency of the se-,ective ampli- 60 ~ Ea fle.-, j~a 21--o .-,p~j; iz 40 at Ea = 2_~C, v., and a 300 v. The opsra' ion thin iE an&!-,gcus ~.-3 t'nat of two diodes connse'ted ~owardB each- c~.h~-r (.&T-di~ller,-?kase and and having low ftroard resi- ztamces 1'2^ - 30 anms) and hig r-- ers-e (abov-e 0.5 meg), when 7~he po- ,- j -,h -V I I h%-ff--av~ ths- V,Qlta_Zl~ IS- b0th diodes ars blo~~ked and Ca~rd 1/.~ I  Low-f_rEq-,;E,n,_ty div,lder 26204 3 /106/60/000/002/005/009 A 055 /A 1 73 33 "he wllol~~ Voltage .1~- eipplied -,C- *,he amplifizv; but, during qa'-f- -p-"riod of' %hs con-!;rol v,~~l-!;age, the. imblocked aiod-_~ shmmz~ R=,, end u, drops sharp- ly. Sln%~e ~omp_^nen-,~s of Lhe divided f-quenoy f exlzt in Th~ spe~:truyz of the ob- ta,'ned cul-s-s. tbey c-c-n. _zus~;r_-in ~h;_; already pL-cdused aL that fre- quenc.y. As fl-r -,he a)xxilfary a_mp2-if!!7_r, V,- wai alded -,,~ th!~ sys~sm In o-der to .eles'-ke qmplifiar from them shunting effe3-~ the in- put of the *,r~.,t~-isis'~or--swi~u---~.-,-. Tts divider ampl_-~-udp cmtpin (at divislon-fa:~'.-.~rs n) t"wo diff,~T-ent sectlons- &,; ~ma-_ inpu*. sipial am-PI-Itu- des, thA lyi,tre!is,~ cf thle inpu,, vo],.?,age amplltud,~~ CAVZY~_S an apprcxlma-~ely linear incr4_ase c.1' output voltag-?r amplitUde; at large qmplitud-s, the output v,-O-age amplitude iB :aot p5r:aptlhly by .h6 virielon ofL ~h-~ Jnpu-. volts-g'i am- Bal, 1,h,~ cl_-,pat vol~,ag~~ wmp'lituds decri,a-.-es ~,.-Len n Ar, n --qu- al -% 8, 1-3 or -more, *,~_'-,~: whc~lt~; Sh-,xa,-~t,5r -i's ti C, _1-:4 a c:--,i-ly z1opin,7 3urv~R. As fo- T,bc- fr-equency when n increasis. The presem-;e o,,~', an ~~-apacitemcp~ plays a very importa~-Llt, part Im th-) oper- zL'ion of the d1vider; its inc',uzlon into 4- e cArcu-"- oc3a~~onz, for instance, an th 4. additional phase-shift of, "he pulse-mvel.cpi m, lie swit~lh cutput with respect to ~he cutpj-, voltlag- -,f selec+,ive amplIfl-er, T-11-Le cnczrallicn of the divider ca-rd 2/3k  Low-fr~-iuen..v j---v, -1~:- 2620-4 A05 ~;.; /A rsmaine wlftirn supply or. tqE in.pa7 vary within very wide ~,u:~P~-v vr~,-,-izz -1, -tmsen 250 and v, z n t -A 5.r'. only 't7iv :5 % und~tr norzel ore-:ating C'n, d 1 1,; L;~r -,f Th- 3%.1pp'L 'y voltas~ br1r-gs about ar, ths gg~iiz,. anct of tht~ silectivr- Fimplliffer. The outp,,~t fraqu,~n,:y -~,f !-hr-. ~ilvlder 1~. d-t~rm-'-nea by- th-r, lrrequ~un,:-y r-&-nize of t h I e se. ~Stlv- fr-rn J-.0 -ryandred--- ~f kilocyc~lea per ~seaond. T-ra:r-e a,"e 7--' fi~zur~;z and and 1 ncm-3cvi,~~t-blo,--. The ref.~In3n,~t~ pub-.1-a-.1-on ra~-adii Schmidt,tFrFpjuen- cy Dfvi.d~-r ~h5,St-st-,~f~. 02 1"?~ r v. 2.5. ~Q:. 19,50. 3 JEMITT ED  SOV/ 112-59 -1-341 Modern Designs of Heating Pipelines the use. of prestressed reinforced concrete are submitted. Labor costs and expenditures of principal materials are compared for different passageway tunnels; the built-up tunnel design is appreciated. According to the author, the underground laying of an auto clave -foam- concrete insulated pipe, developed jointly by LOTEP and Lenenergo, is the most advanced type that ensures applicability of industrial methods. The design suggested by the Kiyev Branch of TEP with a tunnel consisting of hollow ceramic units is also appreciated. The most rational construction of passageway-type tunnels intended for joint use of municipal -service connections is the reinforced-concrete framework type used in industrial heating systems. M. L. Z. Card 2/2  ALEKSVIDROVICH~ Yu.B.,, inzh., red.; CHERNIV, L.A.p inzh.y red.; NAYDICH, I.M., kand. tekhn. nauk, red.; BELYAYKINA, I.V., inzh., red.; NIKOIAYEV, A.A., inzh., red.;,SOSHNIKOV,-,G.F., inzh., red.; FILIMONTSEV, A.V., inzh., red.; Pbpovi, V.V., inzh., red.; IFTINKA, G.A., red.izd-va; RODIONOVA, V.M.' tekhn. red. [Construction specifications and regulations] Stroitellrqe normy i pravila. Moskva, Gosstroiizdat. Pt.I.See.G.ch.7(Heating systems; materials, equipmnt, fixtures, elements, and structures] Teplovye seti; materialy, oborudovanie, armatura, izdeliia i stroitellrye konstruktsii (SNiP I-G.7-62). 