SCIENTIFIC ABSTRACT SAMSONENKO, N.D. - SAMSONOV, G.A.

618-~65.-,*,,!----',-   GUN'Y.O, A.F.; KARPUS', L.T.; SAMSONENKO, P.A. Rearing sturgeons at controlled tenperatures during the incubation period. Dokl. ~1,1 SSSR 141 no.6:1,512-1514 D -61. (MIRA 14:12). 1. Azovskiy nauchno-issledovatel'skiy institut rybnogo khozyaystva. Predstavleno akademikom I.I.Shmallgauzenom. (Fish culture) (Sturgeons)  SAMSONIINKO, R.V. (Moskva, V-71, B.Kaluzhakaya, d.33) Development of muscle tissue in implantation of muscle brei at the site of total excusion of muscles in frog. Arkh.anat,gist. i embr. 33 no.2:60-64 Ap-Je 156. (MLRA 9:10) 1. 1z laboratorii gistologii (zav. prof. A.N.Studitskty) Inatituta morfologil zhivotnykh im. A.N.Severtsova AN SSSR (dir. chlen- korrespondent.AN S'SSR G.K.Khrushchov) (NUSCISS, transplantation, implant of muse. brei on iste of totally extirped muse. in frogs (Rue))  SAMSONENKO, R.V. (Moskvi~2 V-71, Leninskiy pr.p 33, kv-39) Analysis of the,Uterrelation between muscle residue and transplanted tissue during muscle restoration by implantation of graniMated muscle tissue. Arkh. E~nat. gist.i embr. 38 no.1:48-57 J& 160. (MIRA 13:7) 1. Laboratoriyagistologii (zav. - Prof.- A.N.Studitakiy) Institute. mDrfologii zhiv6tnykJ~ -im. A.N.Severtsova AN SSSR. k^MUSCI,~--TRAINSPLMATION)  Category : USSR/Radiophysics Radio-wave Reception Abs Jour : Ref Zhur - Fizika, No 2, 195T, No 4585 Author : Ssmsonenk S.V. Title :Use of Orthogonal Polyncmials for the Analysis of Transients in Multi-Stage Amplifiers Orig Pub : Radiotekhn. i elektronika, 1956,, 1, No 3, 269-273 1-7 Abstract : Description of a new Mthematical method for the analysis of transients in multi-state systems, which simplifies 4,04siderably the computation vork ccmpared with operational-calculus methods. Card  FT USSR Radiophysics Abs Jour : Ref Zhur Fizika, No 4, 1957, No 10017 Author : Samsoneako, Inst : ot given Title : Application of the Method of,Orthogonal Polynomials to the Solution of Certain Problem in ArAlysis and Synthe- sis of )talti-Stage Amplifiers Orig Pub Radiotekhn. i elektronika, 1956, 1, go 5, 6P-3-626 Abstract On the basis of the application of orthogonal po4momials the article treats a method for determining the transients in response to a signal of arbitrary waveform. (without u- sing the convolution theorem), a method for solving the synthesis problem for arbitrary signal, and fix-Ily a me- thod for determining the vaveform of the signal from the known parameters of the system aLd the waveform; of the output sigma. Card 1/1  ACC NR, AP700-4918 AUTHOR:,Samsonenko, S. V. SOURG 0 :'UR/0109/66/0'11/012/227 273 E ODE TITLE: Correlation-interference direction finding using the:method of equiBignal zone SOURCE; Radiotekhnika i clektronika, v. 11# no.'12, 1966l 2271--2273 TOPIC TAGS: direction finding, direction finder ABSTRACT: The direction finder consists of two receiving antennas whose phase-front centers are spaced and'a correlator with a switched delay line,, Antenna directional patterns change-by an angle '&0 whenever the delay line is switched. The.correlator feeds into an n-stage multiplier which makes the direction-finding characteristic sharper. For direction finding, such a position of the antenna system is determined at which the above pattern switching does not affect,the correlator output signali Examination of error formulas involved shows that more accurate direction finding can be achieved through a longer time of correlation measurements provided the dir6ction-finding capacity of the interference part of the system is Bmall. Orig. art. has: I figure and 2D formiulas'. SUB CODE: 09, 17 SUBM DATEI 19May65 'ard III UDC: 621.396.663  Pi - 3217 AUTHOR: SaLSONETTKOL-5. V. Tf~LE: On the Question of Synthesis of Amplification Schemes. (K voprosu o sinteze ubilitellnykh skhem. Russian). PERIODICAL: Radiatekhnika, 1957, Vol 12, Nr 4, pp 45 - 57 (U.S.S.R.) Receive&: 6 / 1957 Reviewed: 7 / 1957 ABSTRACT: The paper under review describes a new method of computation for the analysis of transitional processes in amplifier and then proposes on basis of this new method a synthesis of multicasoade systems with , kespect to different signal disiortion norms. On basis of orthogonal- polynominals the paper under review first of all gives computation equations which form the basis of any arbitrary synthesis of ampli- fication schemes. In particular, the mathematical interrelationships are given between