SCIENTIFIC ABSTRACT YASHINA, N.M. - YASHKIN, A.YA.

YA atUJITIfira 24/X 19 A.-AILY-Utu- 3 r.: a COaCTC KiiprI13cicoro mexamixxoro immi. TYTa AHMPTaIIIII0 113 TeMy cK.4Dtje&A;e aeficralM KOPCAthcoHa npu cep(7eqnot1.uei)oc-ra- :70q8OCTU C*OCo6aA yqeToit pekimb7arod mexrpomap0uopaOuqecKozo itcctcr)oaaijjij,~. r1PII13eACIIL1 KAIIII11tiewie Ila6ztoAcima iia:E AeACTUHM KOprauxona y 6onbitux nopo- aami CePAIla, K2PAIIOCK,1LPO3OM It CIUMptimm urottitoro CCPAL(a npit iteaoCraTOMIOCT11 apoooo6pamemm. YeTamoneim no'.Mamm K 11PUMC11011110 KOprim)(011a. ero A0311POBKa it tipeumptecrBa RO CPa13IfCIIIIIO C Aummmicom It CTPOkbMIT11110M P113,11111111,15111 ro(OaRlia- 111111CMIMIt Temamit it 3zeKTPOKaj),1II0rPa4HIefj. Candidate of Medical Sciences Dissertations approved bY the Higher Attestation Comdasion in January and February of 1961. Terap. arkh. no.6s 117-121 161  YALABINA, A.V.; TYURAVRINA, IJ..4,; YASHINA, O.G.; WFNQ, L.P.; FROLOV, YU.L. Synthesis and properties ~)f vinyl etbers of some, bir!hr~r pho~m,) a. Izv.vys.ucheL.zav.;khimA khim.tekh. 4- no.4:626-631 161. O-LIRA 15:1) 1. lr~-utskiy Fosudarstvennyy universitet imeni Zhdaniva, kafedra vyso1,z,)mo)ekulyarnykh soyedinerdy I orgunicheskoro sinteza. (Phenols) (Evers)  KOTLYAREVSKIY, I.L.; VEMIICHAGIN, L.Y.; YASIIINA, 0,G.; VASILIYEV, Ye.K.P. FAYERSJIME 11, YU.M. Pyridylacetylenes. Feport No.I: Synthesis of pyridylacetyltine alcohols. Rv. Sib. otd. AN SSSR no.9:80-87 16Z ' (MIRA .17:8) 1. Irkutskiy institut organicheskoy khimii Sibirskogo otdeleniya All SSSR.  KOTLYAREVSKIY, I.L.; VERESHCHAGIN, L.I.,- YASHINA, O.G. Pyridylacetylenes. Report No. 21 Synthesis of pyridylacetylene alcohols by Favorskii's method. Izv. Sib. otd. AN SSSR no. 11: 148-150 162. (MIRA 17-9) 1. Vostoohno-Sibirskiy filial Sibirskogo otdolaniya AN SSSR, Irkutsk.  KWUAROVA, A.G.; MIRRAGIROVA, Kh.M.; ISKEIMEROV, I.A. Stud7ing the aging of bituminous coatings in marine conditions. Azerb.naft.khoz. 36 no.1:42-44 J& 157. (MLRA 10:5) (Corrosion and anticorrosives)  FIIANLAROVA, A.G.; TASHIIIA,_R.A.-,,.MIRBAGIROVA, Kh.14. Oxidation of bituminous coatings on metals applied b7 the cold method in offshore operations. Azarb.neft.khoz- 37 no.12:42-44 D 158. (MIRA 12:3) (Bitumen)  I.--A iiew*6vfncv at ;1-fin rocks In soutbeatern Tuva. _ ` " ukS.S.S.R- 105, 1321-4 R.M.Yasbirta. Pckk;dyAk4 d Ta ch acteri d b a Hi hl d9 an ar ze are g y great no. of intrusive bodies of alk, rocks, from 0.2 to 45 sq. km. in area. especially in the upper valleys of the Martys and Balyktyg-K)2em rivers. They are chiefly neplieflne 11yealtes, urtites, ijoute-urtites, augite-11011tes, schoslomite L-ijolites, metteigites, ringites. kosenites, thrralites, and essexites. Unique am rare calcite-nepheline rocks, related to Proterozoic and Cambrian marbles, coarse-graimlar limestone -and greenston". Arkhanget'skaja and Kats ' ' icries as of cal. explained tbe slk, Careous rocks by gronites and grutiodlorites lutruded*0 jism. The Sangilen complex Is In Its petrographic character far to the well-known massive of the Kola Penninsula. The l id h l t d i i k l s over re ve e ittus oris ex en at on of the al y w inject . ~eol. horizons, earlier or later than the post-Caledonlan 9:nites, ganite porphyries, aplitts, syA:nites, etc. CharA d Tf- on f fluorit d i olivin h m ti t i l f t on o tun re or a z ac et st c t e e, , . magnetite, TI-augite, and spailte which Indicate an exten- sive differentiation of Imilito Magmas. And tin assimilation of carbonate rod(*. alswl. with a doillifledtiou. Three braticheb am d6tinguished; sulmik. acidic rocks with K > Na: alk. rocks, with Na > K, unsaid. with Si0j, contg. nepheline; basic rocks, with Ca > (Na + K). unsaid. in Si%, enriched in CaO from assimilated carbonate material. with olivine, schortomite.- Stualt-sized dike injections of is alk. rocks occur between the marbles and granites, horn- blende-nephtline sycaites. blotitc-neplieline syenites, of metasornatic osigin. Albitiration Is abundant, in segidne Wariupolites and albitites; typical hybrids occur in tectonic marbles, in which occuir also assimilated carbonate xeno. ~Hths with apittite, andradite, schorlowite, dlopside, farther layers of the caxtionate-nephelitit rw-ks I utioued. and true dry",  /T SUBJECT: USSR/Geology 11-5-2/15 AUTHOR: Yashina, R.M. TITLE: Alkaline Rocks of South-Eastern Tu'va (Shchelochnyye porody yugo-vostochnoy Tuvy) PERIODICAL: Izvestiya Akademii Nauk SSSR, Seriya Geologicheskaya, 1957t # 5, pp 17-36 (USSR) ABSTRACTt A new province of alkaline rocks was discovered in the terri- tory of south-eaetern Tuva. Over 20 intrusive bodies of alkaline rocks were found by various explorers within its boundaries. The author describes various intrusive, contact and met&- somatic alkaline rocks, peculiarities of their composition and mineralization, and draws the following conclusions; 1. The new province of alkaline rocks has not only great scientific but also practical importance, because there are prospects of finding there rare-metal ores and potential -possibilities of nepheline utilization as raw material with Card 1/4 a high alumina content;  11-5-2/15 TITLE: Card 2/4 Alkaline Rocks of South-Eastern Tuva (Shch*lochnyye porody yugo-vostoohnoy Tuvy) 2. The development of alkali magmatism occurred under conditions of existence of a solid massif of the plateau type (the Sangilen highland) which was mainly composed of terrigenous-carbonate rocks of the Proterozoic era. Its completion, as a large geologic structure, was apparently ended during the Cambrian period. 3. A peculiar trait of this now alkaline proyince is the presence of numerous small bodies, different in shape and material compositiont associated usually with tectonic dis- turbance zones. Both primary-magmatic and metasomatic alkaline rocks take part in their formation. 