SCIENTIFIC ABSTRACT SYRNEV, G.S. - SYRNIKOV, YU. P.

,3-fRtTEV, r,.S~ Upsetting fitting screws. Priborostroonie no.6:27 Je 164. (mm is-.-.)  SYRNEV, G.S., inzh. New technological processes in the manufacture of fastening bolts and screwB. Priborostroenie no.4:14-15 Ap 165. (MIRA 18--5)  Srx" V, If. S. Producing a self-locking adjusting 2cre-w for coiled tension springs. Bi-ul.tekli.-okon.infoi-m.Gos.nauch.-issl.inst.nauch.i tekh.inform. no.8:46-47 Ag 165. OMIRA 18:12)  sy- -- - . , C; . ~- . _n I rjoj~s. ?,Uz.-S~tam. '. -- - j Le f ~,r -C 1 - .. ~Tj ~,I, I I V. j - 165. 110,;9), pr.-,*.z%,,. 7 nc.8.~4? 1~11f~7  8 YMEVY C, I It", .yInh. 1Y,"roducing cold extrusion of pa-rt.5 and. billetua. Prlb---,:,xztrcen!.e no.6.0-7-18 Je 165. (WIRA !,Qz?)  SYRNEV, I.P. Reproduction of the structure of the Kubadag-Greater Balkhan trough in its relief. Neftegaz. geol. i geofiz. no-3:17-21 163. (MIRA 16:8) 1. Nauchno-issiedovatellskaya laboratoriya geologicheskikh kriteriyev otsenki perspektiv neftegazonosnosti Glavnogo upravleniya geologii i okhrany nedr pri Sovete 'Ministrov RSFSR. *  SYRNEV, I.P. Pre-Akohagyl (Middle Pliocene) erosion by water in the region of Kara-Bogaz-Gol. Neftega.z. genl. o geofiz. no.8:20-22 163. (NIRA 170) 1. Nauchno-issledovateltskaya laboratoriya geologichaskikh kriteri,yev otsenki perspektiv neftegazonosnosti Gosgeolkom SSSR.  SYRNEV, I.P.; USHKO, K.A.; EBERZIN, A.G. Age of the Kyuryanykyure series in the Krasnovodsk Peninsula. Biul. MOIP. Otd. geol. 39 no.607-92 N-D 164. (MIRA 180)  ARKHIPOV, A.Ya.; ALTAYEVA, N.V.; BAYBULATOVA, j"J.K.; VISKOVSKIY, Yu.A.; GOLENKOVA, N.P.; KRAVCHENKO, M.F.; KUPRIN, P.N.; LEVIN, A.I.; POLISTER, L.A.; SEMOV, V.N.; SYRNEV,_,T,Z.; USHKO, K.A.; SHOLOKHOV, V.V.; Prinimali uchas~ly'--e: RODIONOVA, M.K.; CHELITSOV, Yu.G.; KUZNETSOV, Yu.Ya., kand. geograf. nauk, nauchnyy red. [Geology and oil and gas potentials of the south of the U.S.S.R.; Kara-Bogaz-Go.1 (Gulf) region (eastern part of the Middle Caspian oil- and gas-bearing basin).] Geologiia i neftegazonosnost' iuga SSSR; Prikarabozazle (vostochnaia chastf Srednekaspiiskogo nefte- gazonosnogo basseina). Leningrad, Nedra, 1964. 300 p. (Trudy Nauchno-issledovatellskoy laboratorii geologicheskikh kriterlyev otsenki perspektiv neftegazonosnosti no.12).  Y:~_K-I, - -', - . -F `YAKC'~,, 4 . ~, , ; f-,NPA.'-V j I' -, ~O K I (,'~ ~ ',I! ., . ~ . - G , f A ~ .~ . i P. ,'.-; tjtA I,., ~ 4 1, '! ~. ~ ) I A - .. I F !I -a'. TOV ) O.M. , ULIITSKI'~, (u A . ; _S' KHM-1r,"I ) !a 7-. 14R.Lti 711practervitins ef the geomor,,hoic-gy and rf-2srit in the Volga-Don territory. T.,iidy ffiflneftegaza no..13-.171-1E6 165. '? ri- i ',l i~~ )Fzg)  056 Sofia, Dot;lrly rrlq~r.kov F ,k, Vol 14, no 3, 1U6 1. Tdatribution of Tangential Plrne3 to Curfaces of the Congruence a! Straight Lines in the Hyperbolic C,~acd* A. PAT112-wr pp 233-237. 2. the -ti, 1 0 aalon Lavals In r' er Lead zu - I ifida* iv. B-tndL 239-242 0 (Ong ish Sumary) _~L 3. *A Nav Pr6cina Differential ~~=ztcr fo-- Laboratory Purposes . I SC~ zOJAD_-4rzV and 1. -.'0,10VT pp 243-24 6. 4. Nicxoquantitative, Det,ar-Ination of Cblorint and IoUne Iona' N. QX'C4_1V and K..&OSvr pp 247-250. 5. 'Comparative. Amino Mid Content of t1na Mesta at C-oze, Tuit Stones" S.I. Ya=',OVI pp 251-2.14. 6. *One Method of R-~~ng Sulfur from The Kzo=VcovcL Llmonita Ora* 4.,Yh1'.1XIrVi pp 255-257. 7. 'Absorption of Nitrogan Coddas In the Vil~ratlrvjr~"e of Sodium Hydroxide Solutions. Part It' 0 Chr. DALARZW, L. BDJ=-1ZV and G. -on the Rate of Absorption of Pure Cas*sl D 1,:~aw D,Z_4~V and C. RALAREW (IN ENGLISH) pp 2;3-i6r. 9., -Effect of Soma Inorganic Additives on the Reduction of Copper Oxide by Carbon Dioxide at Law Tc~,=paraturas- M.S. ~j ~_.M% i pp 267-270. 10. -B"orita from the Radk& Mine. Psnaghyur Basins T.G. RA NOVAr pp '271-274 (English Sv=nary). 11. 'Aluminum Saponits from Svettluka. Ardin Basin' T, - A .ODORCV I pp 275-270 (English Su=miry). 12. -Aegarding ttia,fxpeximantal Variability of Zschdrichin coli* S. GALKSOVI gp 279- 201. 13. "Studies an the rormation of Capsule by Certain Strain of Bacillus anthracla in vitro' 0. Xv. R2W1ZVi ;P 283 14. -Antibiotics and the Reticulo-=rdothalial syatez I-ixatlon Activity in Rica Treated wl-th W-lit-I Iron saccha.r&W An, TWXOV, G, SCK_-LJ(O1.1A and D. STOYANOVI Vp 287- 290. 13. 'Electron Mcrosco-Ic Study of Lunge of Snak4al R. 12ham? 16. -Mumaa LaptospirOaLs Due To Laptoopirs SaWcoebing In Bulgaria* 2. KUJU.%IZVI pp 295. 293. - 2A -  SYRNEV, L. [Surnev., L.] Slow conditions of a PbS surface. Doklady BAN 16 no-3:233-236 163. 1. Predstavleno akad. 0. Nadzhakovym. i  9, Y/ C~2 AUTHOR: TITLE- PERIODIC,-'d,: 3 1833 S/L94/61./000/010/053/082 D256/D301 Syrnev, L.N. Production of photo-sensitive surface PbS monocry- stals and investigation of the photo-effect mechan- ism Referativnyy zhurtial. Avtomati.ka i radioelektronika, no. 10, 1961, 28, abstract 10 G195 (Dolcl. Bolg. AN, 1960, 139 no. 3, 269-272 (English sunmiary)) Mri: In various photo-effect models of PbS, PbTe and PbSe it is assumed that the Dhoto-conductivity is connected with the micro-crystalline structure of the photo-conductive layer. It was, therefore, interesting to investigate the behavior of mono- crystals in the case where point-contacts do not exist, For this purpose, the PbS monocrystals were sensitized, the process being similar to that for poly-crystalline layers, aTid for this purpose PbS was heated to 4000C in the presence of S vapors for several Card 1/2  3 i 6 33 S/194/61/000/010/053/032 Production of -,)hoLo-sc!nsitivc... D256/D301 1~ hours with subsequent polishing and heatinig In air to 59000 for a .1 L short period,, The detailed investirratio-i-is of the photo-galvanic effect, the thermo-eiaf, rectifier effect and the life-time of the unstable carriers demonstrated a full similarity to the effects in monocrystals Lind layers., showing that both depend upon the same processes. L2 references- L Abstracter's note: Complete transla.- tion~-7 Card 2/2  SYRNEV, L. (Surnev, L.] Slow conditions on the lead sulfide surface produced by water vapors. Doklady BAN 15 no.?:719-722 '62. 1. Predstavleno akad. G. Nadzhakovym [Nadzhakov, G.].  DIMCHEV, T.; SYRNEV, L. [Surnev, L.) Changes in the work function of PbS monocrystals with the change of gas medium. Doklady BAN 16 no.6.-577-580 f63. 1. Predstavleno akad. G. Nadzhakovym, chlenom Redaktsionnoy kollegii, "Doklady Bolgarskoy Akademii nauk".  SYRNEV, N.I. Theory and practice of approy-imate computations,involving trans- cendental functions. Uch. zap. MOPI 123:197-207 t63. (MIRA 17s4) .-.. -'f  SYRNEV, N. I. Arithmetic - Problems, Exercises, Etc. Direct and reciprocal proportionality of values. Mat. v shkole No. 3, 1952. Monthl List of Russian Accessions, Library of Oongress., November 1952. UNCLASsUIED.  b " T -Iy!~*Ii~V' PONOMAREV, S.A (Moscow); -SYMJIV, N.I. (Moscow) Some methodological remarks on the new collection of arithmetical - problems for the 5-6th classes of the secondary school. Mat. v ahkole no.4:47-53 Jl-Ag 154. (MLRA 7:7) (Arithmetic--Problems, exercises, etc.)  v, ,0,,,1,,a, oly, TVANOLItcoy PONOKAREV, SemeW Alekseyevich; SYRi&i Niko Ivanoi PAZELISKIY, S.Y., redaktor; MAKHOVA, i&NWP-- W I" N.N.,' TOPLUUlunualtv reLLaXTj W CCollection of problems and exercises in withmetic; for classes 5-6 of seven-year and secondary schools] Sbornik zadach i uprazbnenli po arifmeiike; dlia 5-6 klassov semiletnei i arednei shkoly. IzCI. 2-e. Moskva, Gos. uchebno-pedagog. izd-vo Ministerstva Drosveshchaniia RSYSR. 1955. 222 p. MRA 8M (Arithmetic,Problems, exercises, etc.)  