1963. 22 p. (MIRA 17: 1) 1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po delam stroitellstva. 2. Gosstroy SSSR (for Aleksandrovich). 3. Mezh- duvedomstvennaya komissiya po peresmotru Stroitellrykh norm i pravil (for Chernin, Naydich). 4. Vsesoyuzrjyy Gosudarstvennyy institut po proyaktirovaniyu teplovykh elektrostantsiy (for Belyaykina,, Nikolayev, Soshnikov, Filimontsev). 5. Vsesoyuz- nyy nauchno-issledovatellskiy i proyektnyy institut po teplo- tekhnicheskim. sooruzheniyam. (for Popova).  FOGEL'Y Dmitriy Nikolayevich; MAKHNOVETSKIY, Solomon Iosifovich;..S0-SHNI- MIKMLOVA, L.G., red. izd-va; LOBANKOVA, R.Ye., tekhn. red. [Possibilities for developing the lumbering industry in the region of the Angara Valley Hydroelectric Power Station Cascade; utiliza- tion of forests in flooded arqAs] Perspektivy razvitiia lesnoi pro- nyshlennosti v raione Angarskogo kaskada GES; osvoenie lesov na zatopliaewjkh territoriiakh. Moskva, Goslesbumizdats 1961, 125 p. (MA 14:9) (Angara Valley-Lumbering)  MACHABELI, Sh.L., lazh.i '40I`__HIIIK6Vp R.N. Qome problems in a--:emnlingy eleme ta fir the roof of jingle- at-a-vT indu3,~,-Ial bu~ldinga with a 12m spa.-I. Prom. st-_'ol. 41 no.IiI2-17 Ja 164. (MIRA 17;6) 1. Nauchno-i s sled ove tel I sxly inst-Itut, organizatali, makhanizatsli i teYhnicheskoy pomsshchl s,.roitellsvru Akadexai stroitellat-va i arkbitektury S6,IR.  /I S/133/62/000/011/005/OG5 A054/A127 -AUTHORS: Rakhshtadt, A.G., Docent, Meshcherionova, O.N., Candidates of Technical Sciences, Gnevko, A.I., Soshnikoy S.A. Engineers- TITLE: The effect of boron and titanium on the Mechanical properties and ductility of the new 55, xrp (55KhGR) and 55cr2P (55SG2R) spring steels PERIODICAL: Stal', no. 11, 1962, io4i lo47 TEXT: At the MBTYim. Baumana (MVTU im. Bauman) and TsNIIChM tests were carried out to improve the quality of 60 0 2 (6oS2), -55 C 2 (55S2) and 55 xr (55KhG) spring steelEj by the addition of boron (0-003 - 0.01%) and titanium (o.o6 - 0.24%). The new grades were melted in a'.50-kg magnesite-lined induction furnace in the following composition (55KhGR A', A"; 5532GR = B, B"; 55S2 = C for conteol): Card 1/4 V~  -9/133/62/090/01 I/005/OC5 The effect of boron and ... ... Hea t5 ' Ciarot C %III Si ' Cr Ti - B QIItTOK 3 S' 1 0 C 0 Mn 7 S1 Ti B 0 0 0 0 1 , 0,54 0 54 1,02 10 1 0.35 0 32 1.4 2 1 0 0 0:066 0 0 0:006 2 54 0:5.5 1. 1 65 1.25 6 , , 03 38 0 06 0 1 006 2 A 3 , 0.55 . 1,05 , 0.37 , 1.3 0.06 0 01 3 0,55 , 1,7 . , 1,40 0 06 0,01 1 0.55 1.08 0,24 1,3 - - 0,003 t3 1 0,54 1,7 1,08 0,06 - 2 ' 0,55 10 0,30 1.5 30 1 0.06 0 09 - 0 003 -W-1 2 3 0 54 0:54 1,5 1 6 1.05 0,10 0,003 1 1 0 12 0 003 A j 3 0,55 1,04 0,32 . . . . 1 , It 0.55 0199 0,32 1,35 0,16 0:003 4. 0.54 1,65 1,15 0,24 0.003 5 0.55 0.94 0.36 1.30 0,24 0,003 - 0,53 1.0 1.8 0,3 - Prior to adding boron the steel was reduced by aluminum, then titanium was added. Tests carried out to study the hardenability of the new grades showed that an addition of 0.003% boron greatly improved this property. Addition op up to 0.06% titanium to steels containing 0.003% boron improves the hardenability still further. When more than 0.06% titanium was added, howeve r, this property of the steel deteriorated, most probably due to the crystallizing effect of titanium compounds leading to the transformation of the supercooled austenite phase. The addition of more than 0.1% titankfum weakens the tendency to grain growth-in the Card 2/4 I  S/ 13316 2/000/0 11 /00 5/CC5 The effect of boron and ...... A054/A127 .Steel