4. The alkali magmatism of south-eastern Tuva manifests itself in 2 large natural associations of alkaline rocks accompanied with their contact and metasomatic formations. The first natural association includes non-feldspar rocks of the "urtitell-iolits typo. The second natural association of alkaline rocks combines feldspathic urtites, various nopheline syenites, quarzitic and non-que,.;zltic alkaline syenites;  TITLEt Alkaline Rocks of South-Eastorn Tuva (Shcholochnyye porody yugo-vostochnoy Tuvy) 5- By their stratification conditions, alkaline intrusionb of the iolite-urtite composition are connected with pyro- xenites (Dakhunurskaya) and those of nopholin*-syonite com- position with granites and granite-eyenites (Ulanorginakaya and Korgeredabinskaya). This makes probable the existence of a genetic affinity of the first intrusions with basic or ultrabasic magma, and of the second intrusions with granitic magma. Roentgeno-chemical analyses of 42 zirconium samples from granites, nepheline and alkaline ayenitest as well as from accompanying pegmatitea, have detected the constant occurrence of hafnium, yttrium, uranium and thorium. The study of alkaline rocks of south-eastern Tuva has shown that they are heterogeneous: some of them are magmatic formationsp others originated as contact rocks, due to effect of alkaline intrusions in enclosing rocks, and still otheral metasomatic, originated as a result of activities of post- Card 3/4 magmatic solutions arosen by themselves due to alkaline  11-5-2/15 TITLE: Alkaline Rocks of South-Eastern Tuva (Shchelochnyye porody yugo-yostoohnoy Tuyy) intrusions. The article contains 5 figures, 5 photos and 4 tables. The bibliography lists 8 Slavic references. ASSOCIATION: Institute of Ore-Deposit Geology, Petrography, Mineralogy and Geochemistry of the USSR Academy of Sciences in Moskva PRESENTED BY: SUBMITTED: 17 February 1957 AVAILABLE: At the Libra~-~ of Congress Card 4/4  ----- - -/T-D 17 1- 1-7 AUTHOR: None Given 5-6-10/42 TITLE: Chronicle of the Activity of the Petrography Section (Khroni- ka deyateltnosti petrograficheskoy sektsii) PERIODICAL3 Byulletent Moskovskogo Obshchestva Ispytateley Prirody, Otdel Geologicheskiyt 1957, # 6f pp 118-122 (USSR) ABSTRACTs The following reports were delivered in the Petrographic Section from 4 April to 7 June 19573 M.A. Petrova on "Localization of Polymetal Mineralization and Hydrothermal Activity in Deposits of the Zmeinogorsk Ore Field"; Ye.Ye. Miller on "Volcanism of Upper-Proterozoic Time in the Northern Part of Central Kazakhstan and Chingiz";.V.P. Petrov on "Prospect of Petrography Development"; Yu.M. Shoyrl- mann on "Some Regularities in Development of Trappean Formations of Plateaus"; Yu.V. Yunakovskaya on the "Application of Geo- physics for Solving Some Problems of Intrusive and Effusive Rock Geology"; R.M. Yashina on "New Alkaline Province in the Southern Part of Tuva"; V.N. Shilov on "Cenozoic Volcanism of the Southern Sakhalin"; S.M. Kravchenko on "Now Data on the Petrography of Intrusive Massifs in the Southern Part of the Central Crimea"; S.A. Yushko on the "Mineralogy of Lead-Zinc Mineralization of the Karatau Range"; S.K. Onikiyenko on Card 1/2 "Some Peculiarities of Acid Devonian Effusives of the Zmeino-  Chronicle of the Activity of the Petrography Section 5-6-10/42 gorsk Region in the Rudnyy Altai"; Ye.B. Yakovleva on "Prin- cipal Features of Volcanism in the Rudnyy Altai"; L.S. Tarasov on the "Change in Lead Isotopic Composition with Time"; D.I. Gorzhevskiy on,"Tectonio Conditions of Effusive Origination in the Rudnyy Altai'll M.S. Dezamertnaya on "Some Peculiarities in the Origination of Altai Polymetal Ores"; S.A. Gorzhevskaya on "Element:-Impurities in Polymetal Deposits of the Rudnyy Altai"; V.N.-Gavrilova on "Manifestation of the Monastyrskiy Intrusive Complex in the Altai"; G.F. Shipulin on "History of Intrusive Rocks of the Zyryanovsk Ore Region"; V.I. Chernov on the "Hi- story of Paleozoic Magmatism in the Rudnyy Altai", and V.Ye. Gendler on "Ust'-Belevskiy Massif in the North-Western Part of the Rudayy Altai". AVAILABLEt Library of Congress Card 2/2  YASHINA, R.M. Kharly concentric zonal alkali massif and conditions governing its formation. Trudy IGEM no.76:7-39 '62. (KRA 15:9) (Tarbagatay Valley--Geology, Structural)  IASINA, R.M. [Yashina, R.M.) ------------------- Magmatic substitution of dolcmitic marbles., and its role in the alkaline petrogenesis of the Southeastern'Tava. AxLale~e geol geogr I/+ no.40-93 O-D 162.  YASHINA R.S.; GDIZBURGt I.I. Checking on the use of O.P. Habra, and M.L. Tackson's method of the removal of iron oxides from soils and clays for mineralogical purposes. Kora vyvetr. no.5:398-403 163. (MIRA 16:7) 1, Institut geologii rudnykh mestorozhdaniy, petrografii, mineralogii i geokhimii AN SSSR. (Mineralogical chemistry)  14-57-6-~11718 KRT Translation from: Referativn y zhurnal, Geografiya, 1957, Nr 6, P 13 (USSRT EDITOR: Yashina, V. V. MAP: Krasnoyarsk State Park "Stolby" to the Scale of 1: 150 000. An Itinerary Map for +ourists (Krasnoyarskiy zapovednik "Stolby". M. 1:150 000. Turistskaya marshrutnaya karta) PERIODICAL: GUGK MVD SSSR, 1956 ABSTRACT: Bibliographic entry Card 1/1  S,Y / A/fi ITANOVA, L.; KOSTINSKIT, D.; RTABCHIKOV, A.; TCLOKONIIIKOVA, A.; YASHINA, Y.T., red. (India, Pakistan, Ceylon, Nepal] Indiia, Pakistan, TSeilon, Nepal. Moskva, Glav.upr.geodezii i kartogrefii 14YD SSSR. Goa. izd-vo geogr.lit-ry, 1956. 21 p. Ukazatell geoprnfichesKkh nezvanii. 8 p. (MIRA 13:2) (Isis--Geography, Economic)  Am RODOFULO, A.K.~ YEGOROV, I.A., YASHNA, V.Ye. Bouquet substances of sherr7. Prikl. biokbim. I mdkrobl-O. 1 no.1:95-101 Ja-F 165. (MIRA 18-5) a.. Institut blokh:lmii imeni Bakba AN SSSR,  URBOOV. V.N.. mc-lacular cr eat. 1.1storulor cl harc- of the r--nr;(] daviny' ar.d polymer-- Do. -,;,-,c) 164. (MIRA 17~1-0)  Nr ACC ItR: AP602 9915 (A SOURCE COPEt UR/0413/66/000/015/0088/0088 INVENTORS2 Gorbunov, V. N.1 Ya9hina, V. Z.; Rubtsova, 1. KO ORG: none TITLE: Method for obtaining amino-fornaldehyde rocinsP Clans 39P No.1844 9 Zannounced by Scientific Research Institute of Plastics (Nauchno-issledovatel-lakly institut plasticheskikh mae,s)-/ SOURCE: Izobrot prom obraz tov zn.. no. 15, 1966p 88 TOPIC TAGS: amino plastic, formaldehyde, condensation polymerization, polymeriza- tion initiator ABSTRACT: This Author Certificate presents a method for obtaining amino-formalde- hyde resins by condensing urea or melamino with formaldehyde in an acid or neut'ral medium. To improve the physico-mochanical proportiou, the condensation is carried out under pressure and in the presence of a peroxy-free-radical type initiator. The condensation may also be carried out in the presence of an unsaturated com- pound, e,g,o mothyldimethaox7loVethylphosphinate. SUB CODE i // 07 SUBH DATE a 23Jun65 Card-3/1 J* UDC# 678.652o17)7121141  VLASHCIWKO, L.F.; NOVIKOV, V.M.; ZINOVIYEVA, M.M.; SIDOROVA, A.P.; KARDASHOVA, A.A.; KIEYMENOV, I.Ya.; KRASII"OPOL'SKIY, N.M., [deceased); IAJKASH, Ye.G.; SAYOFALOV, P.Ye.;.YASHINA., Ye.I.;- KULIKOV, P.I., dots., retsenzent; MAUWVA--41 ~- r.