S'.,'RnV, H.I. (Moskva) . . .. l-, "Arithmetic" b7 I.K. Andronov and V.H. Bradis. Mat. v shkole no.5: 84-85 S-0 '58. (MIRA 11:10) (Arithmetic)  SYRNEV, N.I. (Moskva) Work with the adding machine in the 5th grade. Mat. v shkole no-5:42-43 S-0 '59. (MIRA 13:2) Walculating machines)  SYRIIEV, N.I. (Moskva) 6tudying the Blida rule (logarithmic) in an eight-year school. ,rpI Mat.v shkole no.4:34-38 Jl-A9 160. , r. - ,0 ,/ (m (Slide rule)  SYRNEV, N.I. (Moskva) Using an adding machine. Mat. v shkole no-3:51-52 My~e 163. (MIRA 16: 7) (Calculating machines) (Mathematics--Study and teaching)  SYMEV, DOIGI-21T V. 11,11. (YEarly Clinical Diagnosis of Rhe,matic Heurt Disease," Vop. Ped. i. Okhran. MAter. i. Det., 17, I-To. ", 1")49. Hd., Chair Children's Diseases, Astrakhan Mied. Inst., -1949-.  Smw. vo V. m. aunculation in diagnosis of tuber=losis in children. Probl. tubark.,, '.Ioskva No. 3. Illay4une 50. p, 31-5 1, Of the DopartiaorrIc, of Children' a Disea-ses of A strekheal Hadical Institute, Astrakhan', CUM 19, 5p llllov.p 1950  syp"O'll V. 'LL-0 -- --w i.-,--.11 1'.1, Cwe;aln pr-,cti=l conclusions frcn Pavlovi a thaory and hia achool of Vonr. lmdiat., 18:5,. 19410.., p. 34-6 1, TP-~,a,,' or the DehpartmcW,; of Children's Di3caws, An'LrmklAn' Institute, A3traldinnnl. (Ul !L "' , 3 20 ,, March 1951  SYRNEV, V. Problem of early diagnosis of tuberculous meningitis. Topr. pediat. 20 no.4:19-23 July-Aug 1952. (CLIG 23:2) 1, Professor. 2. Moscow.  SYRNEV, V.M.,prof, (Yoskva) -- Dingnosia of whooping cough in the entarrhal period. Yop.o)th.ant. i det. 3 no.3:39-4o My-Je 158. (MIRA 11:5) (WHOOPING COUGH)  SMEV, V.14., prof. Some problems In the cardiology of childhood. Pediatriia 37 no.4:3-6 Ap '59. (MIU 12:6) 1. 12 kafedry falmlitetakoy pediatrii Gor'kovskogo meditain- alcogo institute, imeni S-M-Kirova (dir.N-11-1(izinov). (CARDIOLOGT pediatric problems (Rus)) (PI-MIATHICS cardiol. problems (Rue))  SYRIMV, VAL, prof.; GERGEL, LAT. -, BUYLOVA, G.H. Early functional symptoms in rheumatic fever. Pediatriia 37 no.6:84-85 Je '59. (MIU 12: 9) 1. Iz detskoy polikliniki Kuybyahevskogo rayona g.Gor'kogo (glavnyy vrach L.K.Gergel'). (RM4ATISM, in inf. & child, early manifest. (Rua))  YAGUBOV, S.N.; REVICH, G'ONPSYRITEV, V.M. (Moskva) Strei*ihen the polyclinica3. training of students institutions. Zdrav. Ros. Feder. -36 My + no.5:33 "VX (MEDICINF--ZTUDY LND TEACHING) .1 in medical 160. (14IRA 13: 11)  SYRNEV, Vasiliy 14ikhaylovich; CHUHILOVA, A.I., red. [Early diagnosis by physical methods under conditions of the district physician's servicel Ranniaia diagnostika fizicheskimi metodami v usloviiakh vrachebnoi uchastkovoi sluzhby. Izd.2. Moskva, Maditsina, 1965. 98 p. ,(MIRA 18: 1)  SYPSEV, V., (Engr-hhj, Candidate of Technical Sciences) Coauthor with Engr-Maj V. SYRITEV of article, "The Physics of the Action of Nuclear Forces." subtitled, "Fadioactive Emissions," discussinc, the rays emitted by radio- active substancesl their penetrating power, and their effect on the human body. The'dose concept" and the amount of dosage necessary to harm the body tissues are also mentioned. /A-Aicle translated in full in joint Press Reading Service, No 148, 28 May 1954:7 (Krasnaya Zvezda, Moscow, 26 May 54). SO: SUIA No. 208p 9 Sep 1954  MEIIMEIVY V., (Enar-11aj, Candidate of Technical Sciences) Author of article, "The Physics of the Action of Nuclear Forces (Measuring Radiation), it discussing radiometric and dosimetric measuring devices. The author told how radiation- measuring devices are constructed and-how they operate, and described a fountain-Den-size, pocket radiation-measuring device. ~~! translation of article appeared in Joini Press Reading Service, No 166, 15 June 1954.7 (Krasnaya Zvezda, Moscow, 10 Jun 54) SO: SUI No 224, 28 Sep 1954  SY-FTIEV) 11. F. end FKPOV) N. P. 'Tadionctive Radiation and its Measurement", War Publishing Office of the Ministry for Defense of the Soviet Uniony Moscow 1950'. "This -publication was urritten specifically for soldiers and sailors of the Red Army and Navy. It onntainB informatiin of the dangers encountered during Atomic Warfare, Radiation Measurement, and identifies markers used in Radioactive Axeas. SO: D531003.  SYRNIV, Yjadillen Pavlovich; PETROV, Nikolay Panteleymonovich; SMV, A.I.. c-heskikh nauk, inshener-podpolkaynik,-rodaktor; KAIKR, Ya.M., redaktor; SRIBNIS, N.V., tekhnichookly redaktor. [Radioactive emissions and their measurement] Radloaktivaye islu- cheniia i ikh ismereniia. Moskva, Voen. isd-vo Ministerstva obor. SSSR, 1956. 159 P. (KRA 9:6) (Radioactivity--Measurement)  IVANOV, Anatoliy Ivanovich; SYRNW, V.P.. inzhener-mayor, kandidat tekhaicheskikh nauk, 'reTaqMFTr-9bXR, Ya.M.. redaktor izdatel'stva; SRIBNIS, IT.V.. tekhnicheskiv redaktor [Nuclear radiation of atomic explosions] lAdernya izluchenila atomnogo vzryva. Moskva, Voea. izd-vo Kinisterstva obor. SSSR, 1956. 211 p. (ML'RA 9:9) (Radioactivity--Safety measures) (Atomic bomb)  86-5-9/24 AUTHOR: Syrnev, V. P., Eng.Lt6Xol.,; Candidate of Technical -9-cl-eii-ces TITLE: Ground Radiation Reconnaissance (Nazemnaya radiatsionnaya razvedka) 3q PERIODICAL: Vestnik Vozdushnogo Flota, 1957/,", Nr 5, PP. 52-62 (USSR) ABSTRACT The article points out that the basic measures of anti- atomic defense are constant reconnaissance of radiation aV a dosimetric checking of irradiation and contamina- t on. The radiation of radioactive substances can be detected only with dosimetric instruments. The measure- ments can be either roentgenometric or radiometric. Roentgenometrlc ifteasurements by means of roentgenometers or dosimeters show the ionizing effect produced by radiation, while radiometric measurements by radiometers show the activity of a radlatiw~-. source (Figure 1) or the intensity of the contamination of the bodies or surfaces. The-An -1 Card 1/3 (Figure 2*) field roentg~nometer.xhich is the main instrument  Ground Ra~iation Reconnaissance (Cont.) 86-5-9/24 for ground radiation reconnaissance (a picture of this roentgenometer is given in the article) Is intended to measure gamma radiation within the limits of 0.04 to 400 roentgen/hour. The weight of this instrument is about 6.7.kg. It is operated by one man. It consists of a receiver (ionization chamber) (Figure 3), an amplifier,!a microammeter, and a power feeder. The wiring diagram of thelollo^enometer is given In Figure 4. The individual field dosimeter is intended ta measure the effect on personnel of gamma radiation in a contaminated, terrain. The set contains small-welght ionization chambers and a charging-measuring pdnel (Figure 5). This instrument measures doses of 0 to 5 roentgens (first sub-range) and 0 to 50 roentgens (second sub-range). The weight of a separate ionization chamber is about 15gr. A field radiometer (Figure 6) measures the intensity of the con- taminatioh of the soil and the surfa6es of.various objects by beta and gamma-active substances, as well as the con- tamination of food and water. The range of meesurements of beta contamination is from 150 to-1 000,000 disintegra- Card 2/3 tions/cm2 min and for gamma'radiation Prom 0.03 to  Group Radiation Reconnaissance (Cont.) 20 milliroentgens/hour. The radiometer units: a con'trol ptnel (Figure 7) and dition, there is a headset (Figure 8). whole set is 5.5 kilograms. There are AVAILABLE: Library of Congress Card 3/3 86-5-9/24 consists of two a prober7. In ad- The weight of the 8 figures.  'A(O)I 3(0)t 2(20) MASN I BOOK UPWITATION 30VJ~210 Atostnaya onarglyn T Svistsjj 1 r&ketjoy tokhnikaj abornlic statOY (Atomic Energy In Aviation and Rocket ilngines ring I Collection f Artiolom) Moscow. Voyan. Izd-TO X-va obar. SSSR , 1959. 