SCIENTIFIC ABSTRACT BOGDANOVA, A.V. - BOGDANOVA, I. P.

SHOSTAKOVSKIY, M.F.j_PqGDANOVA, A.V.; USHAKOVA, T.M. Diene synthesis with the participation of vinyl ethers. Report No. 5: Reaction of divinyl. ether with hexachlorocyclopentadiene. Izv.AN SSSR Otdakhim,nauk no-4:709-714 Ap 961, (NIRA 14:4) lo Institut organicheakoy khimii im. N.D.Zelinskogo AN SSSR. (Ether) (Cyolopentadiens)  SHOSTAKOVSKIY, W.1 BOGDANOVAj A.V.; PLOTNIKOVA, G*I. Stud of diacetyleac,derivativen, Report 8; Reactiona of lot vinyl andthioethyny:2 vinyl atherac-th carbonyl compormda. UVAISSSR.Otdakhimonauk noo5:905-909 MY 161- (MIRA 14:5) 1. Institut org&aicheakoy kbimli in. N.D.Zelinsko 0 AN SSSR, (Ether) (Carbclpl aompundm~  BOGDANOVA, A.V.j-, PLOTNIKOVA, G.I.j YAKOVLEV, I.P. Derivatives of diacetylene. Report No,9: Synthesis of unsaturated alkoxy- and thioalkyl acetals having C7 - C.15 carbon chain in their molecule. Izv.AI4 SSSR.Otd.khim.nauk no.10.-1841-1846 0 161. (MM 14;10) 1e Institut organicheakoy khAmU im. N.D.Zelinskogo AN SSSR. (Acetals) (Butadiyntj)  I I SHOSTAKOVSKIY, M.F.;.BOGDANOVA, A.V.;-VOLKOV, A.N. Vinyl compounds in diene pynthesis~. Report No.8: Diene synthesis of vinyl ethers and thio ethers with anthracene. Izv.AN SSSR.Otd.- khim.nauk no.11:2072-2074 N 161. (MIRA 14:11) 1. Institut organicheskoy khimii im. N.D.Zelinskogo AN SSSR. (Ethers) (Sulfides) (Anthracene)  SHOSTAKOVSKIY, M.F.; BOGDANOVAg A.V.; USHAKOVA, T.M. Vinyl compounds in diene synthesis. Report No.9! Some properties of diene synthesis adducts with vinyl sulfides. Izv. AN SSSR Otd.khim.nauk no.12:2217-2222 D 061. (MIRA 14:11) 1. Institut organicheakoy khimii im. N.D.Zelinskogo AN SSSR- (Vinyl compounds)  qHOSTAKOVSKIY, M.F.; BOGDANOVA, A.V.; VOLKOV, A.N. I Vinyl compounds in diene synthesis. Part 7: Diene synt~-sis of vinyl ethers and thioethers with 2.,3-dimethyl-1,3-butudiene. Zhuro'ob.khim. 31 no.7:2096-2loo n 161. (MIRA 14:7) 1. Institut organiche,skoy khimii imeni N.D. Zelinskogo AN SSSR. (vinyl compounds) (Butadiene)  SHOSTAKOVSKIT, M.F.,*_~~GDA,~OVA_, A.V.; VOLYIOV, A.N. Vinyl compounds in diene synthesis. Report Ho.10 Interaction between divinyl ether and anthracene. Izv. All SSSR Otd. Ichim.nauk no.22346,-350 F 162. (MIR& 15:2) 1. Institut organicheskoy khimii im. %D.Zelimskogo AN SSSR. (Vinyl ether) (Anthracene)  SHOSTAKOVSKIY, MF,,- BOODANOVA, A,V,j VOLKGVp A.D. Vinyl compounds in dione synthesis* Report Noel2s Structural selectivity of the dione condensation of vinyl others with isoprens. IzvAN SSSR Dtd,khim.nauk no.7s:L254,..1258 JI 162. (MIRA 15:7) 1. Institut organicheakoy khIldi N.D.Zolinskogo AN SSSR. (Vinyl compounds) (Isopreno)  VOLKOV, A.N.,- BOGDANOVA.. A.V.; SHOSTAKOVSKIY, M.P. Vinyl compounds in diene synthesis. Report No.21t Diene synthesis of vinyl ethers and thioethers with isoprene. Izv.AN S&M.Otd.khim. nauk no.7.-1280-1284 J3. 162. (NIM 15-17) 1. Institut organichookoy kbimii Ima NaDaZeliwkogo AN 538R. (F,thers) (Isoprene) (Vinyl compounds)  BOGDANOVA, A.V.; FLOTNIKOVA, G.I.; SHOSTAROVSKIY,, M.F. Reactivity of acetals and ionic telomerization. Usp.khim. 31 no.10:1165-1178 0 162. (MMA 15:11) 1. Institut organichesko- Ichimli AN SSM imeni Zelinskogo. (Aaetals) (Polymerization)  SHOSTAKOVSKIYO M.F.; BOGDANOVA, A&._L_POLOVINq L.Y.; SHAMAHMMVA, S. New polymeters of virWI Ath~rs* Report No.2: Heterogeneous catalyst of stereospecific polymerization at room temperature. Izve AN SSSR.Otd. kh'iln.nauk no.10:1813-1817 0 162, (MIRA 15:10) I 1. Inatitut organicheakoy khimii im. N.D.Zelinskogo AN SSSIR. (Ethers) (Catalysts) (Polymerization)  SHOSTAKOVSKIY, M. F*;-wQDANOVA, A. V,,j VOLKOVP A. N. Interaction of virql ethers vitb furan and.2-mathylfuran. lmv. AN SSSR Otd. khim. nauk no.12:2224-2226 D 162, (MIPLA 16%1) 1. Institut organicheakoy khimii im. N. D. Zelinskogo AN SSSR. (Ethers) (Furan)  ACCESSION NR: AP4ol0042 S/0062/64/000/002/0127/0132 .A,.,_At_V-; Plotnikova, G. I'; AUTHOR: Dolgilch, A. N.; Bogdan-Qv 0 0 Ushakova, T. M.; Shostakovikiy, M. F. TITLE: Investigation of diacetylene derivatives Report 109 Interaction between ethinylvinylthioethers and water SOURCE: AN SSSR. Izvestiya; Ser. khim-., no. 1, 1964, 127-132 TOPIC TAGS: diacetylene derivatives, ethinylvinylthioethers, ethinylvinylalicyloxo, thio or nitroethers, triple bond reactivity, aix-configuration, keto-enol resonance, enol stabilization, thio- vinyl group, thioketo group, meroaptan addition.products ABSTRACT: Since the compounds CHSC-CH=CH-OR do not react with water in a neutral medium even under heating, hydration of the triple.bond proceeded under the influence of HgSQ4 and heat to form the corres- ponding 2-acetylvinylalkyloulfides and their tautomerio 3-oxvbuta- diene-1,3-y~l-acetylvinylalk,vlsulfides,, a new series of diacetylene Card 1/2  ACCESSION NR: Ap4o:Loo42 derivatives. The possibility of keto-enol tautomerism of the deriva- tives and conditions for-stabilization,of the enol form - cis- configuration and bond formation between the H of the OH-group and S, resulting in a six-membered ring - are discussed. The IR spectra confirmed presence of the cis-configuration. Acid hydration (10% .HPS04) yielded mainly 2-acetylvinylalkylsulfide. In the interaction w1th water,, in compounds of the type CH=-C-CH=CH-XR where X - 3, 0., N, the sulfur atom, like 0 or N, Jncreased the reactivity of the triple bond, compared to that in vinylacetylene. This influence appeared in the order N-,~O >S; The syntheses are described, as are yields and end products. Orig; art; has: 8 formulaae, ASSOCIATION: none SUBMITTED:* 22Au963 DATE ACQ: i4peb64 ENCL; 00 SUB CODE: CH ''NO REP SOVt Oll OTM: 005 Card  SHOSTAKOVSKY, M.F.; B!?aPjNQYAr-AvV.; PLOTNIKOVA, G.I. Addition of alcohols and mercaptans to the compounds witb triple bonds. Uspekhime 33 No.2.229-1150 F 164~. 1. Thatitut organicheskoy khimil iman-4 N.D.Zellnskogo AM SSSR. (MIRA 17~10)  DOLGIKH, A.N.; BOGDANOVAj A.V.; PLOTNIKOVA, G.I.; USHAKOVA, T.M.; SHOSTii-OVSKIT-,-M.'F.--- Derivatives of diacetYlene. Report No.10t Interaction of ethinyl vinyl thioethers with w.ater.*'Izv.AN,SSSR. Sorr.khim. no.1:127-132 Ja 164. (MRA 17t4) 1. Inatitut organic~eskoy khimii im. N.D.Zelinskogo AN SSSR.  BOGDANOVA,_~.V.; KUr.ATOVA-SHEMYAKINA, G.P.; VOLKOV, A.N.; ARAKELYAN, V.G. Synthesis of diacetylenic alcohols, glycols, and their derivatives based on diacetylene. Izv.AN SSSR. Ser.khim. no.lil74-176 Ja 164. (MIRA 17:4) 1. Institut organicheskoy khimii im. N.D.7,elinskogo AN SSSR.  DOLGIK11j, AeN6; ~WDAROVAs_A.V*; B)IOSTAKOVSKIY, M.F, Interaction of vinyl and thiovinyl others with trithioetbyl or- thoformate, Izv,AN SSSR.Serakhime noo2;340-341+ P 164- (MIRA 17:3) 1. Institut orgardchoskoy khimii im. N.D* Zolinskogo AN SSS&  AS 8/0062/64/0001002/0363/0365 4FCESSION NRI AP4019015 AUTHOR: Shostakovskiy, M. Fog Bogdanova, A, Vol Shamakhmudova, So TITLE: Hishmoleculcr polymers of vinyl-n,butyl ethers SOURCE: AN SSSR, Uv* Seriya khimichaskaya, no, 2,, 1964, 363-365 TOPIC TAGS: vinyl ether polymer, Ziegler catalyst propyl-lithium, polymer, lithium, vinyl alkyl ether ABSTRACT: The purpose of this work was to improve on Zieglerls catalyst so as to' 'are stereoregulated polymers of vinyl ethers at room temperature (Ziegler rep p catalysts require cooling due to excessive formation of the active component Al(L-C4H9)2Cl)- This ether is industrially produced in the Soviet union and is the base for the important products "Vinipol" and the Shostakovskiy balsam (composition not explained)o The recommended composition of the catalyst Is VOCl3:LiC3H7:Al(i-C4H9)j in the proportion ltl.5:3, Polymerization takes place at room.temperature in -3 hours* The polymers are colorless, and the c&talyst readily removable and universal for vinyl alkyl qhers of different structures* The polymers have a molecular weight of 1o" 9 100o Their radiograms are cc!ro. 1/2 . . ......  ACCESSION NR: AP4019015 similar to those of earliai stereoregular polymers* It is a white rubbeclUm i substance. The action of conventional catalysts in compared* Origs arts has: no figures, 5 formulas. 