-, ~~ -tekhn. nauk, retsenzent; MERENBURG, A.N., spets. red.; KOS~6VA., O.N., red.; SOKOLOVA, I.A.j tekhn.red. (Handbook for the technologist of the fishing industry) Spravochnik tekhnologa rybnoi promyshlennosti. Moskva Fi- shchepromizdat. Vol.l. 1963. 589 p. (MIRA 17:3~ -7,  ZAGORSKAYA, N.Cl..; _nHjt~,, -Z.I.; SLOBODINp T.Ya.; LEVINA, F.M.; BELEVICH, A.M.; URVANT8EV, A.N., doktor geol.-mineral. nauk., red. (Marine NeogeneW-Qwternary sediments in the lower Yontsey Valley.) Morskie neogen (?)-chetvertichnye otlozhenila nizhnego techeniia reki Eniseia. Moskva,, Nedra,, 1965. 90 p. (Leningrad. Nauchno-issledovatellskii institut geologii arktiki. Trudyt no. 144) (MIRA 18:8)  STRELKOV, S.A.; DIBNER, V.D.;ZAGORSKATA, N.G.; SOKOWV. MI.; YEGOROVA, I.S.; PO~IKIY, Ya.I.; KIRYUSHINA, M.T.; FUMIMV, A.P.; -YASHINA, Z.I .: SAKS, V.N., red.: NIKITINA, Y.N., red.izd-va; O.A., -tekhn.r~ed. [Qxmternary sedimente in the boviet Arctic] Chetvartichaye otlozheniia So4etskoj Arktiki. Moskva,,Gos. nauchno-tekhn. UA-vo lit-r7 PO geol,Lokhr..nedr, 1959. 231 P. (Leningrad. Ilauchnn-iseledovatell i institut geologii Arktiki. Trudy, vol.91). (MIRA 13:5) (Russi4, Northern--Geology),  YASiilll P. K. Yashinskao, P. K. - Ill?,e Hrile of X-qa-y Tiiaerap,- in tl~lie Treatment of Cer- v~cal-lllaxillary Actinmycosis. 11 Kin Health USSIR. Centrai Inst for tl`x, Ad7zanced TraininC of Fhysicians. Moscow, 19'56 (Dissertation for the Der2ree of Candidate in Medical Sciences). So: Knizhnaya Letopis', No. 10, 1956, pp 116-127  It VO, tL-4 TSELIBEYEV, B.A.; YASHISH, I.L.; OKUNEV, V.N. Mental disorders in hematologic diseases. Zhur. nevr. i poikh. 64-.no.8:1192-1197 164. (MIRA 17:12) 1. Moskovskaya gorodskaya klinicheskaya ordena Lenina bollnitoa im. Botkina (glavnyy vrach - dotsent Yu.G. Antonov), Moskva.  IL 32901-66 ACC NRs AP6023832 (N) SOURCE CODE: UR/0399/66/000/003/0079/0063 Bru FatWllina.L Z. I.- AUTHORt Tooliboy2y, B. A.; Yashish, 1. L,; Okunev, V. N. ORGt Central Scientific Institute of Forensic Psychiatry im. Serbskiy /headed by 'Docent G. B. )1or"2XL_.(Tsontral1rWy nauchno-issledovatellskiy institut sudebnoy psikhiatrii); Clinical Order of Lenin Hospital im. S. P. Botkin /headed by Docent Yu. G. Antonov/, Moscow (KLinicheskaya ordena Lenina bollnitsa) TITLEt. Psychic disturbances in burns SOURCE: Sovetskaya meditsina, no- 3, 1966, 79-83 TOPIC TAGS: injury, paychoneurotic disorder, psychiatry ABSTRACT:- The authors observed foilr cases of psychoses associated with burns. 'In three patients, soon after the burns, brief amontal-doprossivo states developed, and in one __ a severe psychic state was observed followed by a Aeprossivo-paranoid syndrome. It was found that in all three patients of the :first group, 3 days after receiving the burns. when shock symptoms had passdd, but intoxication, development of suppurative pus, and insomnia duo to pain -continued, states of psychomotor excitation dovelopod with disorientation in 'space and time, and with large numbers of v-_ksual and auditory hallucinations =4 periodic confusion of mental processes. Psychic disturbances were noted Cord 1 /2 bDc: 616.5-001.17-06:616.89-02-616.0(  ACC NRs AP6023d32 'for several days and were accompanied by total amnesia characteristics of &mental and severe delirium states. It is charactoristic that the psychosov 'developed not during the shcok period, but in tho initial poriod of shock- Ardection; as is known, traumatic and postoperative psychoses also emer e, ;USUAUY several days.after the injury or operation.- Lipa2s SUB,CODE: 06 SUBM DATE: none ORIG REF: 006 CTA PXM 002 01  SPEBANSHAYA, A.M.; LEBEDIK04, Ye.I.; KLMWOVSKAYA, G.I.-I--Y:ASHISH, L.B. Role of enteropathogenic intestinal bacilli in the etiology of intestinal diseases in infants. lab. delo [71 no.4:59-.60 Ap 161. (MIRA 14:3) 1. Dorozhnaya saniVmo-epidemi-ologicheskaya stantsiya Moskovsko- Ryazanskoy zheleznoy dorogi. (ESCHERICHIA COLI)  of the nibher  KRASILINIKOVt N.A.; ZHUKOVA, R.A.; YASHIS11, V.B. Possibility of using antibiotics to protect the outer fibrous sheaths of underground pover cables from destruction by micro-organisms. Mikrobiblogiia 29 no.3:446-1t5O, My-Je 160. (MIRA 13:7) 1. Institut mikrobiologii AN SSSR. (ANTIBIOTICS) (ELECTRIC CABLES-MAINTEHANCE AND REPAIR) (BACTERIA9 CELLULOSE-DEMIPOSING)  ---T ',22900-66 E~v'T(d)/E7dT(m)/FWA(-d)/FWP(!)/FWP(t)/EW(k)/i,, (h)/ZWP(l)- IJP(c) AM NRt AP6008990 J-D/IWB_ souRa, COM 'UR/bP-_iA5/boo/bn/bo39/bo39 AUTHORt Yasinskly, G. I,, ORG., none -,TITLE: Highm-performance designs of cuttiw..tools and tool materials (Scientific -and technical seminary Moscow, June 1965) SOURCE., Stanki i instrument, no. 32, 1965, 39 TOPIC'TAGSt metanurgic conference.. tool steel., cutting toolp metal cutting machine toolo.alloy, cobalt steely vanadium steel, tungsten steel,, molybdenum steel ABSTRACT: A scientific and technical seminar on high-performance designs of cutting tools.and,_tq- -lia-s-Te-ld-at-the ena ZT-MUTd-19W.-' The seminar was orgar i~e oso6w-l-o--u-s-e--o=ci-o-n-=c-ancT-fe-ch-n7l-c-al-PiFo-paganda im, F, E, nized by -.-If Dzerzhinskiy (Moskovskiy dom nauchno-tekhnicheskoy propagandy), the All-Union Sci- entific Research Tool Institute (VsesoyuzW nauchno-issledovatellskiy instrumentallnyy institut), the TaDTI, and the HIP NTO Ma-uhprom, N. S, Dogtyaranko noted the need for 4oreasing the effic;pncy of cutting tools and for using now grades of tool steelWand poWered-mota1N43lloys,. G. I. Granova spoke on the cutting properties of modern tool materials, G. A. Kosaovich reported on the prob- -on the use lam of increasing the quality of tjgh-apoed stools. Ms A* Sazar reported L-c-ard 1/2  L 25900-66 ,:ACC NRt 32 'AP6008990 of high-performance high-speed steels. B. Z. Levin_and OLSL14alitsev spoke on now grades of hard ulloys. M. I, Yulikov told of the development of high-porform- ancedesigns.of cutting tools that are being manufactured. A. V. Akimov demonstrated new types of hard-alloy cutting tools. I. L. Fadyushin reported on hTgg"rformance designs of sharpening units with hard-a plates, D. I. Semenchenko reported on cutting tools with non-resharpenable hardalloy plates. Yu. L. Frumin reported on Methods of reducing the replacement and adjustment time of tools under conditions of automated production. K. N, Kirillov reported on problems of hig ),grformanoo cutting tools for machining_EMpt-,proof nd high-tempera materials:16LO, So Kerbikov reported on -11 hard-alloy cutting tools, Ao No Shevchonko reported,on now designs of gear--cutting tools. SUB COM II/ SUBM DATE i none Card 2/2  6 Mechftliun of reaction of chlarnsulfiank th a ' e Abs TMIM aromatic compounds. l . T~hnM., Y.IL"Jillyl Zhur. Ubskehel Y-41 Khim. 23, IVI-I(K LV04), cf. Zhur. htVa. Mot. 23, 803 (19M).