structure, on account of the capping effect of titanium tompounds that are not dissolved in theaustenite phase, not even at high (up to 11500C) temperatures. The optimum addition both with regard to grain growth and hardening properties are 0.003% boron and 0.06,%, titanium. The addition of.0.06 - 0.12% titanium slight- ly reduces the strength of the test grades. The 55SG2R grade, containing various- amounts of boron and titanium has a higher ductility than the conventio *nal 55S2 .grade. Tlie threshold of ductility will be attained with 0.00Y.1' boron and 0.1 - - 0,16% titanium. Optimum ductility for the 55Sd2R grade will be obtained with annealing at 3500C, whereas for the 55KhGR grade at 3001C. In the 55SG2R grade the value of stresses reaches the maximum simultaneously with the maximum value of ductility; at the same time the microplastic friction starts developing. ..Spring steels containing boron and titanium show a lower,teridency to decarburiza- tion (in 55KhGR grade: 0.01 mm', in 55SG2R: 0.003 mm, whereas in the 55S2 grade: 0.12 mm). The test grades proved superior to the conventional spring steels' also in view of relaxation stability, which was tested under uni-axial extension at a stress ofcfo = 120 kg/mm2. To obtain a high degree of relaxation stability, the steel.must coptain sufficient chrome. In general,-the optimum amounts of boron and'titanium added depend on the steel composition. Greater amounts of Ca'rd 3/4  S/ 133/6 2/000/0 11 /00 5/CC5 The effect of boron and..... A054/A127 boron and titanium should be added to chrome-manganese steels, than to silico- -manganese ones... If higher duc~-ility is required, the bpron content should be increased. The 551,GiGR grade should be applied for heavy purpose springs. In structures operating under high static stresses, and where the ductility of the spring is not of.primary importance, the 55SG2R grade should be used. There are 8 figures. ASSOCIATIOMOTY im. Baumana (KVTU im. Bauman) and TsNIIChM card 4/4,  34043, S/109/62/007/001/022/027 /4-0 &V D266/D301 AUTHORS: Litvinenkog O.N.9 and Soshnikovp V.I. TITLE: Synthesis of non-uniform transmission lines based on the solution of the inverse Sturm - Liouville problem PERIODICAL: Radiotekhnika i elektronikag v. 79 no. 19 19629 169 - 170 TEXT; The purpose of the paper is to provide an exact method for determining the input impedance of a non-uniform transmission line. The problem can be written in the following form: Determine cf(x) in the differential equation ult + 11 - f(x)lu = 0 (2) for a given characteristic function M(J). The solution of this dif- ferential equation can be obtained as follows: T(x) = 2 dK(x, x) dx where Y,(x, x) satisfies the integral equation (-Card  34o43 S/109/62/007/001/022/027 Synthesis of non-uniform D266/D301 + x f(x, y K(x, s)f(s, y)ds + K(x, Y) 09 (3) 6 x :,>: Y where f(x, Y) = 00 0 o S V'T x 0 o s'%/I YU) ]d (4) 500 IIYV 71 and d(;L) = lim I i im ar Im M(u + JE)duo (5) 5_+ 0 E-11 0 This solution can be applied to the transmission line problem if MR) __ gLPI (6) p where Z(p) - normalized input impedance of the non-uniform trans- mission line, p = jw = - j V;[9 w - angular frequency. The characte- ristic impedance is then given by the formula Card 2/3  S/108 62/017/009/001/003 D288 D308 AUTHORS: Litvinenko, 0. N. and Soshnikov,,..V. I..Members. of the Society (see Association) TITLEt Synthesis of inhomogeneous lines,by solving the inverse Sturm-Liouville problem PERIODICALi lladiotekhnika, 17, no. 9, 1962, 15 - 23 TEXT: A brief review of the practical importance of in- homogeneous transmission lines and of previous investigations of the problem, is given. The authors employ a different approach, following Gellfand and Levitan in solving the inverse~Sturm-Liouville problem, which