1 tablo, ASSOCIATION: rnatitut orpnichi!skoy khLaii In. Us Do Zalinskiy (Instituts of Organic Chemistry) Card,  ACOESSION NR: A24025011 S/0062/64/00.0/003/0543/0548 AUTHORS: Bogd=ova, AeVe; Shostikovaldyt M.P.; Shamakhmudova'.3. TITLIB: New simple vinyl ether polymers. Communication 3. Homogeneous catalyst for steraospecific polymerization at room temperatures, SOURCE: AIT SSSRL Izv, Seriya khimicheskayat no. 3, 1964, 543-548 TO?10 TAGS: vinyl ether polymer, sterooopecific polymer,.stereospecl- Sic polymerization, homogeneous catalyst, modified Ziegler catalyst, polymerization notivatioup stereospeolficity, stereospeolfic orlenta-' t~onj aLaminum Isobutyl containing catalyst, dlisobutylaluminum IJ chloride catalyst, catalyst component function, vinylbutyl ether paymer, vinyllsobutyl*ether polymer, vinyloyolohaxyl other polymer, vinyldecalyl other polymer, molsou3nrweight, viscosity, solubility, x ray pattern. ABSMICT: The modified Ziegler heterogeneous oatalyst (TI01 0 LLO X and A'('-04HQ)3) requires investigation to determine vhIch c~mporieav' is responsible for aotivating-the polymerization and vhioh for direct-_ Ing stereospeoifioity. High vlooosity high molecular veight stereo- card 1/3  iAOCESSION NRo AP40250ll !specific vinyl others were obtained at room temperature by using a I ;ratio of 'the above components Of 0-5:0-5:2. The vinyllsobutyl iether thus prepared had an even higher viscosity than a polymer 'prepared with the new homogeneous catalyst AI(I-0 H ) *Al(I-0,&11 9) 0 H ) #Al(i-C H ) 01 "M`f up to 33 ~This catalyst, with an Al(I Jp?ojj,O P014 ~a 0 ,was found suitable for ster;o 2rization at room tom- I YM :perature. Polymers of vinyl-n-butyl-I vinylisobutyl-, vinyloyclo- 'hexyl-, and vinyldecalyl others uere obtained In good yield (75-90%) r :with this catalyst. 11he molecular weight (vinyl-n-butyl ether 7.4 x i ;1 105, vinylisobutyl ether 1.38 X. 106), viscosityg solubility (97-99% if ;in boiling aootone), and x-ray patterns of these polymers were deter-1; !,mined. "The authors thank L.S. Yasenko for datermininf the molecular iveight of the polymers by the light diffusion method. Orig. arts ~has: 1 tablep I figure and I equation. ASS001ATION:1notitut organlohaskoy khimU AN SSSR im. N. D. 4elinskogo (Institute of Organio Chemistry, 'AN RSSR) i card   ACCESSICU XR-. Ap4o33388 S/0062/&/000/004/0T0910j15 AUTHOR: Sbamakbmudova,, S.; Bogdanova, Ae V.; Shostakovskiy., Me F. f TTTLB-. Now polywre of simple vinyl others. CammAcation 4. steroospeciric capolymrization, of simple %IUVI others vith mathylacrylate and matbyluotba- i,crylate at ro= tomperaturso SOURCE: AN SSSR. Izvestiya. Seriya kh'sdcbeeka , no. 4. 1 709-715 and top 964 hal of insert facing page 712 TMG TAGS; vinyl cther polymer, vinyl ether copolywr) vinyl other me tbyl -wwrization acrylate copolymer,, stareospecific copol, methylacrylate polywrp metby3methaer7late polymer, hcmogeneous catelyot sysUm, triisobutyl-aluminins j Aiisobutylaluninm chloride,, beteorgeneous catalyst system, thermal stabilityp therm=eebanical property., elongation.. solubility,, x ray analysis, elastic state stereoregular polymer,, stereoreVAar copolymer ABSTRA.CT-. Conditions for polymerizing methylacrylate and methylmet)=rylate and.-"I for the stereospecific copolymerization of these with sinple vinyl ethers van Investigated. M%ree catalyst system vere tried for,the copolynerizationst Card -z'  L ACCESSIM NR: AP4033388 W hatoroseneous system of 1:1;4 TiC3.4:MC3H7:A1(iC4'~)j; (2) homogeneous system of 1:3 Al(iC4H9 Cl and Al('C4116) (3) heterogeneous a a ea of 1*.195:3 V001 *the LiCjH7:Al('C0q~3& The bom gen6oX system proved most favorable. Conti;aa' Polym~rizati6n ificreased the yield of the copolymers but did not change their c=position. The solubility in organic solvents of the copolymers of simple vinyl ethers with methacrylate is limited, causing difficulty in separating the copoly- Zer f ram the catalyst. In a, benzene -soluble fraction: the solubility, of the .1 copolymer increases vith an increase in the vinylalkyl ether content. The methyl- acrylate and methy1methacrylate polymers are high melting thermally stable materi- als. The copolymers have a significant range ia the highly elastic state* From thermomechanical x-ray and solubility studies it Is concluded that the structures Of these polymers and cqp6ly=rs are stereoregular. Orig. art. has: 4 tables and 4 figures. ASSOOMMON: Institut organicheakoy Uhl-41 Imo No D. Zeliwko Akadwii nauk SM (Institute of Org=-' o Chamistry# AcadwW of Sciences, SUMCTM: 3,WOY63 DAME A0Qs IW&y& ENCLt 00 2   VOLKOV, A.N.;,DOGDANOVA. A.V..- KUGATOVA-SHEMYAKINAP G.P. Synthesis of divinyl-A-diketones and dialkoxyethyl vinyl ketoneB. Izv. AN SSSR. Ser, khim. no.10:1913-1914 0 '64- (MMA M12) 1. Institut organicheskoy kbimil im. N.D. Zelinskogo AN S35R,  3 676~6~, an (A T Fry. ACCESS10N MI. AP5008112 S/0062/65/000/002/onf AUTHOIL- Bogdanova, A. V. Dolglkh, A. N., %astalcovskiy, M. F TITTLE: S~rnthesis of primary, secondary, and tertiaryalkoxy alcohols of the "vm~iie" Beries SOURCE: AN MR. JzviesHya. Serlyn IdAmicbeskayn, no. 2, 1965, 351 -362 TOPIC 7-AGS: alkoxy alcolhol Imary alkoxy alcohol, secondary alkoxy syntbeb1s, PA alcohol, tertiary alk-oxy almhol, olofinic acetylenk alcobol. conilignted unsaturatixi alcohol, ethynylviny) ether, Grignary reaction. oJefinir al),oxykot,~i ABSTRACT- C~0~n*~Jcetylenic-olqfinlc primag, secondar, and turtiar- alkoxv- alcohols jvhich may be used--for the production of herhicidc-sl or 0 ey"i to T-S by t1he reac-.ion of ethynylviny1m ethyl, - benz.yl ether with acetone, di-n-propyl ketone, avetaldt-h-v,iz- n aldehyde or ethylene oxide. The alkoxy alcohols were obwino! e1hynylvinyl ethers prepared by their retction with C1,11-MgBri flho ph.v-;4-71 ocovernos and inf rared spectra of the reactionRroducts were delerm aml Ch t, n were Idendfled by preparing acem-ts 'with Yin th0r. TIlf- ILIAATRtion (74 the alcohols --_ylethvl othor Y gave olefinic alkoxyketols. M=01 16.8-63% of the the retical were produced by the 1/2 RIMR, M. ININ  0 4 -Z=_ XIJ 0JJg13x off it ~-U(vj). i:11_=r_12T1.cT1-0W1, + 110-cli, cif, Orig. art. has: 1 table and 15 formulas. 0 X) ASSOCIATION: Institut organicheskoy khimii irn. N. D. Zolhokocro Akadeniii ri!luk SSSR (institute of Organic Chomistrv, Acaderny of Sciences, SSSR) SUBMITTED: 12JunG4 P-NCL- 00 SU13 CODF,, NO RtF SOV: 003 OTHER- 004 2/2 Card 777`77`~  ~4: 669-65 Rwr )Ikw;p(j --j _L_37669-65 Py ACCEMON NR- AP5008113 ALTITIOR: Bogdanova, A.V.; Dolgilch, A. N. ShostakovskAy, M.F. 11TLE: Symbesis of primary, seamdary and tertiary aLkv thio-ewme al~, 'SOURCE: ANSSSR. lzvestiy-a. SeriyaUinilcheskaya, no. 2, TOPIC TAGS: alkyltnioalcohol. olefinic ace-tylenic alcohol. unsaturated alcohol, primary alcoliol synthesis, secondary alcohol synthesis, t~ rt! i, Bynthesis, ethynyl vinyl thioal cohol, Grignary reaction A13STRACT: 1()jefhjie-aooty]eWc primary, secondarv and tuy~tiarv tMoether alcohols -were prepared by -Vac reaction of ethynylvirly1thic'ut1hyl "Ind ~00,vn-,k in".1 thiioisopropyl alcohol wid; acetone, di-n-propyl ketone, methylvinylk-ow-ne. n-butyrnld-uhyde. crotonaldrhyde or etkylene oxide. The thioethez- aflcohols v,~ere obla ined he oTganomagnesjum compow-As genomi ted In the presmcp of produCts were ild-onWied by elemcuiLal anal ys is and lnf ra red Fpt-(,t rl)s f,~ properties were meisured and tabidated. Yields of 18.15-7 1~i- oi 0it. S t2l produced. the maction proceeding by the general formula   BOODANOVA, D. Yn. BOGDANOVA, D. Ya. ; "The awnrness of motion in the process of master- ing a motor habit." State Order of Lenin ond Order of Labor Red Banner Inst if Physical Culture imeni P. F. Lesgraft. Leningrad, 1956. (Dis5ertations for DeCree of Candidate in Pedagor-,ical Sciences). SO: Knizhnays Letopsis' No. 22, 1956  BOGDANOVA, B.A. Study of peripheral circulation by rhoovaeography. Voen.-med.zh'mr. no.10:34-38 0 158. (WRA 12:12) (BLOOD GIRGULATION, determ. peripheral, rheovaeography (Ras)) (PLITUMOGRAMT rhoovaeography in aeterm. of peripheral blood circ. ( BUM))  BOGDAROVA B.A.; DRWIWAj, T.N. Eleatroeardiograp~la observations in operations on the organs of the thoracic civity under etber-,oMen intubation anee4hesia. Rhirurgiia 36 no.9t9l-99 3 160. 