500 P. Seriest Nauchno-populyarnsyn bibllotek&) NO of' copies printed at given, ! Ed. - Compilers F.T. Astachankov, Engineer, Lt,-COIj 341.8 TIL.R. gaderl Tech. Zd.s A.M. Gavrilova. PURPOSIt This book Is intended for officers of the Soviet Armed Fares&, members of DOSLAY. and the general reader Interested In the uses or atomic ongergy and in the development of aviation and rocket engineering. COVIRA01i This collection of 46 articles, compiled by 28 Soviet Scientists and based chiefly on non-Sovi*t materials, dlslausBeo various aspects of the use of atomic ongergy In rocketry and &via- tion. The book surveys the development or atomic and thermonuclear weapons and weapon carriers, lays down the principles of anti- Atomic defense, and evaluatea the application of nuclear onsergy 133 aviation and rocketry. Fuel and construction materials. an wall as actual physical and technological processes InvolvAd. are toest4d:bTlefly. Fundamentals Of atomic warfare and combat tao- ties AW discussed at some length. The book in divided Into rour Parts. Of Which the last consibts chlorly of anti-Western props- go do. Section I Is devoted to nuclear weapons And their use In avmlon. Section 11 IS on anti-atomIc defense, OAPQcIAII7 the defense and decontamination Of airfields " aircraft, and do- rsmse agalnst radiation. Section III IS-= the use of nuclear energy In modern aricraft and rocket technology and flight tach- including some Speculations on Space travel And on the energy Of the future, There are 126 figures and 35 non-Soviet r~fTJr9nc&1 (SOXA In ItUssian Translation). TABLE OF CONTZM i Defense Against Radiation 255 Zhiloy-,3, (Inginedr-CAptain]. Harmful Effects Of Penetrating Radiation From Atomic Jxpla,lons and Prat"tIvs Measures at Air- fields 26o Lltvlnenka. X. (Candidat. of Technical Sciences, Uglnoor-Lt. T'5 ~O "IT- Flying In the Cloud Of an Atomic UPIOSion 266 Lltvanenko X. ]Mh&yjOr of Air Personnel When the Airfield and Equipment fi&vt Been Contaminated Through Radiation 275 lydankIn- L- IRAgInter-Lt. Colonel). Field Radiation Monitoring LoStrUMNInto and Their Basic Elements and Quajity Coefficient$ 284 9"Ov, A. Development of the Techniques Of Radiation Survey and NadlatT66 monitoring 291 *3-- V--IC&ndld.t of Technical Sciences, Jtngln*or-Lt. Colonall, IMPSTWd-lation Survey 299 2 (EngInOor- Lt. Colonel). Decontamination of Aircraft309 Card 619  V PHASE I BOOK EXPLOITATION SOV/4503 Petrov, Nikolay Panteleymonovich, and Vladillen Pavlovich Syrnev Radioaktivnyye izlucheniya i ikh izmereniya (Radioactive Radiation and Measuremez~+-) 2nd ed., rev. and enl. Moscow, Voyenizdatt 1960. 190 p. (Series: Nauchno- populyarnaya biblioteka) Number of copies printed not give4~ Ed.: A.I. Sedov, Candidate of Technical Sciences~ Engineer, Lt. Colonel; Ed. of Fublishing House; Ya,M. Kader; Tech. Ed.; V.Ye. VQlkova. PURPOSE: This book is intended for officers of the Soviet Army, DOSAAF instructors, and those interested in radioactive radiation and the measurement of radioactive radiation. COVERAGE: The book deals with radioactive radiation and methods of detecting it and includes the fundamentals of ionizing-radiation dosimetry and methods of recording ionizing radiation. The design principles and construction of the basic types of dosimetric field instruments are described, and-operating in- structions are given for their utilization in a contaminated locality in the area of an atomic explosion. Considerable attention is given to the characteris- tics of radioactive radiation. No personalities are mentioned. There are no references. Card-+/-3-,  SYRNEV,,V.V. Clinical aapects of endarteritis lenta. Vrach. delo no-3:301 Mr 157. (MR1 10:5) 1. Gospitalinaya terapevtichaskaya kliniks eanitarno-giglyanichaskogo fakullteta Pervogo moskovskogo meditFsinskogo instituta. (ARTERIES -DISEASES )  SYRI&V, V.V. Rarely considered possibility for prolonged lowering of arterial blood pressure in hypertension. Sov.med. 21 no.10:108-112 0 157. (MIRA 11:1) 1. Iz kafedry obahchey i gospitallnoy terapii (zav. - deystvitell- nyy chlen Akademii meditsinskikh nauk SSSR prof. Ye.M.Tereyev) sanitarno-gigiyanicheskogo fakul'teta I Moskovskogo ordena Lenina meditsinskogo institute imeni I.M.Sathenova. (HYPERTINSION, case reports spontaneous regression)  S'-MNrE'V, V. V., Cand 1-Ind Sci. (diss) -- "Some aspects of t,-,e co-l-se of stages II ard !II of hyrpertension". Moscow, 1958. 19 PP (First Moscow Order of L-rdn NrA Tr!st fin T. M. S(-cheriovi, 200 copies (KL, ?,o ii, i,~)6o7 122)  . SYRIhily V.V-*, dotsent Method of instruction in clinical depar-bnents. Zdrav. Ros. Feder. 8 no.2:28-30 F163 (MIRA i7:3) 1. Kafedra fakulltetakoy terapii ( zav. - dotsent V.V.Syrney) Kemerovskogo meditsinskogo instituta.  46 S/' 53/60/003/004/036/040/XX B02O/BO54 AUTHORS: Tronov, B. V., Syrnevas N~ V,_ TITLE: Complexes of Aminobenzoic Acids and Their Salts Witb Meta-dinitro Benzene PERIODICAL: Izvestiya vysshikh uchebnykh zavedaniy. Khimiya i kh-4micheskaya tekhnologiya, 1960, Vol, 3, Noz 4, pp, 752 - 753 TEXT: The authors studied the complex formation of the following amino acids of the benzene serigs: ortho-~ meta-, and p-,aminobenzoic acid with meta-dinitro benzene; the latter is distinguished by a high elestron-ac- ceptor activity. The colorimetric investigation was ,,onducted in alco.- holic solution, since both dinitro benzene and aminobenzoic acids are soluble in alcohol, whereas simple; satura~sd amino acids are in-soluble in alcohol, In all three systems, the nolor is considerably intensified, the maximum exactly or almost exactly lying at a molar ratio of 1 :1 j which indicates that only one nitro group participates in the complex forma- tion. This is confirmed by the circumstance that sodium salts of amino Card 1/2  Complexes of Aminobenzoic Acids and Their S/153/60/003/0()4/036/040/XX Salts With Meta--dinitro Benzene B020/BO54 acids, in which the formation of a hydroCen bond is impossible, also showed a color intensification in systems with din,.tro benzene, the maximum lying at a ratio of 1:1. Crystalline c-.)mplexes with dinit-ro benzene were obtained from ortho- and para-aminobenzoi---~ acids, The op~, tical density was measured at I 90C by an ~)K -M (FEK-M) photoeleo tri.; colorimeter, Measurement rewilts are given in F4.gs- ! and 2. There are 2 figures and ! Soviet refer-n,~e, ASSOCIATION: Tomskiy politekhni,~-heskiy institut im. S. M. Kirova (Tomsk Polytechnic Institute imeni 3, M~ Kirov)~ Tomskiy meditsinskiy institut,, kafedra organicheskoy khimii (Tomsk Medisal Institute, Department of Organic Chem.1stry) SUBMITTED: July 15, 1958 Card 2/2  wittl d nitr be of amino~~nzolc acids und th-eir saltus 0 r 1r zenes. 1-.v.TFI 111:`-5 '61. (E.enzoic acid) (IlTitro'cenzene-)  rete"millin'r, tnf- lbri-.~:% in the process of aamplax formation of wminuberizoir ard air, -*Lr-.,-f)x.3bf-, nzc c ac;d's and their sodlr.m salts wi''J: din-Itrobenzenes. lzv,,,,y5, ut.!heb.,zav.,fiz. -4. (~ JFLA 17,b) n z 'i; inotitu-' pri Tom.A,Ili gooudars'- Z7L  Ll 10 0 * 0 0 1, 03 It ?I tj it T rh p la $1 U id a v a SO 0 41 Q C r 4-..L --L. At At A-- - 1 : 0 The pisallpagaktf. of thO UOW Olkslnlj lb bi No. 1 4 C 041 , . (194 1) - Kkbo. Nrleal. Zkw. 4. No. 7 -10. IU5(1941)- 00 Th. j4;y%kvChem. ~~, tht mol. strut-tuft and the of hakanwhine, MCII(NIMOC14011. 00 Hal--hine was obtained from llal,,- stocky$ ctisp-id. family Chenopodiarear. The phartnactol. he-frine ( h . at o Cp actWit (it haltrolachine is w to t :0 Itelln *0 *0 0 00 of _00 000 -00 .00 Poe TIO !be Too woo t!oe be* fte* /1 C, "Se"C&TIC. g I- v -c-- to to (I K it it it 0 14 9 or 0 0;0 0 a 00 0 0  y, "L: - T'j-d 1 ln,n z;tr-,f LL! U  ivOO000000900001111 0 000 00 0 001 1, ?let& is a 11 a a M is v is , v GOA 00 PIPOC111111 AND PROP101,16 ixtiff Pharniacolea of tracnemtsmis p-anuummu,,uste ester. i Tobike,4. 