yields a general solution for the law of the changing transmission'r- characteristic with a given input impedance, independent of the ref'lec-:i tion coefficient at the input.'the mathematical problem consists in determining the spectral function for a given input impedance, by con- sidering the general case as a sum of two waves propagating in opposite directions. After a general analysis, the authors consider the synthesis Card 1/2  S/106/62/017/009/001/003 Synthesis of inhomogeneous lines ... D288/D308 of Transmission lines, whose input impedance is a rational function of frequency expressing the characteristic function in terms of the spectral function and its derivative, and obtaining a formula for the characteristic impedance. There are 10 references. ASSOCIATIONs Nauchno-tekhnicheskoye obshchestvo radiotekhniki i elektrosvyazi im. A.S.*Popova, (Scientific and Tech- nical Society of Radio Engineering and Electrical Communications, imeni A.S. Popov) CAbstractor's note; Name of Association taken from first pagb of journal] BUBMITTEDs May 19, 1961 Card 2/2  LITVINENKO, O.N.; SOSHNIKOV, V.I. Reply to V.P. Torchiginfe letter concerning the article "Synthesis of nonuniform lines based on the solution of the inverse problem of Sturm-Liuville." Radiotekh. i elektron. 8 no.11:1959-1960 N 163. (MIRA 17:1)   RZM, o -non smisisibfi-~ lin4b'in:_ridio-` beiibng 1Wi6_L 0:uses- f of- nofitiniform.Aran -transmilision lines: for- pulse : shAping.-An&-transkormation for--the matob: -uniform ing of resistance and impedance, are exAmi ed. areas indicated do not en- applications'df.,nonuAifdrm-. transmission lines. compass all of the possible , , theory.developed in the, first part of thebo okAakas it ~poasible t6,.vockee a` synthesis of.nonuniform transmission, I lineaw hich can be used -as Ioscillators The r ched filters directional coupleral etc* book is intended1o radio mat engineering students of higher.learning-1natitutions. TABLE.OF CONTENTS (abridged). -6duction 5 I nti Ch. Io Simple nonuniform tr is6ibn' lines,---.10. Ch II. Solutions to epations nonuniform transmiqsio~~ for:voltage sin curren 0 lines giveniwthe~form of,p6werssries,_ Ch* :III* Input 'impedance -of nonuniform tran6miss n 4-1 id lines Cho IV* Lineak-rational transformation of -input impedance 67 Ch. V. Synthesid-of nonuniform tianstiJAAoi: lines iicordi~nj to ii~t'impedaace and the coefficient of transmissioxi1a: the form of &,linear-rational a cq   AUTHOR3 Soohnikov, VJ. TITLE: Temperature Dependence of the Cross-Seetion for Absorption of Visible Light by Nitrogen Dioxide (Temperaturnays. zavisimost' secheniya pogloshcheniya vidimogo sveta dvuokislyu azota) PERIODICAL: Optika i Spektroskopi7a, 1959, Vol 6, Nr 3, pp 315-322, (USSR) ABSTRACT: The author used 3000K data reported by Hertzberg (Ref.6) to obtain the differential cross-section (a-) for absorption of visible light by N02 molecules. The value of er- was found as a function of tht~ wave number 4 between 13 000 and 32 000 cm-l (Fig.!) and the absolute temperature T up to 7 OOOOK (Fig.2). The dependence 0-( %) T) was calculated by fitting unknown parameters of the molecule to the experimental absorption curve corresponding to transitions from the vibrational ground level. These parameters were found using the large shift of the normal coordinates of N02 betweeh the ground and excited electron Card 1/2 states. The author shows that, for a certain set of  SOV/51-6-3-6/28 Temperature Dependence of the CroBs-Section for Absorption of Visible Light by Nitrogen Dioxide parameters, absorption can be considered to be due to a one-dimensional oscillator. In a note added at the proof-reading stage the author agrees with L.M. Biberman's remA ks that the calculated cross-sections reported in the' pre,aent paper