130-1) 1. Iz fakulltetskoy khirurgicheskoy kliniki (zav. - prof. P.Ne Yelanskiy) X Hoskovskogo ordena, Lenina, meditsinskogo instituta, imeni. I.M. Seahemova. (ELECTROCARDIOGRAM) (CHEST-SURGERY) (INTRATRACHM AIMTHESIA)  Br.'GDANOVA, E.A. Prognostic significance of electrocardiography in thoracic surgery under anesthesia. Xhirurgiia no.9:78-83 162, (MIRA 15:10) 1. Iz fakulltetskoy kbirurgichooko klimiki (zav. - zaaluzhennyy deyatell nauki prof, N,N.lelanezT I Moskovskogo ordena Lenina meditsinskogo instituta. imeni I.M.Sechanova. (EIECTROCARDIOGRAPHY) (CHEST-SURGERY) (ANESTHESIA-GOMPLICATIONS AND SEQUEIAE)  BEGEL11,W71 A.A., dotsent; -BOGDANOVA, B.A.; BUKHTEYEVA, N.F. Diagnosis and treatment of obliterative peripheral vascular diseases. Khirurgiia 40 no.4t140-145 AP 164 (MIRA 18:1) 1. Fakulltetskaya )%hirurgicheskaya klinika (zav. - prof. 11.11. Yelanskiy) I Mookovskogo ordena Lmina maditsinskogo Inutituta, Imeni I.M. Sechenova.  ."-..BOGDANOVA, E*Ao Electrocardiographic control during operations under anesthesia. Trudy I-go MMI 33.'151-163 164. (MIRA 18:3)  :,-!adlngs ul t'--i pr5cipitatior gauge cf 'he cn Oie wird volo(A%r. T-,-L-,i- Gjairnayu 9ecri~'AchwilLya A~.ii~vvutcn-!I~ea Im, A.I.Iroyeykova, lordngrad. I  .9., ; W/M SWWS OODBI UA/0Q9D/0/00D/03D/005D/tO5h AUT91*1 Strums L Re'. (0&~didme of phidiomthematiW adences)j'ke-c~M!A L (Candidat-F-07 physloomaUldmatlea-1 Soleno.9S)s Boadanoz&~&-S* 00 (Camudate Of ion phy9iomatheMatical so .000) OW I ~ Main Geophysical Observatox-Y(Glavnaya pofisicheelmyn observatorlya) TITIAS Syetemtic'urrorvft WagaVrlent Of precipitation MURM yAtewojogj;,% 1_gi&o1ogiy&s, not 10j 1965p 0-54 TOPIC TAM . atmospherio.l*ooWtationp'atmwpherio eviporatim ABSMCTiTh1e'ii a. brief deactfition 6f 'the principal results of a quanti;_-1 'Xistive determination of the principal systematic errors in measurement lof preci,Atation. Emphasis is on the following sources of error: losses, precipitation due to'w jof collected etting of the-receiver, losses of ,Acollected precipitation due to evaporation from the receiver and losses .1of*precipitation due to distortions of the win dfield over the receiver~j quantitative relationships are.derived between the systematic errors an Ahe factor# redponsible for their occurreince4 The computation system,z., )proposed here,makes it* possible to dttermine tho ereore for,any point~,- AW ad dif feient' time -intervals jLuch-!as: a month.or,.y ired,Ancl,for Origo wt. haa$ figures t016sE& 0-7 :ORM RUPS SUB hOhO __ 777.. bDOs 552*502* O?d 'Z L ._WMM~  STREZER, L.R., kand. fiz.-matem. nauk; VECHAYFV, I.N.; BOGDANOVA, E.G.; FEDORGVA, Ye.A. Metllodology of correcting,the precipitation norms of a period of several years. Meteor. i gidrol. no.11.43-50 N 165, (MIRA 18:11) 1. Glavnaya geofizichoskaya observatorlya.  ACC NR. AT6036738 SOURCE CODE: UR/2531/66/000/195/0040/0062 AUTHOR: Bogdanova, E. G. ORG: GGO TITLE: Investigation of precipitation,measurement errors due to winds CnTror'r- T-ninvrad. Glavnaya geofizicheskaya observatoriya. Trudy, no. 195, 1966. Voprosy metodiki izmerealfa Atmosfernykh osadkov (Problems in methods of measuring atmospheric precipitation), 40-62 TOPIC TAGS: weather forecasting, atmospheric precipitation, wind velocity ABSTRACT: The errors made during measurements of liq uid precipitation are influenced by winds as well as the size of the raindrops. Thiserror for rains of average in- tensity is 2.5% in winds moving at 1 m/sec. It decreases to 0.5% in intense rains and increases to 4% in light rains composed of small raindrops in winds moving at 1 m/sec. 'ine rain measurements obtained by the Tret'yakov precipitation gages give an underestimate of 5--8% in most often encountered winds which have the velocity of 2-4 m/sec at heights of 2 m. The seasonal and regional underestimates are determine by the relationship of the liquid precipitation underestimates caused by winds as a function of the rain structure. The parameter of rain structure N is taken to be that portion of total monthly precipitation which is caused by rains whose intensity is I s 0.03 mm/min. The measurement errors due to winds at any point may be Card 1/2  _,A X It i IWA _.-M; ACC NR. AT60 738 compensated by the use of isolines of the parameter N. A nomogram is given for correcting the monthly precipitation values, The underestimates in solid pre- cipitation measurements are also influenced by the structure of the precipitation. The air temperature is used as a parameter for correlating these two quantities. Curves are given for correcting the Tret'yakov precipitation gage measurements of solid and mixed precipitation foi various air temperatures. The error in solid precipitation measurements is 30--60% in most often encountered winds. At low .temperatures (from -15 to -20C) and 8-10 m/sec winds these errors may reach 200-- 300%. The relationships obtained for the solid precipitation measurement under- estimates cannot as yet be directly used for correction of monthly precipitation dat... The authors, however, intend to develop a method for correcting these underestimates using climatological characteristics. Orig. art. has: 17 formulas, 6 tables', and 11 figures. SUB CODE: OB/ SUBM DATE: none/ ORIG REP: 019/ OTH REP: 002 I C d 2/2  PLOTNIKOVA, K.N.; Prinimali uchastlyet GORNAYA, K.A.; SHILINA, L.S.; KU7,NF=VA, V.K.; MG AN9.1~~). K.T.; BASHIJAW, TPABI.-P, I G.; KAREVA, M.V.; KUZIMINA, A.I. Expeiience in the production of lavsan-cotton blend yarn in the "TrPkbgornaya Manufactura" and Kalinin Cotton Y1ills. Nauch.-iss. trudy TSNIK11B1 za 1962 g.:166-175 164. (MIRA 18:9) 1. TSentrallnoy nauchno-lssledovatellskly institut khlopchatobu- mazhno.,,, pronTahlennosti, Moskva (f'or Gornaya. Shilina). 2. Kalininakiy nauchno-issledovatallskiy institut tekstillncky promshlennosti (for Kuznetsova, Bogdanova). 3. Kalininskiy khlopchatobumazhnYy kombinat (for BRahilov), Traber), 4. Kombinat "Trekhgornaya manufaktura" (for Kareva, Huzmina).  0 6:-2> 19 0 I L fp~ A4 p".". supwws omm" a L A. t L X.- H~ .4p.- A. Ak- r. A. me" (t JIM 12 WO) A. f, 0 IL P. a- 04, in ""MIN M% H IL IL a~ ~Wma IL L to- L f. bPam gas.". roc Ott o"Amdal mtivd 4t wo sel"Irls hdmolmtml awlety or mm*psma commisAl-0 is. A. I. Few (m2), mmm, Z.W.  IVANOVAP I. S.; BOGDANOVA,_ G. ~?.; AUMMUA, T. A.; NOVIKOVj S. S. Synthesis of dinitrodiazodicarbw7lio acids. Isv. AN SSSR Otd. khim. nauk wo.l2t2236-2238 D 162. (MIRA 16tl).- 1. Institut organicheskoy kh W i in. N. D. Zelinskogo AN S M . (Acidat Organic) (Diazo compounds)  L 37208-66 EVIT(m)/MVP(j) ACC N AP6014413 SOURCE CODE: UR/oo62/66/000/004/0753/0755 f AUTHOR: Novikov, S. S.; Ivanova, I. S.; Bogdanova, G..F.;,Alekseveva. T. A.; Konnova, Yu. ORG: t organicheskoy khimii, Akademii nauk TITIX: Synthesis and certain chemical conversions or nitro- and nitrazadicarboxylic acids SOURCE: AN SSSR. Izvestiya. Seriya khimizheskaya, no. 4, 1966, 753- TOPIC TAGS: organic nitro compound, aliphatic carboxylic acid, chemical reaction, dissociation constant, heat resistance ABSTRACT: Y-nitro- and X-nitro-,Y-methylpimelic acid were synthesized from methyl acrylateland nitromethanel(nitroethane). The dihydrazides and the dichloroanhydrides were prepared. Introduction of the nitro groups in thej'-position of pimelic acids reduced their thermal stabili Dissociation constants determined by potentiometric titration showed that introduction of I or 2 nitro groups in the2(-position of pimelic acid increased acid strength. Acid strength increases in the following UDC: 542-91 547.232  ACC MR' Ap6oi441-3- 0 series: pimelic,.r-nitro-,Y-methylpimelic, 2(-nitropimelic, 3- nitrazapentane dicarboxylic acid-1,5, andr, e-dinitropimelic. Orig. art. has: 1 table and 2 equations. SUB CODE: 07/ SUBM DATE: 25Aug65/ ORIG REF: 002/ OTH REF: 003 2/2.,~~ Card  DEGTYAREV, F.G.; BUTIN, V.I.; BOGDANOVA, Ye.A.;,KPPqVA,--Q.I.; SHERSHNEVA) V.I.; MILYUTINA, L.L.)- DEZATUOV) M.G., kand. sellkhoz. nauk, spets. red. [Recent developments in the technology of mi-1k products; textbook] Novoe v tekhnologii molochnykh produktov; ucheb- noe posobie. Yloskva, Vses. zaochnyi tekhnikum miasnoi i molochnoi promyshl., 1964. 187 p. (MIRA 17-.1) 1. Vsesoyuznyy nauchno-issledovatellskiy institut moloch- noy promyshlennosti.  