-Considerstions of thermodynamic values and ciptI. data Indicate that the fundarntritri reactions In the lnte-r-- L action of CISOJI with aromatic substances arc as follows. in most cases Is the formption of ArSO ll The ist rapid ste . i p and only small anits. of ArSOtCl. Sulfonation with IIIS04 with high concii. of CIS(hIf ha3 no practical value. In the b 2nd slow step there occurs the change of ArSOjI I to ArSOr CI by the excess CISOJI, with liberatloo of IWj, The proemt Is reversible at low temp. and Irreversible at de- vated temp. owing to thermal cleavage of liberated CISOJI to JICI and M, these being removed from the reaction zone - under usual conditions. HiSO, has a significant role in chlorosulfouations by lowering the conen. of CISOIH and reactlytir with ArSO,CI transforming the latter to ArSO.11. in the process CISOJI + H,O - HSO# + HCI, AS Is 10.46 c.u., AF -20,430 cal.; hence sullonations with CISOM should be more rapid and effective than those with HISO., as confirmed by examn. of the literature. In reaction of CIS03H with AcNIJPh at 25* and 40' it was shown that within 16 min. almost 100% organic S Is obtained (graphical Stesentation Is made) and this remains constant through the uratims of reaction; organic Cf riseq rapidly for I hr. then remains nearly constant light decline), while the yield of g rst, declines rapidly over 45 min., then very slowli ti;ts; or;nnic Cl (S%Cl dcriv.) gradually d L h l i l b l ow r ics. t en s e rror image of y drops, the curve ng a m the above curve for the free acid. The yield of AcNHQH~ H I h 100% CISO u I CI l h d SO l 80% en s se n r sws s w arp y to j , j comparison with mixt3. In which gradually Increasing suits. of IGS04 are present (40% at 60% 11404g at 60* tinder es- sentlallycifull.condItIons. Inamixt.of 6%CISOjIf435 14SO, at 25* the molar ratio of ArS0,11 to ArSOXI Is OT~ 0.7 regardless of whether the starting material waii ArSOsH and CISM or ArSO%CI and HtWi. The eitpected more s rapid reaction of carbanifide with CISOsH than with HjSQp is experimentally confirmed. G. M. Kosolappff  YASFYJ~Rclv, S. VYSGV""KTYI P. Yt"CVI P. Zavodrkiy Cpyt T"olucheniya Kirpicha Iz Zo2y SlantEa, -,cr:,-Lcmye 11 C! antsy 1933, No 5, 37 SO: Goryuchlye SlantsY " 101-14-35~ TN .8-73. G .74  ~~~MAN, V.I.; NXERMOV, B.V., redaktor-, ABRAMOV, V.A., YASHKE, Te.V., redaktor; WRIZ, M.S., tekhnicheskiy redaktor. [Brief chemistry manual] Kratkii spravochnik khimika. Pod obahchei red. B.V.Nekrasova. Izd. 3-6, ispr. i dop. Moskva, Goo. nauchno- tekhn. izd-vo kh1m. lit-ry, 1954. 557 P. (XLRL 7:12) 1. Chlen-korrespondent AN SSSR (for Nekrasov). (Chemistry--Handbooks, manuals. etc.)  PWULIMAN, V.I.; NEKRASOV. B.V.. redaktor; ABRAMOV, V.A., redaktor; YASHKI, Ye.T., redaktor; LURIYA, X.S., tekhnicheskiy redaktor [Concise handbook of chemistry] Kratkii spravochnik khimika. Pod obahchei red. E.V.Nakrasova. Izd- 5-ae, stereotip. Moskva, Go&. nauchno-tekhn. izd-vo kh1m. lit-ry, 1956. 559 P. (KIRA 91-7) 1. Chlon-korrespondent AN SSSR (for Nakrasov) (Chemistry--Handbook~, manuals, etc.)   Eon vaft ARKLM, A.G., TASIMM, Ye-,V.- Reduction of selenium dioxide from sulphnric acid solutions by means of sulphurous nnhydride. Dokl. AN SSSR 108 no-5:849-852 Je '56. (MLRA 9:10) 1. PredstnvIeno akademikom S.I. Vollfkavlehem. (Selenium oxides)  YASHKE, YeL.-,Y.-, Cand Tech Sci -- (diss) "Purification of Roasting Gas with Concentrated Sulfttic,-Acid at High Temperatures in Appa- ratus~qW of the Bubbling Type." Mos, 1957. 17 PP with (Min of Chemical Industry USSR, Sci Inst LWr--ertilizers and Insect Fungidides im. Prof. Ya. V. Samoylov), 110 copies (KL, 47-57, 89)  AKELIN, A.G.; YASHKE, Ye.V.; YURGIN, Yu.S. Temperature of a drop-let in supersaturated vapors. Koll.zhur. 23 no.6:652-657 N-D '61. (MIRA 14:12) 1. Nauchno-issledovatel'skiy institut po udobreniyam i insektofung- isidam imeni prof. Ya.V.Samoylova. (Vapors) (Drops)  YASM I Ye.1. Absorption of arsenous and selenous anhydrides in roast gas scrubbing by.sulfuric acid. Khim.'Vrom. no.10:740-742 o 62, 1 (MIRA 15:12) (Arsenic oxide) (Selenium oxide) I (Sulfuric acid) (Gases-Purification) 0 0  KUPERMAN, M.Ye.; STOYANOVA, I.G.; Ye.V.; AWIIN, A.G. Electron microscope determina tion of the size of sulfuric Aeld fog drops. DOkl. AN SSSR 155 no.6:1427-1428 Ap 164. (MIRA 1724) 1. Nauchno-issledovateilskiy institut po udobreniyam i insektofungi- tsidam im. Ya.V.Samoylova. Predstavleno akademikom S.I.Vollfkovichem.  YASfTKP, Ya.V.-, kWLIN~ A.G.; PE,novsKiy, v.A. 7 05MULIKEITICH, V.A. Gla3n fiber filters for the removal of sulfuric acId fog. KhIm. prom. 41 noJeI96-200, Mr 165. (MIRA 18:7)  BELOBItOV, Andrey Favlervich. IlriniriAli uchustiye: BASKIN, A.S. inzli.-gidrograf; BCjW,',',!C'V, I.A, ; irizh.-gidrogral', dot:l.; VILIDER, B.A., 4Tlzh.-gi-4roqraf; VOIZOV, P.D., irizh.- gidrograf; GQRShKOV, N.M., inzh.-gidrograf; CHUROV, Ye.P., inzh.-gidrograf; YASHIEVICH,Ye.V., inzli.-gidrograf; STUPAKOVA, L.A., red. (Marine hydrography] Gidrografiia mori%, t-looinraj Trans- portl 1.964. 51A P. OMIRA 17.9)  YASHKICHEV, V.I.; LAZAREV, V.B. Measurement of the surface tension of electrolytic copper by the method of mmd)n= gas bubble pressure. Izv.All SSSR. Ser.khim. no.1:170-172 Ja 164. (MMA 17:4) 1. Institut obshchey i neorganicheskoy khimii im. N.S.Kurnakova AN SSSR.  5 M- 'AUTHORS: Pugachevich, P. P., Yashkichev, V. I. SOV/62-59-5-7/40 TITLE: Temperature Dependence of the Surface Tension of Copper (Temperaturnaya savisimost' poverkhncsGnogo natyazheniya medi) FERIODICALt Izvestiya Ak-ademii nauk SSSR. Otdoleniye khimicheakikh nauk, 1959, 11r 5, pp 806 - 810 (USSR) ABSTRACT: According to the authors there exist about 40 papers only on surface tension of metals and alloys; and only ten of them are devoted to surface tension at temperatures higher than 10000. A short enumeration of the papers and an informat-'on about th;~ Investigation methods used are given. The two Sovlet authcr5 Klyachko (Ref 5) and Kunin (Ref 11) ara among the authors ~Lin- tioned (Refs t-11) The results obtained by tha various tci;iL,-,zs are contradictory iFig 1). In t1jis work the Sugdea zqthcd (Rz3f 14) is used in the detexmination of the zsurf;-:~e ters`~.zn 4~ which the maximum pressure in the bubbles is measurad. In i-a- ciple, the method is based on the use of tw,.) cap-11.1laries of ,,aL- rious thickness so that the hydrostatJc p.