may be much lower than the true ones. This is because it was assumed that the exponent in the expression for attenuation of radiation passing through NO represents the mean value of the absorption cross-section fthis is not always true). Acknowledgment is made to M.A. Yellyashevieh who supervised this work. There are 3 figures and 9 references, of which 2 are Soviet, 1 German, 5 English and 1 tramslation from tsnglish into Russian. bUBMITTED: April 15, 1958 Card 2/2  607/51 -7, - 4-21/ ---Z liibaruan, Yar~covich, S.F. and 6os ~.u MCR's Ta T E. Oa the Probability of a Transition in the 6cluaann--Runza Band iYst-em I ~io of the 02 ' 18culs- P:;R1OD!Qt%L: Opti4a i spelctrmikopiya, 1959, Vol 7, 1,11r 4, pp 562-563 (Us6iq ..D.~;Tiln(;T. card 1/2 Kack' Catua and ~iivdl (Ref 1) aiaasured the absolute intensity of aw.ission oy oxygen at 4100o& at wavelenf-,ths of 3000-5000 1. They Cou'?~Lred the exj-3riwental da-ta with an approximate exarai6ioa for the intensity of amissiou Sivan ir- an earlier paper (Ref 2) and concluded -uhat the oscillator strea-th for the a-chumann-Ikunge band system of 02 is f = 0.015; this value is much smaller than that deduced from &'s0r-PtiOn by cold 02, which ~as given as f = 0.16-0.26 (Refs 3, 4j. Keck, at al explained this 1-,tr6e difference between the two vt~luaw of the oscillator strength to be 6ua to dependiqnco of the probability of an electronic transition on internuclear distance&. The conclusions of Keck at al are questioned by the present :Luthors, -Nho c=pare the experimental data of i:eck at al with a stricter expression for -.he intensity of emission 1), (Eq 3). Using the expariwental values of I)L and Eq (31 the authors calculated R2(;k) , where R,(X) is the - electronic a moment of a transition, which may .depend on interauclear distance. It  5011/51-7-4-21/32 Cur, the 11robability of a Transition iri the Schumann--Hun- Band -iystam of the 02 Molecule was found that R28p) falls monotonically from 1 atomic unit at ~ = 3000 ~ to 0. 5 utomic unit at 5000 1 (see the dashed curve in a fiSure on p 5b3l". These values of R2(~) corresnond to an oscillator strenb-th f = 0.1-0.2, which agrees quite well with the rilues of f dedu6ed from ab6orytion (Rofs 5. 4) and vrith theorutical, estimates ("Refs 5, 9 Usia-- the calculated va,lues of R2(X) and a set of Franck--- Condon multipliers q(v' , v") , Eq (3) was found to yield the distriloation of inten-sitiaz ja the Q` c juma" --Runge syfzem betwaan 3000 and 500C 1. at 2000, 4000, 4100 baid 60000K. These intensities are plotted as continuous straight lines in +-ha fi6ura on p 563. Jlucknorled6;ent is made to I.T. YaLubov i%ho suppliad his set of calculated Franck-Condon, factors. There are 1 figure and 11 Sn-lish references. ,~U.EMUTTED: i'abruary 3, 19-09 cta rd 2../2  I SOSHI,'IKOV9 V.N~ Effect of the rotaticnal stmctixe of molecular bands on the .1 absorption of light by 7ayers of finite thickness. Opt. i sDektr.10 no.4:448-456 Ap 161, (MIRA 14:3) (Spectrums Molecular)  21,t166 S/053/61/074/001/002/003 B117/B212 AtIT-HOR: Soshnikov, V. N. TITLE: Absolute intensities of electron transitions in diatomic molecules PERIODICAL: Uspekhi fizicheskikh nauk, v. 74, no. 1, 1961, 61 - 85 TEXT: In the present survey, the author discusses the existing material on the probability of electron transitions. The aim of this paper is to sys- tematize the material available. This survey is to continue those of V. Kolesnikov, L. Leskov (Ref.l: UFN 65, 3 (1958)), of R. Nicholls, P. Fraser, W. Jarmain (Ref.3: Combustion and flame 3, 13, 276 (1959)), and of R. Nicholls, P. Fraser, W. Jarmain, R. McEachran (Ref233: Astrophys. J. jJ1, 399 (1960)) which deal with absolute electron intensities in atoms and with relative electron intensities indiatomic molecules. The