BOGDANOVA, G,N, Fine vascularization of the sympathetiell4ft Ln some niammals (rabbits, cats). Nauch.trudy Kaz. gos.med.irist. 14:117-118 164. (MIRA 18:9) 1. Kafedra anatomii (zav. - prof. A.G.Korotkov) i tsentrall-naya nauchno-issledovatollskayu laboratorlyn Kazanskogo meditsinskogo inatituta.  AS a O_w 9,w 0-- w 0 0 - 1 41 It I) M 4 to it 0 11 1 m I$ it w It 1: 11 m 1, 1. 0 A 0 P 5 4 1 1 '~ 1_1 AA M C W V V plot of go A JU Imflunts W tiltraviolet fadlatim upon blood metabo. 0 0 "d ebolodefol. R, V. Knuakin am Is cAkwowo-wreb. Ali, bial. ( (1". .14. N. 14.) 40"t. ~l I a ""6111,11 lira it I WiAm"O.- In 1114-11 ultravi"fit r IL -new- diatra (1) productif lnrmwd hemillysis &nil tIr d ~ p lkm of the Monti; altio, an inmakir In lymphorvirs and III Chnitst". Similar use of a wun-ray lamp (:W1111) 1111 *Iw lnducvd inmsmI hnnolviis but Irk% trilmrtmitm and on increame in chmolest,titl tot trw 'F ! z IJ I and 11 ploduml Imurl). %inillat C lbanxi.% in t hr r h f h .00 ets o etspeut The t t ilurtionfifownds. mimic of scill"I thfoultli hirsAinv"Iffic irwest" and prinutry actluft on like 111twid mils we dig. 1 W . A. 1 4-0twilt j J; LA SCIALLU116KAL LiTroOtAf CLASSIFIC411.00 CA- use '00 too U N AV 0411 I f a W W IF Cr CC It X 'Ail - j KID n I ' 04 1) Al a 3 1 Cp I, I I lp N 0 0 0 0 0 0 9 0 0 0 0 0 0 0 off 0 0 0 0 0 0 0 0 00 6 9 q 0 0 0 0  IN A I C 0 V 4 0 A L A M 0 PIP 4 1, 1 W i i r t r ! r v 00= 000 0 sit so, so, 0*2 000 so, *0, son 00- s0. oo INDIA "flouts ft -4mmp aqi p vroaAceigivil juml aql ft MW it 1jitl -N"3000 -3 V40MU4 F 0414MI4 -14 1 U1 WWAMI 04 Pam" dim -4 1o -iiij av 1PUT"WrOMPO SIM 'aff"" out INV) rips olqpmn p IND If AMIVI-~,ImAqw 14 "'"m atqjn jqi 1111 01W60 P LMIOMA J41OP4W "pit *11 'a"I 'Jimiz I-, ~60 IGH W ,~~m 011.v P- uwsa,.( vwfq"wq of -811' 0 "W"IA OU 41441 $14111mad pow $4111)014 0,00 00 99 so so* 0 0 00 00 13 too  mANov, Yu,A.; DOROnYEM, G.H.; BODDANDVA, G.7. Use of zinc organic compounds in the synthesis of carbon-carbon sugar derivatives. Dokl. AN SSSR 119 no.3t495-07 Mr 158. (MIRA 11:6) I.Rostovskiy-na-Donu gosudarstvenm7 universitet. Predstavleno akademikom A*I. Oparinym. (Zinc organic compounds) (sugar)  BOCa)ANOVA., G. S - "Development of Light Filters for Trichromatic ColorimetrT. It Sub 27 Mar 51,, A3.1- Union Sci Res Inst of Class, Ministry, of the Construction Materials Industry USSR. C-O~--k -r,~ . Dissertatiow; presented for teience and engineering degrees in Moscow during 1951, SO: Sum. No. Ws 5' IW 55.  .BOTTINKIN. 01I..doktor khim.naukprof.: BOGWOVA. G.B.,kand.takhn.nauk Light filters for objeotive colorimatry. Trudy VRIIStekla no,3301-41 153o (mm 1211) (Light filters) (Colorimetry)  iq 1VJ I/ e 1 6- 1 S, USSR/Chemical Technolog:r - Chemical Products and Their Application. Silicates. Class. Ceramics. Binders., 1-9 Abst Journalt Referat Zhur Kh1mlya., No 19, 19A 62261 Authort _~~on,,.G. S... Toaritsyn, M. A. Institution: None Title: Staining of Glass with Compounds of Cerium and Titanium OriSinal Periodical: Nauchn.-tekhn. inform. byul. Vaes. n.-i. in-ta.stekla, :L954., No 6, 34-43 Abstracti The authors have studied the transmittance, in the visible region of the vpectrum, of glasses of different composition stained vith Ce-oxides or with mixtures of Ce- and Ti-oxides. As starting ma terials the following glasses were used2 calcium glass (10% CaO3.1 borosilicate (10.15 and 20% B203). lead (10, 20, 30 and 4o% Pbo) and zinc glass (10% ZnO). The amount of Ce-oxides was varied from 3 to 8% that of Ti-oxides from 3 to 18%. Ce-oxides used alone pro- duce a pale yellow coloration. Combined use of oxides of Ce and Ti Ca~ Card 1/2   UAMIM,~ 3t ZV- t   TSARITSU, N.A.; BOGDANDVA, G.S. --..WM InvestigatiAg stresses In cemented glass tiles. Stsk. I ker. 13 no.9:15-1,9 8 '56. (MLRL 9:10) 1. Vessoyuzqry muchno-looledovatellakly institut stekla. (Glass. Ornamental) (Strains and stresses)  AUTHORS: Bogdanova, G. S., Orlova, Ye. j... 72-58-5-7/18 TITLE: Coloring of Glass by Means of Cerium and Titanium Com ounds (Okrashivaniye stokla soyedineniyami tseriya i titana5 PERIODICAL- Steklo i Keramika, 1958, Nr 5, pp. 21-25 (USSR) ABSTRACT: In the paper by X. T. Dondarev, V. A. Dubrovskiy, V. V. Follyak'-. I. Ye. Shapiro (ref. 1) the conditions for the production of glass types with a high degree of transparency by using cerium were investigated. A systematic investigation of the selective absorption of glass typos with cerium oxide content was carried out by Kapnitskiy and Keller. Cerium oxide Is never use& alone as coloring substance. In 1919 Taylor proposed a combination of cerium and titanium oxides for producing yellow glass. In a paper from 1933 it is among other stated that the coloring intensity did not change when the content of cerium and titanium oxide was increased. This was, however, not proved in the experiments carried out by the authors and in those by Vargin, Kefeli and Starikova (1954) at the State Institute for Optics. The authors of this paper investigated the dependence of the character of Card 1/3 spectral absorption on the glass types colored with cerium  Coloring of Glass by Means of Cerium and Titanium Compounds 72-58-5-7/18 and titaAum oxides. This was done to check the Doosibilitiee of the production of yellow-orange colored light filters. Furthermcrn the production of experimental types of glass is described in detail. The spectral characteristic of the gla5s was deteriairied by means of the SF-4 spectrophotometer, the general ligbt transparency and the color coefficients by means of -the eleotr'_'r, colon, eter UFK-1 , system VITISI. Three types of glass were investigated; lead-, zinc- and barium glass. The 6uitability of the glass types for light filtorS was estimated acoording to the absorption curve, as intro- duced by L. I. Demkina. The authors preferred the method of determining the differonons to that of optical density. In figure 1 the spectral characteristics of the glass types colored by cerium and titanium oxides are mentioned. The increas,m~ of the coLtent of lead oxide leads to a considerable increase of the optical glass density (figures 2 and 3). The curves for lead-, zinc- and barium glass with different oxides of alkalies are shown in figures 4-6. With all types of glass the intensity of coloring increases when the content of the oxides of alkalies is reducea (figure 7). The spectral characteristi.~s of barium glass molten on different conditions Card 2/3 can be seen in figuie 8. The light technical characteristics  Coloring of Glaus by bleans of Cerium and Titaiiiiiii 72-53-5-7/16 of 2 yellow-orange colored light filters colored by cerium and titanium oxides are mentioned in table 1. Table 2 shows the glass compositions of some light filters. The problem of the usefulness of the application of cerium and titanium oxides for the production of yellow-orange colored light filters can be definitely solved only after practical tests in industry. There aria 8 figures, 2 tables, and 1 reference, which is Soviet. AVAILABLEs Library of Congress 1. Glass-.-Color 2..Cerium oxides--Applications 3. Titanium oxides--Applica,tions Card 3/3  15(2) AMORA so" 01,vo saw/12-59-5-1/23 TITIZI alms 34i w At the VIXT Mbd#I.Yv, Cagrom, : c (9..k. .to 'I, Me ,III 1kad.10Y.Vak- o-yosd.) FMODICkLe St*klo I kornaika, 1959, Ir 5, vp 1-4 (USSR) ADSTALMs ZZ the beginning a proalmation of the Tog gpSS w t%0 Per 011301 of the building material Industries for aquallutive = &M tltati,s Incresse, of production 1. The Congress took place in Rome.. in the second half or X-',h of thO Current Year and vs. devoted to the 125th annivervary of Us great scholarlm birthday. LutstaadlnC chemists of the Sore S Union &ad ft. People'. D.-Creci.. A%tomd.d th.Condres. principal probl m f th. d.1.1opocat of : 1 ;:...d .4 the PI "Seat "' and U. "' Zinc. f 4 Agreed "oil*". Prcf.."r 1. 1. XL1A7CO-dcJd7 opened the meetings of the sub-secticu for glass and C.