9. No. 5. 0 : "fifamine pe-aminobenTuate ester (1) more in cats under urethan narensis: 0 tit ilu,%ft of 10 mg. or limrts hh-Awl pce,,etute and stimulat" respitotidon. A. a I- live ve, .11111tildlit. I Is deftly it, I,.,. &~ a.-fiv, :40 a(loplue. S.,1111. tit 1. it 441 li.p.111. dif 111411,1, a 1%ottidilytic action on lsolatcd cubbit int"Ifter. Aors- Ortic action III% rabbit utefus was absent at 0.5%. letr(LAI :0 It 1%, Complete at 1.5% colien. of I (Jur4tioli 3(~-40 inin.). At 2"' the duration was 45-W min. J. F. S. '', it a is 66 d. 4 so -00 ROO coo coo 00 coo $00 Igoe 1:1410 A111-11,1k WALLUROCARI. MINAT4119 CLASSIORKAUCIN 11140 t took. 11.1111.4 few aie- Sol 9 note coil 111111 S1111 Karl Iting ji, 0 of 0 0 0 a a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 000400 0 a  a A a a a a 0 V I a k. 1~ 1) 11 W it L4 17 16 A 11 n D AS JS A V X P X It V if Is k V 4 0 Q it a it 111 0;2 0 Ab-C 2, L-j --k-ft- J. -&--k- a X-P- 0 4 -3. Of I T -M'-WU-AD-U4't-J L-A-A-L, ji-A J-- J- -I- 04P oo( ff ..' - . , . . I ~.' ... .!~ 00 COMPW&til~ pharniscology 01;ttyphylline and stroplaft. 00.2 00 Vu- 1. Syrne". Fafmasm. i 4rikid. 9, No. 6, 16-25 -40 00 (194M"~Pl'ktTP"1ine (1) in small do," %titntdates the central nervous 67stem; In Isolated cat heart it has a pos. 00 ino(ropic and chnsectropic action at 0 .1-1 p.p.m. and is 0 0 a cardiac depressant at loo-I(M p.p.m. For mice the 041 M.L.D. (by subcutaneous inj". ion) is s mg.; min. d- fective do*, " m4. The hypotensive action of I is a I o0 ue to depression of the vasotWur ctnters in the medulla 014011WIL. Both I and Atr*tlt (11) havv mydriatic effects (11 is about 20 times as active as 1) in cats and Z'! oppose the pupil-contracting effect 0( pilocarpine or p1ty"figmine. The lowest effective concri. was lix) =00 00 - P.P.M. for I and 5 P.P.M. for U. Tests of Canine Saliva. 0 tion show that I actively influences the parasympathetic, 0 :,3 but not the sympathetic, innervation oF the salivary coo glands. On snitooth muscle (Subses-pig uterus) 11 exert% too 0 a clsoline-.a". action at 0.25 and I at 5-10 p.p.m. But 00 a in spa-.wmolytw action I is susic" to ff. as shown by expils. 10 ith 0.03% BaCA. on IwWtd rshW Intestine (I was twice 2 goo and comparative effects an sympathetic - i 400 Clinical tests confirm the greater sptL%rno- lytic-i'-ty-ii1l, In cats and dogs medium (30-40 tits. I and large (50-100 Ing.) floe" of I lower Iff'otil prMutre by action on the vasomotor nerve centers, cuup(ed (its (arse floses) with cardiac depression. ulian F. Smith Is ~0. t1go I L Itz' Wes '00 L g- -fw a M N it 13 As 4 1 9 U it 0) is its ff it if to Ifil 1(9 of Ott Irefolon 1) 14 Ott! o0 o 0 0 sis q o 09 go 0 goo* 0 0, 0 o 0 0 00000 006000 091 0 4 0 0 0 0 0 : : : : : . 610 oso 0 0 Me 00 0 0 00 0 , - . -"A* 0 00 ~  41- kv~-Ituitfoc,L Of extiads ai A uslis and Cowr~rla majalls art eels'. vu. 1. Symeva itad A a P. 14. bramov ze - , fait.. 111n6try of Health. U.S.S.R.). ~ A : jechttac veto 2, No. 6, 2"1(1953).-The cat aud frog Me rlr~ mis am equiv; fu as&-tying wptm. d C waptis; fit the case of A. vernaUs ftop aTe to W preferted because they ate less' C subj(vt to !1emotim and ludividuat VuLatfur4. Cats C41gh wed anly whol ftugi mic UnavallAle. A. a. 34,  Yo. 7--, rfts at ffocaLue amid Ar =16 to a,- 13 'or., x U. 1. Z [My-. I If& WdUe a. .. 4. E amide, a 'ad. ~ Soviet-made pronest 1. at 25-50 mg./kC. in narcotized cats deseasitizes cardiac muscle and slows aurkle-to-ventricle tra It fmpedcs development ot sffhyth- ulat;on. and relieves arrhythmia ia- duced by aconitine. Ite'Sovict and imported prcpns. am identical in ta.p., pharmacol. properties, and toxicity.  4TT V I CATMORY Phamacology and Toxicology. Ganglionic Blocking Agents AD JO UPL. P7,hBi,)'-'. 3 No. 5 !959) ?q,. 23096 Syrneva, YD. 1. T I TLE Nanof-In, a New Ganglionic Blocking Drug MO. PUB. Ned. Drom-st' SSSR, 19571'~liTo 6, 42-43 k A.93TRACT 111anof in (N) (hydrochloride of the isormar of 2,6- dirueflftylpiperidine) is a synthetic optic r1cemate of one of the alkaloids oontained in Yanophyton erinaceum. 11 is 'little toxic. its garglionic blocking action exceeds the aebior, of tetraethyl- amiionium b,-y 5-7 tiraes. The decrease of arterial pressure JIM animals (within the limits of 40 mn, of mercury), following intravenous introduction ?5  A-tlfl. jOUTR. T?ZhBirl.> Nz-5 19591 N,-,. 2--,096 A UTI 1 (1, 1 Z r DFIGI. v Al"10MUCT I fi-inct-ion. It, la proscriborl, poT- o-i, In doons of T,on'-fd 0.1-0.42 -, 2-3 times a clay, subcutaneously and intravenolasly, In doses of 1 ml of 2% or 5% so- lution, 2-3 tines a day. Average 'duration of t'he treatinent is 3-4 weeks.- E. -I. Kandell Card:  SYRUEVA, Yu.1. Relation between the structure and the effect of certain aryl amino alcohols [with summary in English]. Yarn. i toks. 20 no.4:7-14 Jl-Ig 157. (MKRA 10:11) 1. Otdel farmakologii (zav. - prof. M.D.Kahakovskiv) Vsesoyuznogo nauchno-issledovatellskogo khimiko-farmetsevticheBkogo institute imeni B.Ordzhonikidze. (ALCOHOLS, aryl amino alcohols, relation of structure to eff. (Rua))   SYRNEVA, Yu.1. ai on of structure to the effect on the adrenoreactive system of certain aryltetrnhydrooxazoles. Farm. i toks. 20 no.6:15-20 I-D 158 (mru 11:6) 1. Otdel farmakologii (zav. - prof. M.D. Mashkovskiy) Veesoyuznogo nauchno-iBsledovateliskogo khimiko-fnrmatsevticheskogo institute imeni S. Ordzhonikidze* (SYMP.ATHOMIMETICSO aryltetrahydrooxazoles. review (Rus))  byRIlAvit, '111.1. - . ~ - .1 Tli4 antispasmodic drug, homamidine. Med.prom. 13 no-1:56-57 Ja '59. (MIRA 12:10) 1. Vi3esonmzyV-y nauchno-'isoledovatellskiv khimiko-farmatsevtiche- skiy Institut imeni S-Ordzhonikidze. (PYRIMIDINE) (AIITICOIMJLSANTS)  5 (3) AUTHORS: Danilova, A. V., Utkin, L. M., SOV79-29-7-72/83 Kozyreva, G. V., Syrneva, Yu. I. TITLE: A New Alkaloid Which Is an Isomer of Platyphyllin (TTOVYY alkaloid, izomernyy platitillinu) PERIODICAL: Zhurnal obshchey khimii, 1959, Vol 29, Nr 7, PP 2432-2436 (USSR) JUSTRACT: Platyphyllin bitartrate is prepared from the broadleaved Senecio platyphyllus. As to its chemical structure the platyphyllin is a diester of platynecin arid the senecinic acid (Ref 1). In the processing of the industrially manufactured alcoholic mother .liquids a new base which had been called neoplatyphyllin was obtained on separation and recrystallization of platyphyllin bitartrate. As to composition and functional groups, this new base is identical with platyphyllin. Their basicity and infrared absorption spectra (Fig) show little difference, but as fax as the physical properties are concerned, the neoplatyphyllin and its salts differ from platyphyllin and its salts. The bitartrate of neoplatyphyllin shows well pronounced cholinolytic and spasmolytic properties. As to activity and mode of action it is closely related with platyphyllin, but it is twice as toxic. Card 1/3 Alkaline and acid hydrolysis of both compounds yield the sam-e  A New Alkaloid Which Is an Isomer of Platyphyllin SOV/79-29-7-72/83 products. The authors assume that the difference be-hteen both bases is due to the steric configuration of the acid component of their molecules because, is is known, the "necinic" a('.ids With double bonds show in addition to the optical isomm7ism also the geometrical one (Ref 2). The structure of the senecinic acid corresponds with the formula (I) (Ref 3)- In order to investigate further the properties of both compounds the alkaloids were reduced with LiAlH . The resultant trivalent alcohols had