first chapter deals with the connection between the quantities determining the intensity of an electron transition. According to the author, the formulas applied for this purpose are justified if the total transition probability canbe represented as a product of vi'bration and rotation probabilities of the electron. Card 1/16  22866 S/053/61/074/001/002/003 Absolute intersities of ... B117/B212 Strictly speaking, the latter is false, since the wave functions of the electron are a function of its distance r from the nucleus. Therefore, the transition probability in the vibration band of the electron will be pro- portional to I ~ TV, (r) 'fv~ (i~) Re (r)dri2 It is noted that the question as to whether the transition probability is a strong function of R 2 (v) has not been completely investigated (R 2 - square e e of the electron transition moment ). The second chapter deals with the theoretical calculation of oscillator Dowers, and the third one describes an experimental determination of theses powers. With the exception of very simple cases, oscillator powers are calculated by approximate wave func- tions. All theoretical data, which are mostly obtained after extensive calculations, must not be considered to be definite and require experimen- tal verification. Table 1 shows calculated oscillator powers and the method applied. Quite often, the experimental value of the oscillator power will be very uncertain. The resolution of the instrument and the presence of rotational structures of the bands will play an essential role when deter- Card 2/16  2 2t"166 S/053/61/074/001/002/003 Absolut intensities of B117/B212 mining k(V). The oscillator powers found experimentally are given in Table 2. The following Soviet authors are mentioned: S. Yerkovich (Ref.88: Optika i spektroskopiya 6, 297 (1959)); V. Dianov-Klokov, (Ref.98: Optika i spektroskopiya :Lj 621 T1959)); L. Avramenko, V. Kondratlyev (Ref.230: Acts, Physicochim. 1, 567 (1937)). There are 3 figures, 2 tables, and 242 references:17 Soviet-bloc and 225 non-Soviet-bloc. Legend to Table 1: Theoretical oscillator powers of diatomic molecules; e rabs; 5) calculate-j 1) molecule; 2) transition; 5) assumed r (A); 4) assumed, max 11 abs ; 6) method; 7) f abs; 8) literature; 9) remarks; 10) Lyman bands; max e 11) Werner bands; 12) continuum; 13) photoionization; 14) Swan bands; 15) Deslandres-dl~zambuja system; 16) 11 - positive system; 17) 1 - negative system; 18) Schumann-Runge system; 19) remarks: ab3 was found with a max small relative shift of the potential curves, assuming a harmonic oscilla- - (G. tor and using the principle of Franck-Condon with the aid of Ref.6. Herzberg, Molecular Spectra and Molecular Structure of Diatomic Molecules, 2nd edition, N. Y., 1951); with a large shift, the calculated values of Franck-Condon factors had been used (Ref.1,2, and 3. Ref.2: R. Nicholls, Card 3/16  22866 S/053/61/074/001/002/003 Absolute intensities of B117/B212 Ann. g6ophys. 14, 208 1958)). v abs of non-observed spectra are given in max parentheses. d) From the formula R = (R AO + RMO )/2, where RMO and R AO e e e e ____ ~7)1 C have been calculated from the formulas: 10) R e 42(l -_S (L AO MO); (11) R-~~-I(Sr/fl S4) (AO). B) has been calculated from the dipole velocity e (3a) 2 h V. dT [2 e 4]Tlmcv ~Ye e e r) Ref-7 (R~. Mulliken, C. Rieke, Repts. Progr. Phys. 81 231 (1941) contains a comparison with experimental values of dispersion and polarizability; A) calculated from the formula R - RMO/2, where RMO is obtained from ex- e e e pression (10). e) calculated from formula (12): R e;~(r/2 41 - S2) (AO and LCAO MO); x) exact bicentric vave function; 3) one-electron approximation of the H+ type; v) calculation with variable r; ' 6200 X is observed. The region 14 300e-`~)-