-o . nmrver of U. 0taces of d..ol.p..nt of So,Let clasm production " "1l a. or . number :f promising tacks In the field of alace technology. lb"ov.r. th follo.ind I&ct_~ "re held. Vctor Xrm.4 C d 1/ (people,@ R:PblLc of HUMSW7) Inve.tigatd the structure of " 4 Us top-I&Y r. of e1"41 ZM\1 I of a Inely di f,:porvq crystalline phaSo from the 91WO-liks VMS* 1. rein and (Call rep-1-4 -a ab-%, %ion spec t", lualniscew*' iM gmtoobasical properties of mrion-glcm. type-i 7 (901) ".-rttd as the queatitall,. rociproc.liZ. rdored am dim- -- - A. InOtItut k---tl Adlikatov LN SSSR (Instit-uto of Silica%* CbealstrY Of tb* As USSM).dimcned the reaccus for the diwagrwevent an the PrObIqm f thetructure of Closo-like mu!k.tanceeg Professor 0. 0, 1 1 Anwuch and IL 1. Y - Qjmns", InOutat "-ported .. the lcm-tigtim. er the glass gtruct~ by the uthod of Thermal Analyst* and OptIcea PPIazI:at1:vj 7:. T. ftd..hko (rOl) d1ve,awsod the me. method of 'I. tri Clam "rTrij and U. -Itlad of 8111c.t.0 Ity of high-froquoner currOntl ru, C. Shtsymberg reporsod an stroatives-imagnamium Clas.s oltl'o-~-t-l-"4 -A lorom for felenco m& ma hlcb be,. been d."I.Pd I- the 0 .. darstrousyy -in dovat*llokiy keraalcb#akiy Inaticut (State Scientific R-arth Imt1t.to of Corawic.)t L. S. T-st-hom _Card_2 -4 (M) diso-d the "I. plxycl-S~y werfam protection film in the do.troctl.m of .111cat. els"al :;AtjE;!fRbj, 9 (COX) di.e-..d the ccIOrIxC a%-" t.rialles ..hLI.g7 of phosphate 91.4-si 0._V _P4FImria (1.72) "ported so the mobill-ty of sodium I- Is CIL. type. of the X791-4 'L .2 0-10~Sio'l 1-va (111 Stroyt.ranik.; d1ocussed the process of subdlue the Clasen loy 1-4 o.ddo and x1rcoul-I L. jj!ALqktukc. Kmr-k-ob,17 poLitekhaicheakiy !Khar .Ikov Folytechaic Imt1t, "parted on formation and i.t.ring processes Irth. U.1"emSt'd glass lay.rl v*r1c.s types or El-.; Nj._qSAvwv (01"m ImtL te) reported ac, the determination of inywitio. In silica by spectro.co5ic aftalysist 0. a. !2 q;nl ~,,d 1- 1, Orlel. (Clac. reporlt.6 *a type. T:i rod. Cliviriltich has b.. d.,,I-d by tk... (cues I-tituw d1s.-owd the klmatl.o of, -ti a et ar.-tallisstion centers Is pbot-susitive "L% 611&:; 3yrIt.kaya (Class laotituto) dleava"t the ult. n-Trinon of the tendency of ph..ph.tt. Yet.. towards glass forastio.1 L. k_Cr#.be.Ik, 1--utrovikh. and lom-tic.tion of types of -mic-dOctioC .114. gl". .4 U. basis of '205 1 X. 1. SoLmin, L. 1. V. j~pakovv. .A.d To k. ?LZpb.rg (NIZES) discuseed tb* productlon of awtudw4l. f" on types of glass ouch tout"n compomenta .-Ily to be re:.-ted.  15(2), 15(6) SOV/72-59-3-5/19 AUTHORS; Boedanova, G. S., Orlova, Ye. 1J. TITLE: Heat-rosicting Yellow-orangre Colored Light Filters (Termo- 0 stoykiye zhelto-oranzhevyye ovetofilltry) PERIODTCAL: Steklo i keramika, 19~,9, Nr 3, Pp 13 - 16 (USSR) ABSTRACT: The investigation results obtained by 1. D. Tykachinskiy, 0. K. Botvinkin, L. I. Buneyeva, R. S. Levina, 14. V. Okho- tin, Yu. V. Rogozhin, Z. M. Syritskaya (Ref 1) in the field of colorless, alkaliless and alkali-weak glass types, as well as the investigation of the cerium-titanium coloring of glass (G. S. Bogdanova, Ye. M. Orlova, Ref 2) made it possible for the authors of the present paper to carry out experiments for the prodviction of heat-renisting yellow- orange colored filters. Glass TTr 13, worked out by the Institut stekla (Glass Institute), was used as initial glass. For their experiments the authors employed the spectrophotometer SF-4 and the photoelectric colorimeter UFK-1 of the VNISI system. Figure 1 shows the spectrum characteristics of class types containing equitl molar Card 1/2 quartities of lithium-sodium-potanni.um oxides, figure 2  Heat-resisting Yellow-orange Colored Light Filters SOV/72-59-3-5/101 shows the composition with various quantities of cerium oxides (with a constant 102o' content of Tio 2)' rigure 3 various quantities of cerium and titanium oxides, and figure 4 various TiO 2 contents (with a constant 4'*~ content of CeO2). The table given the compositions, the phototech- nical characteristi- figur-s and extension coefficients of the glass recommended. After-checking in the test glass plant proved the good properties of these glass types. Pi-ure 5 shows the melting conditions of the glass type ZhS-18, from which nay be seen that tho mass production of the glass types recomnended does not call for special conditions. There are 5 figures and 1 table. Card 212  15 (2) S/072/60/000/02/Oo/p2l AUTHORSs Bogdanova, G. S. _* Orlova, Ye. M. B015/BOO3 TITLEt Green Heat-Resistant Color Filters PERIODICAL: Steklo i keramika, 19609 Nr 29 pp 26 - 28 (USSR) AtSTRACTt The authors investigate& in-the present paper the influence of the composition of glass poor in alkali on the spectrum characteristics of copper- and chromium oxides. Thus it was possible to work out types of compositions of heat-resistant green color filters.. As initial substance the glass previous--~. ly elaborated at the Institut atekla (Institute of Class) which is poor in alkali and has the following composition was used; 61Q9% B'021 42% V90; 2% Ns,201 15-4% CaO; 16.5% A1203; 4 (more than 100) V. The spectrum characteristics of glasses within the visible range were determined by an SF-4 spectrophotometer, and the color coefficients were measured by means of a UFK-1 colorimeter. Figures 1 - 4 show the transparency curves of glasses of various compo- sitions dyed-with copper oxide. In this connection the aut'hors refer to papers by- Vargin and Veynberg. In conclusiony, Card 1/2 the authors state that it is expedient for the elaboration  Green Heat-Resistant Color Filters S/072 ,/60/000/02/900/021 B015/BO03 of glasses for green,color*filtere to proceed from potassium -glasses with a low aluzpina content,. A number of,glasses are listed in the table the color characteristics of which correspond to various types of color filters. For a~large-scale! test glass of the type ZS-73 was chosen. Melting of the latter lass under working oonditione of the Opy stekolInyy d Experimental Glass Factory) is shown in ture 5. The ugeltof 7 .quartz as refractai-Im-a-terial is recommended for malting these new glasses. There are 5 figures, I table, and I reference-', Card 2/2  RUBINSIITEYN, B.L.; YAKUBOVICH, S.V.;~,B-OGDANOVA, G.S.; BAZILEVICH, Z.A. Photometric method for determining the f5--nIng capacity (intensity) of white pigments. Lakokraoomatpi ikh prim. no.3:51-55 tWe (MIRA 14:4) .(,Pigments) ~4 i ; ---  RUBINSHTEYN, B.L.; XAKUBOVICH) S.V.; Prininali uchastiyet BOGDANOVA, G.S.; BAZILEVICH, Z.A. Photometric determination of the dyeing power of ultrinarine. Lakokrea.mat. i ikh prim. no.200-71 161. (NIRA 14:4) (Ultramarine)  L~ 10864_6 W(G)AWT~m WP(t)AwP(bVETC(m) IJP/c) j ACC Rj APS028732 SOURCE CDDE: t)R/0363/65/001/611/2005/2008 AUTHORL-JI29donMa. G.- S.-: LLtvinoV,.P* I*JA q ORG: State Scientific Research Institute of Glass tosudarstvennyy nauchno-isaledova. tellskiy institut~-Stekla) TITLE., Relationship between structure and properties in pyroceramics of the SL02- A1203-HgO system SOURCE: AN SSSR. Izvistiya. NeorgankbeskLye naterialy, v. 1, no. 11, 1965, 2005- -2008 TOPIC TAGS: glass, crystallization, silica, alumina, magnesium oxide ABSTRACT: I The change of density during the crystallization of'liass'ln the SiO?-' -AI203-MgO system containing cerium and titanium compounds wa-57-stu-ale-d by hydrostatic weighing. X-ray phase analysis was carried out with a URS-50I diffractometer and a Tesla-242 electron microscope. As in the case of pure cordierite compositions, crys- tallization goes through several stages which follow one another in a rigorous se- quence depenOnt (at standard pressure) solely on temperature. The optimum propertie: of the pyroceramic formed as a result of the crystallization correspond to the compo- tion of phase transformations and to a practically complete crystallization of cor- dierite. Within the range of the composition studied, the density can be used for Card 1/2 UDC: 546.284+546.623+5146.46  L 10864-66 ACC NRs APS028732 checking the quality of the pyrocermic. K. V. Zhuchenko and Yu. A. Ivanov partici- pated in the work. Orig. art. has: 3 ft I guress jq StM ODDE: 07,.