----essure being fGrxi-A with dipping the capillary into "lie m-,tlt need no", b1i conside--ad in the calculation4 also, the density of the melt need :--~t '~s Card 41/3 determined precisely. Sugden did not carry out his investiga-,  Temperature Dependence of the Surface Tension of Copper SOV/10-39-5-7/4-, 0. tions at temperatures hiiher than 1000 The apparatus In the investigation is shown in figure 2 and dejeribei in detail The pressure in the ras bubbles was determined by means of bellow-sealed manometer of V. A. Sokolov construction, the perature of molten-copper by means of an optical pyromat,~_:-., the surface tension according to the formula P, Pq Cr T 2 L - X, X 1 2 The values of a at various.temporatures are summarized I-I a table. p1 and P2 are the ma ximum pressures in the 3as b,~'I-I,_'.-_z_ which are formed at the oapillarias; x, and x 2 are the diam-1- ters of the two capillaries. The inviostIgations wer6, 'oarrl'-3~ out in a temperature range between 1100 and 16000. The maximum value of the surface tension of the copper melt was observed at 13000 (Fig 2). The polythermal maximum of the surface ten- sion mentioned in publications also in connection with other metals is explained by 1) the presence of surfaoe active im-- purities on the melt surface and 2) the property of metals in Card 2/3 liquid phase to remain in a pseudocrystalline state; with tez:-  T,..inp*erature Dependence'of,the Surface Tension of Copper SOV/62-59-5-7/40 perature increase the liquid structure approaches the state of tightest structure, the surface tension increases. With-further temp6rature increase the liquid becomes homogeneous and the sur- face tension changes "normally", i.e. it'decreases with rising temperature. 'With further temperature increase the liquid be- comes.homogeneous, and the surface tension changes in the "nor- mal" manner, i.e. it drops with rising temperature. There are 3 figures, I table, and 22 references, 7 of which are Soviet. ASSOCIATION: Institut Obshchey i neorganicheskoy khimii im. 11. S. K.-.rnakrova (Institute of Conoral and Inorganic Chornintry iia, N.8. Xu:.7jW1coY of the AcadeAr of ~0.1 ences USER) SUBMITTED: July 24, 1957 Card 3/3  24-5000 AUTHORS: TITLE: PERIODICAL: ABSTRACT: .77092 sov/62-59-12-36/43 Semenchenko, V. K., Yashkichevp V. Brief Communications. Concerning the Evaluation of Generalized Moments by Quantum-Mechanical Methods Izvestiya Akademii nauk SSSR. Otdeleniye khimichef3kikh nauk, 1959, Nr 12, pp 2246-2248 (USSR) The authors used the SchrSdinger equation, which can be approximately solved by Hartree-Fock method Aef. 12_7, for calculation of ionic potentials 1~f'or which the distance from the nucleus was equal to the corrected Z-Ref. 192 Goldschmidt ionic radii). These values, which were called quantum-mechanical generalized moments, are compared with the values of generalized moments calculated by application of Coulomb's Law. Card 1/3  Brief Communications. Concerning.).-the 77092 Evaluation of Generalized Moments by sov/62-50,-12-,6/4'> Quantum-Mechanical Methods The values of generalized moments, coulombic and quantxi- mechanical arranzed In decreanin? order oV the latt"'ev Table 1 0 ms MCC hx".c ed 150, 147111 078 064A 789.0,70t) 0, 1,31o,432! !0. 370 I r% e0r. ~. ~-j n I T.3 I I I i 1 1 310611,427 43 I'Ots 0, 5!.0 30S~O I I .10,9 10,777 ~0, 0 355;0,320 Zn.t--'L r2he deviatio-,az of the values of' generalized mom-ants are relati~iely small for ions with i-nert-gas configurationj (Li+, K~, Rb+, Cs-~-, Be+, 14g-~-, Ca---. although th(~ quantum-mechanical generalized moments are always larger than coulombic moments. Tne deviation is greater for ions with incomolete outer Card 2/3 energy levels (Cu +.' Al+I Fig In 3olution3 where cz~  Brief Communications. Concerning the Evaluation of Generalized Moments by Quantum-Mechanical Methods ASSOCIATION: SUBMITTED: Card 3/3 77092 2-36/43 sov/62-59-1 the average interionic distances are greater, the ionic fields can be satisfactorily described by Coulomb's Law. There is 1 table; 1 figure; and 19 references, 12 Soviet, 5 U.K., 2 German, The 5 U.K. references are: Har~reaves., J., Proc. Cambridge Philos'. Soc., 25, 75 (1928); Hartree, D. R., Proc. Roy. Soc., A143, 5o6 (1933); Hartree, D. R., Proc. Roy. Soc., A151, 96 (1935).'F Hartree, D. R., Proc. Roy. Soc A149, 210 ~1935); Hartree, D. R., Hartree, W., Ai64, 167 (1936). N. S. Kurnakov Institute of General and Inorganic Chemistry of the Academy of Sciences of the USSR (Institut obshchey i neorganicheskoy khimii imeni N_ S. Kurnakova Akademii nauk SSSR) May 6, 1959  YA,SHKICHEV, V.,L; VINOGRADOV, Ye-YO* Relation between the distribution coefficient and the heat of extraction. Radiokhimiia 5 no.1:136-137 163. (MIRA 16:2) (Activity coefficients) (Heat of extraction)  SAMOYIDV, Gi LOVATENKO. R.T.; YASHKICHE Infl6if -.-bf," covalence of the interaction of"a 2& saltin&,o~t cation WWi locules on the effectiveness of salting out. n6';*40,99-504 1630' (NIRA 16:10) (Cations) (water).  YASHKICHEV, V.I. Surface tension of aqueous solutions of salts and the effect of ions on the structure of water. Zhur.strukt.khim. 4 no.6- 837-843 N-D 163. (MA 17-4) 1. Institut obshchey i neorganicheskoy khimil imeni Kurnakova AN SSSR.  MATYALSH, I.T.; TORYANIK, A.I.; YASITICHRIT, V.I. Mobility of water molemdes In aqueous solutions of ?,aC1,YGl, and Y,1. Zhur. str-akt. khim- 5 no.5:777-7'88 S-0 164 (MIRA 18:1) 1. Fiziko-tekhniches'kiy institut nizkikh temperatur Ali UkrSSR i Institut obahchey i neorganicheskoy khimii Imeni U.S. Xurnakova All SSSR.  BUSLAYEVA, M.N.; SAMOYLOV, O.Ye.,-,--X SHKICHEV, V.I. Co-78lonce'of cation reaction'With water molTculeg and the "po*- ot'golution ot Rb' Til Mg, Co and Ni nitrates. RadiokhWJa 7 1 0 ~AIRA ig,6) no,l-.n3-115 65.  