to possess.structure ~II), according to the structure of the senecinic acid. The chemical and spectroscopic results obtained confirm the assumption of the authors that the different spatial configuration of the esterifying acids is the cause of the difference between neoplatyphyllin and platyphyllin. The formation of a trivalent alcohol from the senecinic acid, by treating it with alkali liquor, which is qualitatively different from the alcohols obtained by direct reduction of the alkaloids, confirms the observation that the "necinic" acids separated by alkaline hydrolysis of the alkaloids of the species Senecio possess a configuration which differs from that in which they enter into Card 2/3 the composition of the alkaloid molecules. There are I figure  A New Alkaloid Which Is an Isomer of Platyphyllin SOV/79-29-7-,72/83 and 3 references, 2 of which are Soviet. ASSOCIATION: Vsesoyuznyy nauchno-issledovatellskiy khimiko-farmatsevticheskiy institut imeni S. Ordzhonikidze (All-Union Scientific Chemicopharmaceutical Research Institute imeni S. Ordzhonikidze) SUBMITTED: Llay 25, 1958 Card 3/3  SMEVA, Yu.j. Pharmacology of nanofin. Khim. i med. no.15:70-76 160. (I'IIRA 15:1) 1. Iz otdela farmakologii (zav. - prof. M.D.Mashkovskiy) Vsesoyuznogo nauchno-issledovatellskogo khimiko-farmatsevticheskogo instituta imeni S. Ordzhonikidze. (PIPERIDIR-E-PHYSIOLGGICAL EFFECT)  t"- SYRNEVAt YU.I.; ABRAMOVA, P.N. Data on comparative studies of the activity of crystalline eymarin and a standard liquid Adoni~ preparation on R. tempraria. Farm.i toks. 23 no.6:521-525 N-D 160. (MIRA .14:3) 1. Otde'1 f-armakologii (zav. - prof. M.D.Mashkovskiy) Vsesoyuznogo nauchno-issledavateliskogo kbimi o.- armatsev-ticheskogo institnts, imeni S. OrdzhonikidzA. (ADONIS) , (CARDIAC GLYGOSIDES)  8 Yid&VA Y YU. I. Relationship betwoen the structure and effect of certain 2,6- dimethylpiperidine derivatives on the choline reactive systems. Farm. toks. 24 no.3;304,309 MY-Je 161. MIRA 15:1) 1. Otdel farmakologii (zav. - prof. M.D.14ashkovskiy) Vsesoyuznogo nauclmo-issledova.tellskogo khimiko-farmatsevticheskogo institats. imeni S.Ordzhonikidze (FIFERDIME (CHOLINE) (MMUS SYSTIN)  SYfOlEVA, Yu.I.; SUKHEIETA, G.P. Data on a comparative test of crystalline convallatoxin and liquid standard Convallaria on frogs. Farmakbl.toksik. 26 no.3: 323-327 My-.Te'63 (MIRA 17:2) 1. Laboratoriya biologicheskogo kontrolya (rakovoditell - kand. med. nauk Yu.I.Syrneva) Vgesoyuznogo nauchro-issledovatel'skogo khimiko-farmatsev-ticheskogo instituta imeni S. Ordzhonikidze.  S S G. P, YWIEVA Yu 1 SUKHININA, Frarmac-lowical properties of /-chloroethyldifur'--r- 1- ylair,,re. Farm. i toks. 28 no.1:33-36 JA-F 165. (IIJ RA. 2 S.- -12 1. Laboratoriya biologicheskogo kontrolya (zav. - kand.med.nauk Yu.I.Syrneva) Vsesoyuznogo nauchno-issledovatellskogo khimilko- farmatsevtielleskogo instituta imeni S.Ordzlionikidze, Moskva. Submitted October 30p 1963.   L 15732-66 EWT(m)/ ~/)~~T(b) ljp(c) JDIJW ACC NR: AP6000893 SOURCE CODE: UR/0181/65/007/012/3689/31W AUTHORS: Petrov, M. P.; Smolenskiy, Q. A.; Syrnikov, P. P. ORG: Institute of Semiconductors,AN,SSSR, Leningrad (Institut poluprovodnikov AN SSSR) TITLE: Nuclear magnetic resonance in RbMnF3 SOURCE,a Fizika tverdogo tela, v. 7. no. 12, 1965, 3689-3690 TOPIC TAGS: nuclear magnetic resonance, rubidium, fluorine, line shape, line broadening ABSTRACT:.-IMeasuiFements of the nuclear magnetic resonance were made on the Rbland F"ftuclel at room temperature., using a weak-oscillation. generator. T9_e_ RbV1nF were synthesized from the cold RbF and MnC1 3 2 by beating to a temperature -700C. It was found that the magnetic field acting on the F and Rb nuclei in the polycrystal is not equal 19 to the external applied field. In the case of F, the NMR line bad Card 1/2  L 15732-& ACC NR: AP6000893 an asymmetrical shape, while that of 87 Rb had a Lorentz shape. The ratio a = WHO where AH is the supplementary magnetic field on the nucleus was 0.022 + 0.003 and -(1.9,� 0.2) x 10- for F and Rb, respectively. In the case'of measurements on polycrystalline RbNiF 3 with hexagonal structure, no resonance was observed on 87Rb probably. 19 because of quadrupole broadening and the NMR line of F had a com- licated form with a 0.0058. Authors thank A. G. Tutov for an p x-ray analysis of the crystal and S. A. Kizhayev for magnetic measure- ments. SUB OODFA 07/ SUBM DATFA l4jul65/ ORIG REFI 002/ OTH REF11003 2 Card  L 2606346 DM1)/ENT(m)/T/EWP(w)/EWP(t) --IJP(c) jD/IfN/JG ACC NRi AP6015808 SOURCE CODE: up/0386/66/003/01o/6416/042:9 J_ P. AUTHOR: Smolenskiy.. G. A.; Yudinj V.~M.; Syrnikov P. ; Sherman, A. B. 7 ORG: Institute of Semiconductors, AcadM of cie6ces SSSR (Instittit poluprovodnikov Akadear nauk SSSR) TITLE; The transparent hexagonal ferrimagnet RbNiF3 SOURCE: Zhurnal eksperimentallnoy i teoretillesk2~ fiziki. Pis'ma v redaktoiyu. Prilozheniyep v- 31 no. lo,, l966., 416-419 TOPIC TAGS: antiferromagnetism,, magnetic moment, saturation magnetization., magnetic anisotropy., rubidium compound, Curie point ABSTRACT: . Since investigations of the magnetic properties of RbNiF3 have hitherto,- been confined to the paramagnetic regions and to polycrystals, the authors have in- vestigated the magnetidVpro~erties of single-crystal RbNiF~~, using .a magnetic balance and the Fwadaf1MM-5&,-M-fTeM&_TY5_m 2 to 14 koe, bath above and below the magnetic- transition temperature. T sinale crystal have been obtained by an exchan e deccM- position reaction at 960c%~They are transparent in visible lightp and have the in- teresting feature that in the temperdture interval from TT to 90OK they change their. color continuously from bright green to pink. The resistivity at room temperature exceeds IOIJL ohm-cm., and the dielectric constant is of the order 5--6. Iarge and perfect crystals (15 x 5 x 5 M) Vithdiib cleavage planes can be obtained with relative ease. The dependence of the pareiijEeiic susceptibility on the temperature has a Card 1/2  -L 26063-66 ACC NRi AP6015808 form characteristic of ferrimagnets. The magnetic ordering sets in at 145K. Plot were obtained of the magnetic moment at 77K against the field intensity and again:: the temperature in the direction along the hexagonal axis and perpendicular to it. From these plots it is possible to estimate the field of negative uniaxiial aniso- tropy- at 77K (-25 koe) and the sum of the magnetic anisotrolry constants (KjL + N2 -0.4 x.108 erg/cm3). The results are interpreted from the point of view of the collinear model of ferrimagnetism. The value obtained on this basis for the specific magnetization is 18 0-cm3/deg, Although the obtained value of the saturation magneti- zation per formula unit at O'K is found to be somewhat lower than the theoretical value (-213 Bohr magnetons),the difference is attrib t high temperature Of ,;u~Med to he the experiment (more than half the Curie temp e The results show that on ap- proaching the Curie point the anisotropy constants decrease rapiffiy, and this gives-~ rise to a spontaneous magnetic moment. It is concluded on the basis of all, the data that, RbNiF3 is a transparent ferrimagnet of the ferroxplan type. Orig. art. has: 2 figures. SUB CODE: 20/. SUBM DATE: 25Mar66/. ORIG REF: 001/ 07H REF: 003 Card 2/2 6  L 23028-66 Fia (.1 001T I -.;'P W JD/INT .ACC NR: Ap6oo966o SOURCE CODE: UR/0181/66/008/003/0783/0787 1AUTHORS: Pisarev., R. V. jN~ ayeva., A. I.; Syrnikov, P. P. _Ly 1--cM ::ORG: Institute of Semiconductors,AN SSSR, Leningrad (Institut ;poluprovodnikov C02+ ,iTITLE: Structure of.energy levels and exchange interaction of lions in NaCoF 3 iSOURCE: Fizika tverdogo tela, v. 8, no. 3, 1966, 783-787 ITOPIC TAGS: energy band structure, cobalt compound, single crystal, ;light absorption, optic transition line shift ,ABSTRACT: The authors Investigated the spectrum of optical absoMt1cn1! :of NaCoF in the interval from 5,000 to 30,000 cm (2 -- 0.33 P). 