-/ StMM DATEt 17Apr65/- ORIG REF: 010/ OTH Mr: 001 id 3rd 2/2  L 10861-66 ACC NR, APS02 33 SOURCE CODE: UR/0363165/001/01V2009/2013 4* AUTHOR: Bogdanova, G. S.; Orlova, Ye. M.; Zevin, L. S. OIRG: State Scientific Research Institute of Glass4' iGosudar-stvennyy mauchno-issledova- tellskiy institut stekla) TITLE: Phase comDosition of pyroceramics In the system SiO2-A1203-DaO-TiO2 SOURCE: AN-SSSR. Izvestiya. Neorganicheskiye materialy, v. 1, no. 11, 1965, 2009-2013 TOPIC TAGS: titanium dioxide, catalyzed crystallization, glass ABSTRACT: The phase composition of celsian base pyroceramics was studied at various stages of the crystallization process. Titanium dioxide was used as theecrystalliza- tion catalyst. X-ray diffraction patterns were obtained with a URS-501'aigfraeto- meter.kO In those glasses whose main composition was in the celsian range in the phase diagram of the S102-A1203-BaO system the win end product of crystallization was 0- celsian, independent of the initial stage of crystallization. At this stage either the a or the 0 modification of celsian separated out. After 0-celsian has crystalliz- ed out completely above 10500C, the composition of the residual glass phase is in the UDC: 546.284+546.623+546.431+546.924 1/2  L 10863-66 ACC NRs APS028733 aluminum Al TiO range. The presence of aluminum titanate in the composition is indi- cated by a marked increase in the dielectric constant and by x-ray phase analysis. OrIg. art. has: 2 figures, I table. SUB CODE: 07,4 SUBM DATE, 02Jun65/ ORIGREF: OOS/ OTH REF: 003 1HLJ ctjr4 2/2  M WH/WW MW(") - ---------- ACC NR, 176007262 (A) UR1036316610021C)021038010353 AUTHOR: 42ganova, G.S.; Orlova, Ye.M.; ~Ovllnl L.S. ORG: State Glass Institute (Gosudarstvonnyy Inatitut stekla) TITLE: Amount of the crystalline phase as a function of heat treatment conditions in mi rocrystalline glasses (Pyrocerams) of the 3102-A1203- BaO-TiO2 systeml? 16 ~11 ISOUROB: AN SSSR. Izvestiya. Neorganicheakiye materialy, v.2, no.2, 196 .380-383 ITOPIC TAGS: glass property, OEQ;u RKSitivc X ABST ACT: The article reports a study of the dependence on heat treat- Iment conditions of the amount of the crystalline phaoc In vilorucrystal- .line gla--sc-s offseveral different composit.1ons, _U1 which the product. of lqry.ptalllzation~is only beta colclan, and the proper'les oC thesk, MI ro-, _A_ 'L c. The, compositlon of the glaojer, curresponded Lu 65-1, 1-,cight 10 colziin. The alm of tho ~_;ork was InvuutlgaUon of Lho puuo- '~Ility Of Controlling them i _propertles of microoryotallIne glasses in a I iC7iven system. The content of beta celsian In the jalcrocrystalline 'glasses was determined by qLiantltatlve x-ray analysis. A fiGure shows the dependence of the amount of beta celsian un the heat treatment temp- erature. Card - - - 1/2 TTT)n! --61, '542.65  L 22283-66 71 ACC NR, AP6007262 For all compositions, the amount of beta oelaian at first incrensea slowly, then rapidly and, finally, attains a constant value. At a tomp-I erature of 950-100000t the amount of the crystalline phase and the val- ues of the properties reach practically constant values. Further in- crease in temperature leads to a growth in the size of the crystals formed from about 0.2 to about 0.5 microns, but does not exert any significant effect on 'the properties. Orig. art. has: 3 figures. SUB OODE: 11, 20/ SUBM DATE; 25jul65/ ORIG REF: 002/ OTH REF: 001  L 32183-66 EWT(m)/ENP(e)/T/EWP(t)/ETI IJP(c) JD1W11 ACC NRt AP6011324 (A) SOURCE CODE: UR/0363/66/002/003/0537/0540 1AUTHOR: Bogdanova, G. S.; Orlova, Ye. M. 3 1 13 1 'ORG: State Institute of Glass (Gosudarstvejinyy ins.titut stekla) I `~ IV, 1 1/1 I'l ~;q ITITLE:k Structural transformations in Si027tj2O3-Raq.-!Li02 glasses during the initial istages of crystalli'zation e - b:r i 15 ISOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 3, 1966, 537-540 TOPIC TAGS: glass property, silicate glass,. thermal process, silicon dioxide, alumina, barium oxide, titanium oxidr, crystallization ABSTRACT: Structural changes in Si02-Al2O3-BaO-TiO2 glasses caused by thermal treat- ment were studied. The changes in glass properties as a function of thermal treatment for 2 hours at various temperatures are shown in figure 1. It was found chat thermal treatme*nt Of Si02-Al2O3-BaO-TiO2 glasses leads to irreversible structural changes whic hinder crystallization processes. 'These structural changes are exothermal in nature and they are caused by coordinative rearrangements of aluminum ions within the glass lattice. Orig. art. has: 4 fig ~-es. UDC: 666.1:542.65 c.,d l/ 2  L 32183-66 ACC NRt AP6011324 r OG S' .7 (a) 1200- W-4 celsian (barium f eldspar) 4'0 //00- (b)-~---temperature of thermal 1,900 - treatment, OC 70 46 6WO 4 so - 59 414 70 -100 40- J, 1Z 40 - 10 210 v - -too - 0 v 1600 MMU, F94f W.7 b) ~a M~~O Fig. 1. The dependence of density (d), expansion coefficient (a), glass softening tem perature (Ts), and crystalline phase content (% celsian) upon temperature of thermal treatment (for two hours); the shaded bar depicts the degree of glass crystallization, glass transparency declines toward right end of the bar; 1--d, 2--a, 3--Te, and 4--% celsian. SUB CODE: 07,11/ SUBM DATE: 25Jul65/ ORIG REF: 008 L_ Card 2/2  ZHDkNOV, Yu.A.; KOROLICHENKO, G.A.; DOROFEYKNKO, G.N.; ~~R~IFA, G.V. Synthesis of new C-glycosides. Dokl. AN 3SSR 152 no.ItIO2-105 S 163. (MMA 160) I. Rostovskiy-na-Donu gosudarstvennyy uniyersitet. Predstavleno akademikom A.I.Oparinym. (Glycosides)  1.0i'MAINIVA, G. V. .~6657 Sluchity okhinokok~n orbity. Vestnik oftlalmologii, 11)1,19, no. 4, s. 4o-41 SO: LETOPIS 1 110- 35, 1949  ZHDANOV, Yu.A., doktor khim. nauk; DOROPIMNIM# G.N.; KORDL'GM60,G.A.t'f' ~C~GA~QVA G.V..-. FEDOROVA. T.P.v red.j SHVETSOV, S.V.,tekhn.red. [Laborator7 work in carbohydrate chemistry) Fraktik", po khimii uglevodov. Pod obshchei red. N.A. Zhdsaova.,1P-P-l Rozvuzizdat, 1963. 119 p. (*IRA l6t6) (Carbohydrates)  ZHDANOV, Yu.A. ; BOGD.UOVA, G.V.; ZOLOTUKH13A, V.G. Condensation of the al-forms of sugara with 4-hydroxycoumarin. Dokl. AN SSSR 157 no-4017-918 Ag 164 17 t8) 1. Rostovskiy-na-Dmu gosudaratvemnyy iuilversitet. ll~-edstav- leno akademllkom P.A. Kazanskim.  L 14187-M M(I)/rcc GW ACC NR: AT6004150 SOURCE CODE: UR/2!531/63/000/167/0053/0058 AUTHOR: BoRdanova, G. .; Ka 5* ORG: Main Geophysical Observatory, LUmeni d (Glavnaya goofizicheskaya observatori- ya) - TITLE: Experiment in calculating the characteristics of thermal and dynamic inter- action between sea and Atmo ARhftre 56 SOURCE: Leningrad. WGlavnaya geofizicheskaya observ atoriya. Trudy, no. 1, 1965. Fizika pogranichnogo sloya atmosfery (Physics of the boundary layer of the atmos- phere), 53-58 TOPIC TAGS: meteorology, computer application, atmospheric interaction ABSTRACT: A theoretical study of thermal and dynamic interaction between sea and .atmosphere is used as a basis for prugramming a digital computer to calculate the distribution of the characteristics of interaction between sea and atmosphere along the Meridian section between the tropical Atlantic and the North Pole. A blocx dia- gram of this program is given for a three-address computer with floating decimal Card 1/2  L 14187-66 !ACC NR: AT6004150 point. The program includes calculation of the altitude of the boundary layer V~ , j depth of the friction layer, temperature of the active surface, coefficients of tur- ' At bulence in the atmosphere an4 sea, components of velocity of the surface friction, '! t '_ hrougb evaporation for the various sea- and turbulent heat exchange and beat losses f sons of the year. Curves are given showing the-results,of calculations of these - 0 characteristics for winter. A comparison of theoretical and experimental data shows 4 . satisfactory igreement for surface'temperature which Is a good indication that,-the other characteristics are also reliable. The proposed computer program may be used for solving various problems.InJuteraction between sea and,istmosphores. Origo. atts, i has: 3 figuresq 6 fbrpntlas6 SUB CODE 9', O89q9t SUBM WEr %OJUG YXIFf-If 005/'~ 02 f I ;Card 2/Z  Fassift's law vied curreat OGd*ftCy in tho *lOctrolysis of toad a". 11. The rok of Use current de"ry at the doolvedes, A. P. Alnbpbcv and 1. A. IloSdAnova. Bier. PriNed. Kbin. U. ApVird Chem.) 20. 507-fN 1941), Ch*w.Zesir, I I . 1, WO, cf. C-A - 42, le-131- opts. an fund PbC6 showed the preJontlfwnt InOw" of the cathodic c.d. oa the current e(Ficicary. Atacionst.