YASH.i~.Ll;, A. Yu. YA5j'jj.'T-, A. Y, t, v 11 a. -- ir a Rcctan~~jlar I.,lave -l'u- 12 MaY 52, !,'oscmj State Pedagogical 1w;t imeni -dr. 1. Unln. (Dirsertation for the Degree of Candidate in Physicomathematical Sciences). SO: Vechernaya lloskva J., i iuan,-De c ember 1952  U'J'.-~'Y-.'/Physic~; Lecture 2 "Souic Lectuxe Demon3trations in a Course of Ex-,crij.,entel Phyvico," A. Yba. NI. V'. 11alov, and A. Ya. Yashkin "Usrekhi Fiz flaWctl Vol 48.9 110 1, pp 123-128 Deocribe exper:iL:ents -i.,ith a fmc- fal-lin~ pen,-Iuliz, -..~odelj-ng of ionosphere tul-e gEmeratuor of unda:--penead occillatioz,S, intcrfc-.rcnce of ]AI~:A by thi-n. f--'!:. Fil. 236T79  USHKIN. A. Ya. Netal, inhomogeneities in rectangular wave guides. Uch.zap.KGPI 88: 3-16 '54. (MLEA 10:2) (Wave guides)  109-8-5A7 AUTHOR: Yashkin, A.Ya. TITLE: Calculation of the lowest mode critical wave in non- symmetrical j(_1 T- and some other types of wave guides. (Raschet kriticheskoy volny nizshego tipa d1ya nesimmetrichnykh T- i nekotorykh volnovodov drugoy formy) PERIODICAL: Radiotekhnika i Elektronikaj 1957t Vol-IIP NT 8, pp'. 989-1000 (USSR) ABSTRACT: Symmetrical 7f-type wave uidest for instance those discussed by V.9. Deryugin Uefl) find application in ultra high frequency techniquesq since they have a number 0.f valuable characteristics. Thus, when designing such -wave guides it is necessary to determine the required tolerances. This can be done by analysing a non-symmetrical 11-type wave guide'. The wave guide considered in ' the present paper has a cross sectionas shown in Fig.l. Its characteristic equations for the magnetic fields in the regions 11 9- and 3 (see Fig'.1) are given by Equations 5 (P.991) in which the coeffioients Cin and at are the unknowns to be determined. If the Equations 5 have to - fulfil the conditions expressed by Equations (6). and :Mt, Card 1/3then they can be represented as shown by the Eqs.8, p.992.  109-8- 5/17 Calculation of the lowest mode critical wave in non-symmetrical T- and some other types of wave guides. On the basis of the above equations it is porisible to evaluate two expressions (Equations 18 and 20) which defir.Le the smallest wave number, k . of the wave guide as a function of its dimensions and the unknown coefficient For a symmetrical wave guide (a 1 = a 3 = ao), Equation 18 leads to a simplified expression as given by Equation 9.1 (p'0'995 )'. Similarl, I it can be shown that for a r-type 1mve guide (a = O~ Equation 18 takes the foxm of that iven by E~quaiion 22 . Similar analysis is given for a Itype wave guide (s;e Fig'.2) and it is shown that the K )arameters of the system can be evaluated from Equations '23 P(p-.996)-. Two further wave guides are consideredl that in Fig-3 (the so-called Ld-type wave guide) and a wave guide with two symmetrical grooves (see Fig.4). The characteristic equations'for the above wave m2ides are given by Equations 29 and 30 respectively. Ee above analytical formulae were used to calculate the critical wave numbers for a number of wave guides (see Figs'.5 and 6) Card 2?3 and to determine the critical wave length.for a ILI-type  109-8-5/17 'Calculation of the lowest mode critical wave in non-oyrmretr1.c,~-1 T- and some other types of wave guides. wave guide (see Fig'7)'. The latter was comp,~~rcd -,;it!i experimental resuM taken from the wofe- of B.L.Pleh-L--ill tnef.3). The above results show that the critieal wa-;-c; of the above wave guides can be either smaller or greater tl,-an those in a rectanLiilar wave guide. It appears to he possible to adjust the grooves or the juttixV_--c in the wa-Tre guides in such a manner as to obtain a wave lenSth eq~aal to that of a similar rectangular wave guide. Acknowledgemonts are made to Prof. N.H. Malov for numerous and -uzeful li--- cussions on all the problems concerning- tnio wo:i-k. TL(~-rc, are 7 figures, 1 table and 5 refere-noess, all of zaril Slavic. SUMUTTED: December 0-4p 1956. AVAILABLE: Library of Congress. Card 3/3  ALEKSAHDROV, N.V.; WdOVO N.N., prof.; POLYANINA, HIKHALOVICH, T.V., red.; TSVIZTKOVA, V.S., tekhn.red.; PONDWOMA, A.A., takhn.red. [Practical work in electric and radio engineering; textbook for students of pedagogical institutes] Praktikum po elmktrotakhnike i radiotakhnike; ponobin dlin studentov pedagogichaskikb Institutov. Pod re4. N.N. Malova. Moskva, Gos. uchabno-pederog. izd-vo 14-va pros. RSFSR, 1958. 165 P- (MIM 12:1) (Electric engineering) (Radlo)  SOV-109-3-6-1'//2? AUTHOR: Yashkin, A. Ya. TITLE: K-Ire7v;_~.e_t-hod for Approximate Calculation of the Waveguidos Having a Complex-Form Cross-Section (Novyy metod priblizhen- nogo rascheta volnovodov so 31ozhnoy formoy popcrcchno,,,~,o secheniya) PERIODICAL: Radiotekhnika i Blektronika, 1958: Vol 3., Nr 6. PP 831-833 (USSR) ABSTRACT: The problem of finding the lowest critical TE-aave iG equivalent to solving the 2--aimensional wave e-Taation w4th respect to the magnetic field component H. under !;he, assumption that the normal derivative of the field is 0 over the ff.'iole transverse ~aross-section (see Eqs.(l) and (2))., The proposed method _consists of approximating -Ele complex cross-section of a waveguide by means of a number of small steps (see Fig.1). if the steps are sufficiently small it can be assumed that the critical waves of the actual c-,om- plex waveguide anu' those of the approximate step.-like guide will be the same. It is possible to derive for the Card 1/3  SOV-109-3-6-17/2? A New Method for Approximate Calculation of the _Having a Complex-Form Cross-Section approximating system a number of equations, such as ex- pressed by: 00 H = C cos k (x - ai) 4_1 i io n=1 where Card 2/3 Cin and ai are the unknown constants; n = 02 1, 22 ...1 r! I = I/ n r ~k C Cos riny ch r! (x ai) in in r in-b and it is assumed that > 1 and k . The continuity conditions at the bi bi boundaries of the various steps (see Fig.1) can be expressed by Eqs.(4) and (5) where the function 0 can be founa from the integral expressed by Eq.(G). By solving Eq.(6), the un- known quantities k, U-2 1 M3 cx4 ..... can be found from the final equations, (8) and (9). These equations were employed to evaluate the critical wave s in a waveguide having  SOV-109-3-6-17/27 A New Method for Approximate Calculation of the Waveguides Having a Complex-Form Cross-Section a tra-ezoidal cross-section. The results are plotted in Fig.?, where the critieal wave is given as a function of 'he side angle of the trapezoid. There are 2 figures and Soviet~ referenses. SUBMITTED. J-t~ziy 42 1957. 