3 ~The single crystals were obtained by chemical reaction of NaCl with ;,CoF The experiments were made in tightly sealed platinum crucibles4 2' IThe absorption spectra were investigated in the' ultraviolet and Card  L 23028,66 !ACC NR: Ap6oo9660' ivisible regions using diffraction spectrographs (DFS-8 and DFS-12) !and a double prism monochromator PMR-4). The measurements were made7: !at 4.2. 20.4 -- 6o, 77, and 295K. The observed absorption bands are i 2+ ficlentified with transitions inside the 3d electron shell of the Co ion in a cubic crystalline field. It is shown that near 35K one of .Itbe absorption lines is strongly shifted, owing to the transition of i Ithe NaCoF into a magnetically-ordered state. It is observed that at! 2 2 (2 !low temperatures the state E H) splits into two lines (AV = 36 om-),! one of which disappears when the temperature is raised to 60K. The n be- ,possibility that this splitting is due to exchange interactio 1tween the paramagnetic ions is discussed, although the data obtained 'so far do not prove this completely. The authors thank G. A. iSmolenskiy.for interest in the work and a discussion of the resul ~V. V. Yeremenko for a discussion of the results, and E. V. Matyush in~_._ or help wl-tfi--the measurements. Orig. art. has: 4 figures, 2 formiflas band 1 table.. SUB CODE: 20/ SUBM DATE,:-24jul65 ORIG REF: 002/ OTH REF: 005 Card 2/2 N  L- 24379-66 ACC NR: AP6009702 SOURCE CODE: uR/ol8l/66/008/003/0975/0977 AUTHOR: Pisarev, R. V.; Prokhorova, S. D.; Syrnikov, P. P. ngrad-T-T-nstitut poluprovodnikov AN SSSR Leni ORG: Institute of Semiconducto~Ajj Sq�R TITLE: Changes in the intensity of the electronic transitions of the M24'land IIJ?+ ions in the antiferromagnet NaNiO.98MO.04F3 SOURCE: Fizika tverdogo tela, v. 8., no- 31 1966, 975-977 TOPIC TAGS: antiferromagnetic material, manganese, nickel, light absorption, electroin transition, absorption spectrum, line Intensity) spectral line ABSTRACT: The authors report on an investigation of the intensity of the electronic transitions of both Me+ and Ni2+ in the antiferromagnets NaNiF3 and NaNio.q6Mno.04F31 by measuring the optical absorption in a broad spectral interval, making it possible to draw certain definite conclusions concerning the growth of the transition intensi- ty. The absorption spectra were investigated photmetrically with a double prism mono-I chromator (DIMRA). 1he results (Fig. 1) show the effect of a mutual influence of the and M2-1 ions, resulting in an increase in the intensity of certain absorption lines of these ions. Vie greatest interaction was. observed in those regions of the spectrimi where both ions, have. closely 1,)rlrg 1,.-vels, prov-1dad that the symmetnr pr n- ciples impose no limitations on the possible interaction. It I.-, concluded th4t the gre'Otest role in the observed intcn-c-i-fication of the spectral-line intensity is prob- ably played by exchange 1xiter&ction br;tween 3(!-ions. 'Die trtapsltions responsible for Cqrd_1~2  ACC NR- Fig. 1. Absorption spectrum of single crystals of NaNiP.5 (1) and NaNio,9614no.04r-3 (2) at 77K. s -- coefficient V of molecular extinction 4 the different spectral lines are briefly analyzed and the absorption spectra evalu- ated and compared -with other data. The authors thank-Q,-A-.Bmojenskiy for interest in the work and valuable remexks, and P. V. Usachey for a chemical analysis of the cx7.stals. Orig. art. has: I figure and 1 table. SUB CODE-07/ SUBMBATE 21oL-t65/ OTH REP-. 002 Card 2/2  ACC NRI AF603355T SOURCE COPE: uR/o18l/66/oo8/o1o/2q65/2q6q AUTHOR: Smolenskiyj G. A.; Yudinj V. M.; Syrnikov., P. P.*- Shermr-n, A. B. ORG: Institute of Semiconductors, AN SSSR, Leningrad (Institut polupravodnikov AN SSSR) TITLE: The transparent hexagonal ferrimagnet RbN1iF3 ISOURCE: Fizika tverdogo tela, v. 8, no. 10, 1966, 2965-2969 TOPIC TAGS: rubidium compound, magnetic property.. magnetic susceptibility, magnetic anisotropy, Curie point, magnetic structure ABSTRACT: The purpose of the investigation was to Audy the magnetic properties of single-crystal RbNiF3, both above and below the magnetic-transition temperature, in view of the fact that they were hitherto investigated only in the paramagnetic region in single-crystal form. Transparent RbNiF3 crystals with low dielectric losses can be of interest for modulation of light beams in microwave devices at low temperatures. The single crystals were obtained by exchange decomposition at high temperatures. The. magnetic propprties were investigated with a magnetic balanceb:~,the Faraday method in fields from 2 - 14 kOe. The apparatus was described earli6i-(M v. 6., 3668, 1964) and was modified to accommodate anisotropic crystals. The reciprocal magnetic sus- ,ceptibility was measured as a function of the temperature and the magne-tic-moment com- ponents were determined as functions of the field intensity at different temperatures. The results confirm that RbNiF3 is a ferrimagnet of the ferroxplan type with a'Curie 2 Card  ACC NR: AY-6033557 temperature of 145K. The magnetic structure and the magnetic anisotropy of Rb',,%'iF3 exhibit a complicated variation which can be interpreted from the point, of view of the assumption that as the temperature is increased the magnetic structure changes from one with an easy-magnetization plan to one having a cone of easy-magentization directions. Orig..art. has: 6 figures and 5 formulas. SUB CODE: 20/ SUBM DATE: 03M6101 ORIO REF. 002/ OTH REF: 005 Card 2/2  ACC NR1 AF7005318 S-0-URC_E'_C0D~:*' li~/63BV67/10,(*/ID6V(~02i/60'4)61 AUTHOR: Nesterovaj, N. N.; Siniy., I. G.; Pisarevy R. V.; Syrnikavl-F.J. ORG: Institute of Semiconductors AN SSSR, Leningrad(Institut poluprovodnikov A SSSR) TITLE; RbCoF3 Infrared absorption spectrum of the antiferromagnete WaCoF3., KCoF3,, and SWRCE: Fizika, tverdogo tela.. Y. 9j, no. 1,, 1967, 21-26 TOPIC TAGS-. antiferromagnetic material, ir spectrum, absorption spectrum, absorption edge, spin orbit coupling ABSTRACT: The authors investigated the optical absorption of these antiferroriagnets (with perovskite structure) in the region T50 - 2000 cm-2- at 7T and 295K. One of the purposes of the investigation was to determine the influence of the exchange inter- action and to obtain a clear cut spectrum. The single crystals were grown from the melt and the absorption spectra were measured with an IKS-21 spectrometer. All the compounds exhibited an absorption band near 1200 cm-1 and weak bands at the absorp- tion edge of the lattice. The 1200 cm-1 band is identified with the re - r7 transi- tion between the split levels of the orbital triplet. When the temperature is de- creased from 295 to 77K,. an increase of 40 cm73- in the half-width of this absorption band is observed in KCoF3) and decreases of 55 and 20-cm7i are bbserved in the half- widths of the absorption bands in 1WoF3 and WoF3. The results show that the spin- Card 1/2  ACC NR' AP700533B orbit interaction constant does not depend on the crystalline field. The authors thank G. A. Smolenskiy for continuous interest iit the work and a discussion of the results and S. D. Prokhorova for marW measurements. Orig. art. has: 4 figures, 2 formulas, and 2 tables. SUB CODE: 20/ SUBM DAT.E: lQpr66/ ORIG REF: 004/ OM F".. olo Card 2/2  SYRNIKDV, V.P., sanitarnyy vrach . V-'~ Occupational poisoning caused by preparing dry Ascomycetes. Zdrav. Belor. 