- Ocatboldic CA., a change in the anodic CA. within wide limits (0.125-2A) amp./sq. cm.) bad practically no effect on the Ph yield. However the current vilicienry for the deposition of Ph, v (in 7vj. changed with the cathodic CA.. D&. according to the equalim q - 100 - (bIDI), ba which 6 is the tartal Som (in 7.) at D6 - 1. I.I. G. Moore  rlic I 00 19^ & loll.- Im 004 13 0 of pis Ow oo'Xnmb- 0 004 be "am tm P-n 'A ~m 8 j ;0 W age 00 li 6. O by JNUJJ Joe COO see m* - fit&-%LA MIALLUftCAL LSTIN41VU CL&UOIC&ION $k -V* Koo a * 0 , I,- M II I W0 - - I W 0 t A 4 34 1 u0AT so UI N' ila, 4V 000000 0 0 0 0 * 0 0 0 0 0 0 0 0l of: :10 0 a 0 0 o 0 0 * 0 0 0 0 0 0 it to 0 0 T1401 0 0. 0 0 a a 0-0-0 00 0 0 0 0 0 0000000000000000*0000  - ------- - - - "b In AIRAJIL91 Ctritim no IA .-Th-v leabsutplion u1 t4- 111bt by the soture wai Tlu'Jkd Unde-T Cou'diiinns 0 s4sdit- charge. Expm wtncarTied out wltb C3at vapor of CS X jo 1 x 10 and 2.15 X 10 Nit cc,-? of absc;rptima, wa3 dtid. for differtnt SP-LvtW linm Rovtw Leach  V t u! 0 1 !11,x :jwt,,t for S.~Vt~n Spec-tral lill,2 V 'r atvk, &to iza!vi Cu!'Xc. 'lf in Or! MtWstAbll! 'ev T! 4 r . A 10- wid di~. -n, !,l, tint b, Ih,, ;!I o- the D,, -;ml Dl.1, "l, wit, An T.' vapill-s-n Ine dutu ':,uw 0--it t:1 cc t ton ceilis*pon the jrnrl!R'-)ns 6)Pq, r,'D-, in the -11 atayn linve greattr prolabllj~y th3n the, MSD,~,, mcul. Clllzl-', - -;'D,,, tr4n,~jl~ii?iis. I the Itirst jv.~r vmm-md lrm~:A.om in .1&nt n ~Jlvmge in the dirccfi~ln -,), r1tvron Anin -Oallve to thc fit the nrith u Change ill thel orbital vlolnem; in th~ svoond vN11r , (ErMija ol ,I;L: spin. Apr,2~ymlly, sluflng the x)mlzastic cellisionF- of e1cctTor,5 the tmnsi-jons inviAving the rhang? in the di7taiDn of the s-pin are lcs~ proWMe. 'Fil"s can- , clusion wa, fvrthcr coatirmed by the dircut in-a~wruuvnt of V-) ! T th.- (Tunctior. i"TO. I ", t -Aj rderences. jo - ~ - ly ~ - ~ I\ k  IY tit*4 a or tho dinh '40 IU '"14 G*-?~'kntx Ov !S~Tkntx urk*- V. 117). Cy"M1=71 lubt -with a- bO&M ( Join. in di=.; and 120 tam, tons) W.U Usod f4 i, CI t a of M. th ex t4 So Inam'. Ole t;vtlz(xle -was plttO d a Pomelita isk &hN.. 2 in-M.- k) "bkb-wa eck ush jeasa. as to= cd thro - A in ft acil Mo -vk to an iron In OTdrr 0 the -mt of t Vary the 4~155'vhaix by MrAns of IL MInd. t tutc Th With,Z VAItf-CiVIOd ZID.33 lnt~ Me:L=o2=t$ ka distbup tube (15 =in. I; di=.), it out end of whkb was Stated a cyliudrim'j probt (4,7 mm. long, 0.2 mm. iu &mu.). The tube vu2 amn-Naed to a d.~c. iz~ume. CA.wav varled from 01 to 4.3 whUt pas.,,aa ir,36P tht tube vm2 kept the emu w1fou tInd sluuX the cmhodc axes, 11it spcarum',was photagApbcd with tht aid o! a glas:I 0,)MtraVAI)b by u%ing a priun of tunst. deflectimi and lte:ib 'tk)n sq.1 measumd far the following bands of Nr( x In A UM 3SIPS B.OP#). 3PIDO, 0074, 6 -.01 W4 3P1,S4, 'D~. IN, And 341pt and 33,P2.3.4 1--vels-the 311P, Iry-A unit in the pas. b=in Bj%livrl litre popidateil reutivrIF strongly. In addn., Lbe Mtirer group of leveh In the P*I, column W" mElt PLV43, litted th--m in tht hollow cftthode~ Dn tht othcr 4=d, the group 0 biSli It% ds, v'p'rj and Sp4h,% In hallovi ciitWe- w&; OrAIT 1KIPul3ted as t=wo with the pas. beam. The hIgh kvrlls tot IM Ions "tie LUrawift excived in diflexeiA pots alnng the sits of the hollow cat odt: same were ex -eA inantly near the cathode eftes, the others ia cited p; am'. tbe cmw. The Popubtian of Ne kk= I% lines (X in A,) 4290 Ne it, -L tjU"F*/s - 41'G,/*), 4467 N Ne n, 44F;8 jj~ 3p%) %vere very Semative to YCb .1 electrous. P. Kotlohy _0  tl114~ _z~ Iq AUTHORS: Bogdanova, I. P. and Gi-Tkhek, Ch. TITLE: On the Excited Neon Atom Densities in a Hollowroathode Discharge. (0 kontsentratalyakh vozbuzhdennykh atomov neona pri razryade v polom katode.) PERIODICAL: Optika i Spektro okopiya, 1957, Vol.II, Nr.6, pp. 681-8 (USSR) ABSTRACT: This paper reports quantitative studies of the process of spectrum excitation-in a hollow-cathode discharge and its dependence on the discharge parameters: current density, gas pressure. The measurements were made on neon discharges. In parallel studies in a positive- column discharge the current densities and gas pressures were the same as In the hollow-oathode discharges. For the hollow-oathode discharges a glass tube with a cylindrical cathode wad'used (Fig.2). Inside the cathode a porcelain dise was placed. This dise aould be moved inside the cathode and the internal depth of the cathode could thus be varied. Fig,3 shows a discharge Card 1/4 tube used for the positive-oolumn studies. Both  on the Excited Neon Atom Densities in a Hollow-cathode Discharge. discharge tubes were supplied with high-voltage d.c. The spectra were photographed using a glass-priam spectrograph with 125 X/mm dispersion. The working conditions were chosen to make the discharges stable and the emission uniform. The current densities were varied from 0*7 to 4*3 W=2, the pressures from 0.5 to 1.1 mm Rg. Populations of excited atoms of neon at the levels 384l and 3s'3P2.,l..O in the hollow-cathode and positive-column discharges were determined using the re-absorption method. 'The measurements were macLe on the rollowing Ii-nes: 5852, 6266, 6074, 6096, 6506, 6945, 6143, 6402-T.- The re-absorption of these lines was found from the ratio of the intensities of the lines emitted by a long column (9 om in the hollow-cathode, 12 em. In positive-column discharges) and a short column (3 cm in the hollow- cathode, 4 em in positive-column discharges). The dependence of these ratios on the.current,density and gas pressure was determined. The measurements were Card 2/4 made at pressures of 0.5, 0.7, 0.8 and 1.1 mm Hg,  51-6-1/26 On the Excited Neon Atom Densities in a Hollow-cathode Discharge. and curreRt densities of 0.7, 1,4, 2,1, 2.9, 3.6 and 4.3 mA/cm - From the-value of re-absorption the numbers of dispersion centres Nf were found using tables given in Ref.3. Then, using the values of f (oscillator strengths) for neon lines given in Reftl, the populations of the excited atoms at the levels 3slP, and U3~2,,,o were found. Figs.6 & 7 show the dependences on the current density of these populations in the hollow-cathode and positive-column discharges. Measurements of the absolute intensities of the lines, whose upper levels are 3p3Pn and 3p3D 3,21 make it possible to estimate the degree and the nature of the excitation of these levels. The dependences of the populations of the latter two levels on the current density are given in Fi s.8 & 9. In the hollow-'cathode discharges the 3slPl level is the most densely populated, in the positive-column Card 3/4 discharges the 3s3P2 level has the highest density.  Z51 -6 -1/26 On the Excited Neon Atom Densities in a Hollow-cathode Discharge. In general all the 3slPl and 3s3P2,1,0 levels are more densely populated In the positive-column discharges than in the hollow-cathode discharges. On the other hand the 3p3PO and 3p~%,, levels in neon are more densely populated in the ho ow-cathode discharges. Measurements of electron densities and electron temperatures in the positive-column discharges were also made. The results are given in Figs.4 & 5. Fig. 11 shows that the spectral lines of neon ions are excited to a different extent in different parts of the emitting column in the hollow-cathode discharges. Certain ionic levels are excited at the edges of the hollow-cathode, others in its middle portion. There are no ionic lines in the positive-column discharges. This indicates that the mean energies of electrons in the positive-column discharges are considerably lower than in the hollow-cathode discharges. This work was directed by S.E. Frish. There are 11 figures and 5 Card 4/4 references, 3 of which are Slavic. SUBMITTED: November 10, 1956 AVAILABLE: Library of Congress.  