1. Waveguides - Mathematical analysis 2. AppxN?xim+A -i;)mpr:,-IieGi,)u- Card 3/3 Applications  SOV/142-58-4-18/3o AUTHOR: Yashkin., A.Ya. TITLE: Calculation of theLower Frequency Waves in Right- Angled Wave Guides with a Layer Filling ( Raschet izohikhvoln V pryawougollnom volnovode so sloistym n - zapolneniyem) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy- Radiotekhnika, 1958, Nr 4, pp 503_505 (USSR) ABSTRACT: The paper recommends a method of calculating for wave guides with any number of parallel dielectric layers of varying parameters. This method can be used when investigating the el-6ctric qualities of liquid di- electrics, which are placed in a wave guide in a right- angled dielectric container. The paper also deals with the computation and characteristics of stratified wave guides in general and of a wave guide with alter-' nating dielectric layers. There are L' graphs and 5 Card 1/2 Soviet references.  SOV/142-58-4-i8/3o Calculation of the Lower Frequency Waves in Right-Angled Wave Guides with a Layer Filling ASSOCIATION: Kafedra fiziki Moskovskogo stankoinstrumentallnogo instituta imeni I.V.Stalina (Chair of Physics, Moscow Machine Tool Institute imeni I.V.Stalin) ,SUBMITTED: December 18, 1J57 (initially) and March 10, 1958 (after revision) Card 2/2  106-13-3-2/13 IAU`THORt Yasbkin, A. Ya. TITLEs Computation of a Critical Wave of Lowest Order in Rectanaular Wave Guides With Rectangular Longitudinal Slots and Projections (Rasch~t kriticheskoy volny nizshego tipa dlya pryamougoll- nykh volnovodov s prodollnymi pryamougolinymi kanavkami i vystupami) PERIODICALt Radiotekhnika, 1950, Vol- 13; Nr 3, pp- 0 - 14 (USSR) ABSTRACTs The critical wave of complicated wave guides is here computed according to the method of joining single oolutions for rectangular ranges into which the entire wave guide cross section is divided. Here it is assumed that the wave guide is filled with an ideal dielectric (E - (4 - 1) and has in- finitely conducting walls. The propagating wave is sinueoi- dal and has an axial component H M H(x,y), which satis- z fies the wave equation D2 D 2 H 2 H _, + k 11 0 0 7=x + ~=Y Card 1/2 with the boundary condition H 0 for the entire longi- n  108-13-3-2113 Computation of a Critical Wave of Lowest Order in Rectangular 'Wave Guides With Hectan~;Ular Slots and Projections dinal cross section. The system of equations connecting the critical wave with the dimensions of the wave guide crous section is derived. This system (14) has to be looked upon as characteristict it offers the possibility to determine the critical wave of the wave guide according to the cross-sectional dimensions. In the computations of wave Cuides with a varying number of longitudinal projections and slots characteristic systems consisting of equations oE the (12) and (13)-tYPe can be ob- tained. When the cross eection is symmetrical a combination of these equations with the equations of the (16)-type or (17)-tYPe is obtained. .. Enclosed is a computathn of the lowest critical wave of a wave guide with symmetric projec- tions and one for a wave guide with two symmetric Ion,-itu- dinal slots. Some computation data are compared with those of the experiments. There are 4 figures and 4 referencesq 4 of which are Soviet. SU13MITTED: September 26, 1956 (initially) and November 22, 1957 (after rpvision) Card 2/2 dF.  AUTHOR: Yaahkin, A. Ya. SOY/Io8-13-1o-2/13 TITLE: On a ~Meth~,odoi~Ap,,_rL-mtion Calculation of Wave Guides With a Triant,-ular and Trapezoidal Cross Section (0b odnom metode priblizhennogo rascheta volnovodov treugollnogo i trapetsevidnogo secheniya) PERIODICAL: Radiotekhnika, 1958, Vol 13, Nr lo, PP 3 - 8 (USSR) ABSTRACT: The method suggested in this paper leads to a simple system of transcendent equations. It can be used with wave guides witn. a trapezoidal and a triangular cross section as well as with wave guides with an arbitrary complicated cross section. The basic conception of this method is essentially that the cross section of the trapezoidal and triangular wave guides is by small de- formations transformed into a multi-step cross section. As the cross section deformations are small and have alternating signs, their overall effect is due to be small. Hence it can be assumed that with a certain approximation the critical wave of the trapezoidal (triangular) wave Card 1/3 guide is the same than that of a multistep wave guide. Thus  On a Met-od of Ap==-Hy-tdorl Ca'1culati-on of Nave Guides SO7 I - 0-2 3 With a Triangular and Trapezoidal Cross Section the problem is reduced to the finding of the lowest order cutoff wave of the wave guide with a multi-step cross section. In this paper diagrams are presented which give the data for the calculation of the wave guides with the following cross section types: Right-angled triangle, equilateral triangle, right-angled and equilateral trapezoid. Several of the calculated values are compared with experimental experience. If a domplicated croso section of a wave guide is divided only into a small number of rectangular domains it is desirable to achieve a high degree of compensation of the individual deformations of the cross section. This can be done successfully in cases where the field con- figuration over t1he iravagulde cross section is known. If, however, a complicated cross section is divided into a great number of rectangular domains a knowledge of the field configuration in the wave guide is not required. The more rectangular domains of a multi-step shape are adopted the more accurate will be the results of the calculation. The tables compiled in the course of this work demonstrate Card 2/3 that the computed values agree with experimental experience  On a Method of Approximation Calculation of Wave Guides SOV/10"--13-'-o-2/113 -With a Triangular and Trapezoidal Cross Section even if the number of domains is small. There are 5 figures, 2 tables, and 4 references, 3 of which are Soviet. SUBLUTTED: January 17, 1957  SOV/58-59-8-18581 Translated from: Referativnyy Zhurnal Fizika, 1959, Nr 8, p 222 (USSR) AUTHOR: -Yashkin, A.Ya. TITTZ; The Propagation of Symmetrical Electromagnetic Waves Through a Hollow Dielectric Tube PERIODICAL; Uch. zap. Mosk. gos, ped. in-ta, 1958, Vol 138, pp 143-1511 AWMACT: The propagation of symmetrical waves through a hollow