5 no.1:53 Ja 159. (MIRA 12:7) 1 1. Gomel'skiy oblastuoy soyuz potrebitel'skikh kooperativov. (YWROOMS-PHYSIOLOGIVAL X"WT) r  USSR/PhYsical Chemistry - Solutions. Theory of Acids and Bases, B-11. Abst Journal: Referat Zhur - M21miya,, No l., 1957.. 494 Author; Syrnikov, Ye. P. Institution: Leningrad Academy of Forest Technology Title: On the Structure of ionic Solutions Original Periodical: Tekhn. inform. po rezulltatam-nauch.-issled. rabot. Leningr. leso- tekhn. akad.Y 1956, No 38, 64.-70 Abstract: Salvation is due to 2 effectal the formation of a stable envelope around the ion and changei3 in the structure of the "free" portion of the solvent under the action of the electrostatic fields of the ions. IfY according to the views of Hall (iEail, Phys. Rev., 1948, Lj, No 7)., we consider water to be composed of 2 types of structures which are in dynamic equilibrium, we can write the equation AF = Wo - (X3V337, where 8F and AFO are the differences in the free energy of the in- dicated. structures in the presence and in the absence of an external field, n is the mole fraction of the dissolved salt, and & is a Card V2  MIKHAYLOV, I.G.; SYRNIKOV, Yu.P. Sound velocity and structure of liquids. Vest. WU P, no.?:P,1-98 F '53. (MIRA 12:7) (Ultrasonic waves--Speed) (Liquids)  SYRNIKOV, Yu. P., Cand Phys-Math Sci -- (diss)"Condensability of electrolyte solutions and certain problems of the theory of these solutions." Len, 1958. 11 pp (Len Order of Lenin State Univ im A. A. 2hdanov), 150 copies (KL, 35-58, 105) -5-  24(l) PHASE I BOOK EXPLOITATION SOV3150 V&S,ronslyokaya konferenraiya profea,aorov I prepodlivatelty padago- gichookikh Institutov ..PrIR:neniye ul-traakustiki k Inaledovanlyu veshchestvs; trudy kon- f r4ntail, Vyp. 7 (Application of ultrasonics C.7r Analysis of 3ubatanc*a, Tranaikerione at the All-Russlan Conference or Pro- fessors and Teachers or Pedagogical Institutes, hr 7) Moscow, Izd . xOpit 1958. 283 V. 1o500 copies printed. Tech. Ed.1 S. P. Zhitov; Eda.f V. F. Notdrvv. Professor, And R. Kudryavtaev. PURPMEs This book to intended for phyliCigt3. t0Ch=ICiSnS, &erO- naut Ical engineers and other persons concerned with ultrasonic COVERA093 The book contains twenty eight articles which treat ul:rA_ - son is ;phenomena in rivo gen:rAlesategories: 1) historical data an th development of ult ra oni in trio Soviet Union over the past arty years; 2) the speed of Sound In Buop"o, tons Of varying concentration and number and type of z-c=pcnenl. And the relatlon- between sound volac~~a~nd thit iniiity oral:ctrolytee. ship _5pm r~ 3Tultraxonlc Investigations or physical and chemical properties of materials and the determination or physcal and chemical can- stantd, 0. S, density of aqueous solutions, adiabatic compromaj. bIl1t7j solarity Of solutions (with given temperatures). viscosity, surface tonalon, saturation pressure and also ultrasonic Inve3tl- ,at Ion of the carbon content and petrographic state or coall 4) industrial applications or ultrasonics, e. g. emuls3fication or reagents, cleansing or textile fibers and enhancing the sucepti- bility of some synthetle r1b:ra to dy*lng, etc. . and 5) app4r&tw which produce ultrasonic wav a, So personalitles are mentioned. artjl Ki~"Ylov, L,_Q. and jU_Z__%grn1kau._ The Problem a.' the Compressibility of SOIutIonW-10r-Z1acCrOljte3 65 !_A_k.~oxa, nd .00 Ichko In- d C~ft ysstlgAt on o? the Phy4ical,an amica pert ea or Aqueous Solutions or Rlmathyl Formamide in the Temperature Interval Proo; 20 to 90 C With the Ultrasonic And Otter Feth*d* T5 OtpushehannIkov,__9_.Z; Investigation or the Speed or Ultra- e5Un&_rn-W&_-phTE& I one and Hyponuirite In tht R3nge or Fnane Order 91 The Dependency of the Absorption of Uj_r._rZ-----v .61141nadc`~UponAjts intensity I I 101 ~?rshln%On, Ye. M., The Use of Ultrasound to Crea%v Periodic Structures 105 1 WoLtov' N. and J~~~- 30" N!w P'Agnetostric- ,!Irv hai~j; ~s_; Savin1khLrin, -A--V- Ultrasonic Method or Dete=-nilnz the -Sa-tur-affo-5-7rauxure or Plastic Liquids 121 Orl6hin, A P Ultruscnlc Method of Investigating the rye at lizatitn Process of Paraflnic Petroleum Prouct. 127 Ns"v*YGv. A. K. and Ye. a. Kltrtynov. Sp4el or ftopagation I 135 D. Emulsification of Flotation Reagents by --Ultriaon c waves __ Oreahnff-y" _ - I I - 1 143 V1 - --4--L- tnveatigatlon of the E trabound on the Physical and HyZj*njcrf*ct Of Sound and During Purification Process Fropyrtiteg of Fibers Gorgshko,G- V- 11-A-Dmitriyeva and "I., Fiber or-on or Ul'kr4i_0_u_nd_D_6_rfF-9 Dyeing or palyacrylo ltrile the "Nitron' Type n 161  AUI~HORS : Mikhaylov, I.G., Soiov'yev, V. A., Syrnikov, Yu. P. TITIE T;ie Main Problems of Molecular Acoustics (0snovny,7e problemy sovremennoy molei"Culyarnoy akustiki) PEMIODPJAL: Akusticheskiy Zhurnal, 1958,,Vol 4, Ar 3, pp 211-222 (USSR) A.BSTRA'C'T: This is a review of the present state of molecular acOu.:-1-Z:ics. Both Western and Russian worh is considered. In vie-w of 6"11~2 relativ-- simplicity of ultrasonic uethods the velocity of sDand has been measured in a very large number of liquids. The velocity has been correlated with various macroscopic and microscopic properties of liquids and various emDirical rules have been suggested. Among these rules is the one duo. to Rao, The authors point out that in their opinion Rao's rule does not summarise any special molecular mechanism. This is sh6vtn above all by the approximate nature of this -result and:its limited range of applicability. The correct way of devqloping theoretical molecular acoustics would be calculate the compressibility and hence the velocity of sOund, rather than to try and find-a. theoretical foundation for Rao's lavy, However, as is viell i-movm. this is very difficult and has not a~ yet been done. 8ome attempts have Card 1/3 been -,~riade ~o calculate Vie velocity of sound directly from  O-OV-46-4-3-1/18 The, Main Problems of Cllonte=porary Molecular Acoustics raolec~.ilar consid---rations (Refs.6 and 7) but in these attempts the velocity was obtained not throulgh a solution of the ~7_irietic enuation but by usinG very ai-.)-,)roxiriate models. These Calculations Five the right order of magnitude for the velocity of sound but -they are quite useless in providing inform-ation, on the actual structure of the particular liquid. Relaxablon theory points to a connection between volume vis- cosity and irreversible processes leading to equilibrium. Some viork on this has been done by 11andel'shtam and others (Rofs,lo' and 17). In the authors! opinion, Frenkel's theory gives the most corre3t physical picture of the structure of liquids. Unfortunately, at the present time the mathematical apparatus of this theory is not sufficiently developed. The authors consider that a development of Frenkel 'Is theory in :,cnerai. and its aT-,,plication to the calculation of compress- Ibi-Liti6s in --oarti-cular, would be )f major value in the -,-resent context. Among the problems discussed in the present review is the problem as to whether relaxation processes are 2/3  ,~r'V_LJ.6-4-3-1/18 Problo:-!s of llaontemporarj ItIolecular Acoustics ~I ulle only reason for the existence of volame viscosity. The authors consider that it is. On the ex-perim~~ntal side it 4 - U _.~i pointed out that in many experiments on -11-he absorption of sound in liquids the intensitj of ultrasonic waves not talKen into account,, On the other hand, it has been established (Refs.52-54) that the coefficient of absorpt_i-_,n Uoes depend on t-he intensity even for relatively low amoli- tudes. knothenr experimental point is bbat measurements of absorption of ultrason-ic waves sliould be carried out in a wider frequency range. There are no figures or table, 57 vefe-ences, of 26 are Soviet, ASSOCIATION: Lenin-crads'Kiy i--'03Udar3tve_r1myy iniversituet (Leningrad 3tate University) SUB"JITTEPD: &,_,,~tembor 14, 1957. 