YRISH, S.M.; BOGDANOVA, I.P.; KRAUIJUU, R.K. I T ." --- -71F sportance of efiectlVe atomic cross sections in the excitation of spectra. Fiz.abor. no.4:54-56 '58. (MIRA 12:5) 1. Fizichaskiy inatitut Leningradekogo ordena Lenina gosudar- stvennogo universiteta, imeni A-A-Zhdanova. (spectrum. Atomic)  AUTBORS: Frish, S. E.', Bogdanova, I. -P. SOV/48-22-6-4/28 TITLE: The Excitation of Spectral Lines in the Negative Luminescence of a Gas Discharge (Vozbuzhdeniye spektmllnykh liniy v otritsatell nom svechenii gazovogo r&zryaaaL) PERIODICAL- Izvestiya Akademii nauk SSSR, Seriya fizicheskaya, 1958, Vol. 22, Nr 6, pp. 659-661 (USSR) ABSTRACT: In earlier works (Ref 1) the existence of a surplus of fast electrons near the cathode had been ascertained by measurements carried out with probes, As these electrons influence the ax- citation of neutral atoms, it must be assumed that, within the range of negative luminescence, a different energy distribution of atoms and also a different distribution of intensity in the spectrum must take place. For the purpose of discussing these phenomena, the present paper investigates the gas spectra forming in the interior of a hollow cathode. Neon tube discharges were used for this purpose. The measurements mentioned ~&s being carried out in the paper by Bogdanova and Chen-Gi-Tkhek Ref 2 %Yho used a discharge tube with hollow cathode (15 mm diameter and Card 1/2 130 mm length) are referred to. In the interior of the cathode a  The Excitation of Speatral Lines in the Negative. SOV/48-22-6-L/28 Luminescence of a Gas Discharge small porcelain and magnetically adjustable disk waa fitted. In this way it was possible to adjust the length of the column of light and thus to attain the line-reabsorption value which Ma assumed as a basis for calcul&tioas (Ref 3)~ For states of higher energies relating to the neon-electron-configuration 2p5 3P the absolute intensit~r I-ines are taken into account. Thrr.4~ diagrams illustrate the concentration of neon atoms in various states and at pressures of 0,7 torr. There are 4 f1gures and 3 refer- ences, 3 of which are Soviet. ASSOCIATION: Nauchno-issledovatel'skiy fizicheskiy institut Leaingradskogo gos. universiteta im. A. A. Zhdanova (Scientific Research Institute for Physics of Leningrad State University imeni A.A.Zhaanov) 1. Gas discharges--Spectra 2. Atomic spectra 3. Atoms--Enezgy Card 2/2  21(9),24(0) PWZ I BOOX RIPWITATIO' SCAF/322 kkadoodya nauk SSSR. FIZIchfskiy Institut lmol*dovanlyo. po oksporlnilntal'noy I laorotlcnokoy 11.1k.; tbcrnl,~; (St~dlss on ZAperlzartAl ar.4 'rcoret1call Physics; Collecttvn of Articles) Moscow, lzd.vo AN SSSR, 1959. 304 p. Errata sllp inserted. 2,300 copies printed. Md.t 1. L. Faboltnskiy, Doctor of Physical and Mathematical Set- onces; Zda. of Publishing H.use: A. L. Chernyak and V. .2. Borkgaut Tech. Id.: Tu. V. Rylina; Comalssion for Publishing the Collection in Mosiory or Gripriya samutiovien lotndxborg: 1. Yo. Zaztm (C"Irman), Academician; K. A. Ls~ntoyich, Academician; P. A. Bazhulln. Doctor or Physical and Mithda3tical ScIerces; S. L. Randol-shtam. Doctor of "Ical and Mathematical S,-_Iencos. 1. L. 7abolinaklyj Doctor or Physical and Mathematical 5cte-,.coa; F. S. landaborg-Bary3hkriskays, Candidate of Physical 2.nd KAth- swatIcAL Sciences; and 0. P. X3tulevich (SecreCarY), Car-I'date of Physical and Mathematical Sciences. FURM32t This book to intended for physicists and rese&:~,cherm engaged In the study or electromagnetic rallations and role _&n_4vastIga~ibe tho-structuro and comp.colt .1.on of mat*rtall s. COVZRAaK: The collection contains 30 articles whIch_'r4V.IWW_____ investigations In spectroscopy, sonic*, molecular optics, seml. conductor physics, nuclear physics, and other branches of- physics. The introductory chapter gives a biographical pr-ofile of 0. S. Landeborg, Professor and Head of the Department Df optics or the Division or Physical Technology at Moscow cut- varsity, and reviews his work in Rayleign scattering, cc=bat gas**, spectral analyst* or metals, etc. No personallt-les, am mentioned. References accompany each article. peemnt. 15. 1. KInetics of the Action of Light OaaOs an Zbe Intons ty or Absorption Spectra of Vapors of ArO=Atlc Coca- pounds 149 Obrolmov, r. V. and Y _I_Trtkh2y, The Resistance of Kits re-RUPTU"long Me Cleavage Plane 159 Rric"A ". The Correlation Theory of Rayleigh Light Scat- to 175 Sobellson 1. 1. The Quantum Machoolco Theory or the Into-nmity Lines 192 Sushcblnzkly, R. H. Dependency of the Width of Combined- of the Anisotropy or a 'Derived Polarliability Tonsar 211 To", I.- Ye Prevent State of the Theory or weak Internet!_-rzz --of ZLOontary Particles 218 Tu"rwaq~ L. A. and 3. A. Chayanor. The IllumInatlon or Dielectrics in High Zlectric Fields 211 Ukbolin. S. A,and M. Z. Przalw. Investigation of Combined In H202-H20 and 0202-DioxAne, Solutions 244 F*boll"k1r, 1. L. The Thin Structure or Lines or Rayietgm -L1if?it7-Satt_*_rUa in Costa 254 The Role of the Group Spood of Light In Zr"d:A- tiOn In A Refractive Kedlum ;61 PrIsh. S. It, and 1. ?._�?Ld2noys. Excitation of Spectral Lines At Gas Discharge 275 Fria hbq=.-A-A , 4 The Possibility of In_cr#a4lng the Sensitivity of the Spectral rmtermination or Some zlesents 087 A~Rql'r&NX The Interpretation of Spqctre of Aromatila Hyd In Proton Crystalline Solutions 296  T^-4( 7 AUTHOR: Bogdanova, I. P. SOV/54-59-.~-3/2 TITLE: -Va=TM-enT-of--th-e "Optical Excitation Functions in Re'tarding Electric Fields PERIODICAL: Vestnik Leningradakogo universiteta. Seriya fiziki i khimii, 19599 Nr 3v pp 15-18 (USSR) ABSTRACT: In investigations of the optical excitation function fine- structural lines have hitherto been observed which on the one hand are ascribed to cascade transitions (S.E. Frish, and I.?. J"Uapesochnyy, Ref 2), on the other, however, the observed 2 maxima of a line ha4 to be 'ascribed to the excitation function of one and the samo level (Friuli and V. Ye. Yakhontovat Ref 4)- Computations made by V.I. Ochkur confirmed the latter .5). Electron beams of high inten3ity but of 3ow assumption (Ref ~L velocity had to be veed for measurements of the excitation cross sections. This was achieved by using a retarded electric field. The velocity cf the electrons in such a field and the potential distributio,i between the two electrodes,,,as well as the electron density In the beam were computed. A similar Card 1/2 problem was dealt with by V.S. Lukoshkov and S.D. Gvozdoverov  Measurement of the Optical Excitation Functions in SOV154-59-3-3121 ketarding Electric Fields (Refs 2, 3). The excitation function of the Hg-lines X n 5461 and 5791 1 was measured in tubes as are used .according to the method by Hanle. The two electrode potentials were + 21 and -4 and -8 v. A fine-structure of this line which is due to cascade transitions was observed from the excitation function of the line A - 5461 1. An agreement was found between the position of the maxima of the excitation function with the corresponding results obtained by Frish and I.P. Zapesochnyy (Refs 2p 9). There are 1 figure and 9 references, 7 of which are Soviet. SU13MITTED: April 15, 1959 Card 2/2  BOGDAMVA I.P. -11~~~ Measurements of the optical excitation functions in ratnrdirg electrical fields. Vest.LGU 14 no.16:15-18 '59. (MIRA 12!10) (Spectrometry)  204)024(7) SOV/53-69-1-10/11 AUTHORS: B Mogdanov~aio ~P* ~oohkova, 0. Pot Zaydelf, A# Noy _Ova. V. Mo. K h : hazova, V. Me. Kagan, Yu. Me t K&1TtqYaY8ki7t No I., Penking No Pot Chaykap Me P.,Shukhtint A. Me, Lipis, L. V. TITLE: Sergey Eduardovich Frish (Sergey Eduardovich Frish). On the Occasion of His Sixtieth Birthday (k shestideayatilatiyu so dnya, rozhdeniya) PERIODICAL: Uspekhi fizicheskikh naukj 1959, Vol 69, Nr 1,pp 165-167 (USSR) ABSTRAM On June .19tht 1959,the well-known Soviet physicist So Zo Frisht who made a name for himself especially in the field of spectroscopic optics, attaineA the age of sixty. He began his scientific work as a student at the fitiko-matematicheskoye otdeleniye Leningradskogo universiteta (Physico-mathematical Department of Leningrad University) under D~.S* Rozhdostvenskiy. After completing his university studies he continued his work at the Gosudarstvennyy Opticheskiy institut (Optical State Institute), Since 1934 he hold a chair for optics and supervised work at the Physics Department, first as dean and later as director of the Nauchno-issladovateltakiy fizicheskiy institut Card 1/3 LGU (Scientific Research Institute for Physics at Leningrad