dielectric tube is investigated. The problem is solved for longitudinal components of electric and magnetic fields, the remaining components being expressed in terms of these. It is demonstrated that only one type of electric wave can exist in a dielectric tube, despite the three forms of solu- tion that can be given for a dielectric (for the Internal region of the tube the solution is given as a.Bessel function, for the outside of the tube it is given as a Hankel function of imaginary argument). The calculations demonstrate that the critical wavelength diminishes in- finitely with the diminution in the gage of the walls. The electro- magnetic field is concentrated'by the walls of the tube, and the Card 1/2 shorter the length of the wave which is being propagated, the higher  F/JV/58-59-8-18581 The Propagation of Symmetrical Electromagnetic Waves Through a Hallow Dielectric Tube this concentration. The propagation of waves through a monoaxial system of dielectric tubes is investigated. The numerical calculations show that in this case the critical wavelength diminishes, albeit not to a great extent. I.F. Dobrovol'skly Card 2/2  BOV/58-59-8-18573 Translated from: Referativnyy Zhurnal Fizika, 1959, Nr 8, p 221 (USSR) AUTHOR: Yashkin A Ya TITLE: Waveguides With Cross-Sections in the Form of a Parallelogram or Other Complex Shape PERIODICAL: Uch. zap. Mosk. gos. ped. in-ta, 1958, Vol 138, PP 155-163 ABSTRACT: Critical wavelengths of the lower type are computed for waveguides having cross-sections in the form of a parallelogram, trapezium, or triangle. The waveguide cross-sections are transformed by means of small deformations in- to cross-sections of a multistep form, which can be divided into rectangular sections. The general solution is sought by the method of joining together the solutions for the rectangular sections. The accompanying graphs show the dependence of the critical wavelength in waveguides having a complex cross-section on the angle at which the walls of the waveguides under con- sideration deviate from the walls of a rectangular waveguide, The ex- perimental data are In good agreement with those computed theoretically. I.F. Dobrovol'skiy Card 1/1  YASIIKIII, A.Ta. Sector waveguides with longitudinal grooves or flanges. Uch. zap.1/4'rZPI no-3:274-278 '59. 04M 1315) (Wave guides)  S/058/60/000/004/014/1016 A0031AOOI Translation from: Referativnyy zhurnal. Fizika, ig6o, No. 4, P. 265, # 9444 AUTHORt Yashkin, A.Ya, --------------- -~ I 2!~ T-T=: -Electromagnetic Waves in m-Layer Waveguides PMIODICAL: Uch. zap. Ijilsk. gos. zaoch:n. ped. in-t. Ser. fiz.-matem., 1959, No. 3, pp. 279-285 TEXT: For the investigation of m-layer waveguides the method was applied of joining the solutions of the wave equation, which were obtained for eaeh layer separately. The analysis of the obtained system of equations showa that waves- of the H tyj~e-,-the eigenvalues of which connected with the height of the waveguide differ from zero, are impossible in laminated waveguides. The transcendental. equations obtained for finding the propagation constants and critical wavelengths were verified by known particular oa--es-. An example was considered, In which the wavegulde is partitioned by thin dielectric plates. I.F. Dobrovol'skiy Translator's note. This is the full translation of the original Russian abstraot.. Card 1/1  USHKIN, A. Ya. Calculation of ar, endovibrator with a complex form. Tzv. vys. ucheb. zav.; radlotekh. 2 no.6:738-741 N-D 159. (MIRA 13-6) 1. Rekovendovano kafedroy fiziki Mos*079kogo stankostroi- tellnogo Instituta imeni 1. V. Stalina. (Resonators) (Wave guides)  82981 S/142/60/003/002/021/022 E192/E382 AUTHOR: Yashkin, A.Ya. 11W__ 1~ TITLE: Calculation of Multi-layer Waveguides Having a Ridge-like Transverse Cross-section PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiotekhnika, 1960, Vol. 3, No. 2, pp 292 - 295 TEXT: Thetransvex-se cross-sectlon of the waveguide considered is illustrated in Fig. 1. The system is filled with air and u contains two dielectric layers. The aquival"&-, c 0 e t ~ te ~Ih~'Aaths of deno'* u system is also shown in Fig. 1, where Y I t he orres- ponding sections of the line, Y i represent the equivalent reactances. The wave numbers k 1 and k 2 of the system can be determined from the resonance conditions of the equivalent circuit. It is shown that the characteristic system of equations for this waveguide consists of two equations of the type defined by Eq. (1), one equation of the type defined by Eq? (2) and four equations of the type given by Eq. (3). The resulting system is in the form of the set of seven equations Card 1/2  82981 S/142/60/003/002/021/022 E12a/E3fl2 Calculation of Multi-layer Wavegu es aving a Ridge-like Transverse Cross-section shown on p. 294. In the same way, it is possible to construct a system for any ridge-like waveguides. The use of this method of calculation is illustrated by analysing the waveguide shown in Fig. 2. The characteristic system for this case is represented by the second set of equations on p. 294. There are 4 figures and 4 references, 3 of which are Soviet and 1 English, ASSOCIATION: Kafedra fiziki Moskovskogo stankoinstruittentallnogo instituta im. I.V. Stalina (Chair of Physics of Moscow Lathe and Instrument Institute imeni I.V. Stalin SUBMITTED; September 11, 1959 Card 2/2  9.1300 77177 :3011/108 -15 -1 -3/1 3j AUTHOR: Yashkin, A. Ya. TITLEt WavegUides oC a Parallelogram Cross Section PERIODICAL; Radiotel-chnika, 1960, Vol 15, Nr 1, pp 26-29 (USSR) ABSTRAM The paper 3uggests a method for calculation of the lower-range critical H waves in any waveguide of a parallelogram cross section. The method is based on the transformation of the original cross section into a stepped-tip cross section, as shown on Fig. 1. 5 Y b4 2 Card 1/4  Waveguides of a Parallelogram Cross Section 77177 SOV/108-15-1-3/13 The waveguide of a parallelogram cross section is considered as a deformed rectangular waveguide with sides a, b. The deformation is characterized by the r 7? where and are the facto' Xco/ XC Xco Xc critical wave lengths of the original rectangular wave- guide and of the deformed waveguide, respectively. 7? is the same for waveguides of similar cross sections and may be determined in a scale convenient for cal- culations. A suggested scale is given by expressions (2): then ACO=2a):a-Aj-Aj=r:T