1. Acoustics 2. Sound--VelociLy 3. Liquids--Acoustic properties Card 3/3  AUTHORS: Ifikhaylov, I.G., Syrnikov, Yu 54-1 o.2-0 6 TITLE: The Compressibility of Electrolyte Solutions and the Influence Fdwrt,dd:. ' by Ions on the Structure ofWater (Szhimayemost' rastvorov elektrolitov i vliyaniye ionov na struktura vody) PERIODICAL: Vestnik Leningradskogo Universiteta,Seriya ffilkI i-'kb4-Ti 1958, Vol.1 0., Nr 2 ) pp. 5-14 (USSR) ABSTRACT: Abundant experimental material concerning the velocity of sound and the compressibility of electrolyte solutions is at present available. Much is, however, still unclear and there is a con- siderable difference in opinions concerning the interpretation of these data. It is knovm that all anomalies of water are con- nectea with its structure. A mere study of quality cannot, how- ever, help to clear up existing contradictory data, and there- fore a thorough qualitative analysis is necessary. In the present paper the authors succeeded to find comparatively simple corre- lations which, basing on one point of view, provide a sufficient explanation for experiments with solutions as well as experiments relating to changes caused in water under pressure. Wher~tuaying Card 1/3 the compressibility of electrolyte solutions 2 effects Tmist be  The Compressibility of Electrolyte Solutions and the 54-1~o_2-1/16 Influence B=rted,. by Ions on the Structure of Water taken into account: a) The influence exercised by ions on the structure of water, and b) the presence of an ion lattice in the solution. When investigating the influence exercised by ions upon the structure of water it is advisable to distinguish be- tween 2 effects: a) Hydration, and b) the influence exercised by ions on the so-called "free Ynxter". The influence exercised by the ion lattice upon the temperature of the maximum of sound velocity in the solution was phenomenologically taken into ac- count by B.B.Kudryavtsev (Ref 9). When setting up the formula for the temperature of the minimilm of the ocerpressibility of the solution the presence of the ion lattice was taken into account according to a similar method. From the correlations obtained it follows that the influence exercised by ions on the structure of the "free water" tends t6 shift this minimm into the range of higher temperatures, i.e. the ions act upon water in the same manner as pressure. This shifting of the minimum into the domain of higher temperatures is, above all, due to the structural part of compressibility. The presence of an ion lattice tends to shift the minimum into the domain of lower temperatures. As the analysis Card 213 of the total fonmla for the temperature of the compressibility  The Compressibility of Electrolyte Solutions and the 54-1 c_2-i/i 6 Influence Exerted- by Ions on the Structure of -Jater minimum of the solutions shows, a decisive part is played in the case of low concentrations by the first-, and in the case of medium and high concentrations by the second effect. Herefrom it may be seen that the aforementioned contradictions can be ex- plained by the ideas developed in this paper. There are 5 figures, and 11 references, 7 of which are Soviet. SMUTTED: December 25, 1957 AVAILABLE: Library of Congress 1. Electroly-tes--Properties-Theory 2. Electrol7tes-Effects of ions Card 3/3  KIMYLOV, I.G.; SYRNIKOV P-.,. " , Compressibility of electrolyte solution on the structure of water [with summary no.10:5-14 158. (Liqdds, Kinetic theory (ILeatrolytes) (water) and the influence of ions in ftlishl. rest. IOU 13 (KIRA 11:6) of)  LUTHOR: Syrnikov, Yu. P. 20-118-4-37/61 TITLE: On the Character of the Interaction Between Anions and Water Molecules in a Solution (0 kharaktere vzaimodeystviya anionov s molekulami vody v rastvore) PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol- 118, Nr 4, PP- 760-762 (USSR) ABSTRACT: At the physical faculty of the State University Leningrad the acoustic properties of solutions of electrolytes are at present investigated. This work gives additional data which are necessary for the explanation of some of these properties. The author her implies the interaction of an ion with the nearest adjacent watermolecule by the term hydratation.When a cation is hydrated, the watermolecule with its electronegative part posses to the cation and the interaction of the cation with the watermolecules differs in its character essentially from the binding of the water- molecules among each other. According to this also the Card 1/4 structure of the hydrate shell of the cation must differ  On the Character of the Interaction Between Anions and 20-118-4-37/61 Water Molecules in a Solution from the structure of pure water. quite another case is the hydration of an anion: The anion represents an electro- neGative atom or an electronegative atom group and the water- molecule associates with its electropositive part - with the nroton. On this occasion immediately several water- molecule.~~ aBsociate vith the anion and protons combine with it. The surpius electrons of the anion are distributed on several protons and the interaction of the anion with the watermolecules of its hydrate shell has donor-acceptor- character.An electron partly falls to the share of each acceptor-proton. Such a binding resembles or equals a hydrogen binding. The quantitative compution of such an interaction has great difficulties and therefore the experimental control of this conception is of interest. The authors here performed measurings of the infrared ab- sorption of ion solutions in the range 1,35-1,606L (first harmonic of the group O-H). These measurements were made at t he Forestry _Engineering AeadenW (Lesotekhnicheskaya akademiya) by a non-r-egis-terl'iig-spectrophotometer with a Card 2/4 glass optical system. The solutions of 8 salts with 4  20-118-4-37/6, On the Character of the Interaction Between Anions and Water Molecules in a Solution different anions were investigated and the results of the computations are illustrated in diaalrams. In the ion solutions (even at saturation concentration) the absorption bands in first approximation are in the same range as also in the case of pure water, i.e. the mole- cules which are combined with the anion thus aome into interaction with it in the same way as the molecules of water among each other. The energy of this interaction for several anions differs from the energy of the binding of the molecules among each other. In a solution of KNO the absorption band has 2 maxima. After the here discussL deliberations the here shown ideas on the character of the interaction of the anion with the watermolecules agree with the spectroscopic data. Furthermore the structure of the hydrate shell of the anion seems to resemble the structure of water itself. From this point of view also the results by A. Pasynskiy (reference 7) are easy to understand. There are 4 fiEures, and 7 references, 5 of which are Soviet. Card 3/4  20-118-4-37/61 On the Character of the Interaction Between Anions and Water Molecules in a Solution ASSOCIATION: Leningradskiy gosudarstvennyy universitet im A. A. Zhdanova (State University imeni A. A. Zhdanov, Leningrad Leningradskaya lesotekhnicheskaya Akademiya (Leningrad Forestry Engineeiring Aeadezw') PRESENTED: SUBMITTED: AVAILABLE: June 17, 1957, by I. I. Chernyayev, Member, Academy of Sciences USSR) June 10, 1957 Library of Congress Card 4/4