the magnitudes which are characteristic ofthe amp- lification parameters and such signal distortion norms as the front duration in the intermediary decil interval, the amplitude of the . first deflection, and the front duration which is-determined with re- spect to the maximum transconductance of the trarxition process. The application of orthogonal polynominals also makes pobsible,to simpli- fy the computation of the transition process, particularly in multi- cascade amplifiers. The paper proposes a simple kind of analysis for the transition characteristics (this analysis is based on the decom- position into Ermit (Hermite) polynominals) and a simple method for Card 1/2 the computation of the moment of the transition characteristics of  PA - 3217 On the Question of Synthesis of Amplification Schemes. the multicascade amplifiers. Then f'ollow examples of -computationo namely for an amplifier for resistances without correction, and for an amplifier for resistances vith.parallel correction. Finally, the synthesis of the amplification schemes-are presented, namely a syn- thesis with respect to given tran*sco~ductance of the transition cha- racteristic (of the impulse front), a synthesis of the amplifier with respect to the deflection of the transition characteristic, and the synthesis of the amplifier with respect to the'duration of increase of the corresponding intermediary decil slope of the ordinates (0,1 - 0,9) of the transition characteristic. (6 reproductionsq 3 charts, 4 Slavic references). ASSOCIATION: PRESENTED BY: SUBMITTED; AVAILABLE: Not given 21. December 1956 Library of Congress Card 2/2   _Mp) function,' to vary- -the*,:radlusl~, the It is.'shq4ft:that-, or-~a-c oi versions. M- ts of the Laguerre sions I..e. -that'thid g*-ue ri-d -i xp i~ b: pan La, The convergence- can l~.1tir-ther-%linproyt ac; 1 f '.thefe~ -are- seve ra., e I othe r. I With dif ferent rr conne ter of the,group. I Ct -paper Rzidi6telchnil error in,,;an-eci~iier no, 51'~ 623) bri, -has a Or 17,d Coe' -of b 't el: ar;_lconvergence.~ C -i3evdra eXD;3nS3.OTL, ~rl~i f e:,e s trary orm7whil 'form is.a,.necessartr-,corLd2.tiori.~-,- . . . . . . . . . . . . ard,.2/ ave, _n pa, L  .......... 7j *4 4;-.p 'j;-. ~% " r4 Q. 7. C- 10 9  SAMSONENKO, S.V. Calculation of the impulse reaction of a multistage circuit using Lagger's.generalized polynomials. Radiotekh. i elektron. 8 no.11:1872-1877 N 163. (MIRA 17:1)   Snui~ow of=talline-tichlitit Maud. R!= T:tc- ~ (OMyAgOS IWO. Stennyvisvir.sgili5i KE-4rkti Itittzet. Bu,JAMO. Hidrol. Kefd4&xy 30, 116-7(19.10).-Thc water of the linrkdt well in Ihe village of Szurduk-Kipolnok and of the public well In 'he village of Kislitirtvilycs contained. resp.. Ca 109.5. .110A. Mg 11.8, 12.7. Na 9139.3, 4049.2, K 49.7, 202.3, Fe 1.5. tram. 11COs 41M.1. SOt 12.1. 1087.1. CI I *2'01.1i, Br ISA, 2-9.2. 1 0.3. 1.8, Si(N 7.1, 23.2 nig.11, PH 0.81. 7.96. total hardne" IM.M. %-N). bicarbini. ate hardnem 15.31. 4.2.4 (1 Iffman dc.- , tetup. of water its thr wells 9.5. 10.0'. and depth of well 1.7, 8.0 in. The waters originate front %fkfdlc Ofilocenic anti Tortona laref,4. with mime infiltrating surface water. 1. F.   SMISONI, Zoltan, dr. Detection of uranium, thorium and iron and determination of uranium by means of rhangetin. ATOMKI kozl 2 no. 2:185-191 16o.  ~1., Zoltan I I I General characterization of metetiites with special regard to I - ... their chemical composition. ATOMkI kozl 2 no. 3:2C7-212 160.  26313 H/O16j61/OOO/OO8,/uO1/OO2 B122/B227 AuiLIGRi. Szalays Sandor, Gyarmati, Borbala, Kovach, Adam, Samsoni, 7,olt9n TITLE: Meteorites as meansof space exploration PERIODICAL: Fizikai Szemle, no. 82 1961, 227-232 TEXT: The purpose of the paper is to outline the present state of physical knowledge on meteorites. The isotope-analytical laboratory of the Nuclear Research Institute of the Hungarian Academy of Sciences, with which the authors are associated, has planned to investigate the meteoritestock of Hungarian museums in order to contribute to international research on this matter. (I) General characteristics of meteorites: In the course of the International Geophysical Year, in 1959, an estimated amount of 14 million tons of cosmic substance fell on the earthts surface. Meteorites are classed into three groups,,analogous to the three principal zones building up the earth: siderites (mainly Fe-Ni alloys), siderolites (Fe-Ni alloys and silicates), and aerolites (prevalently silicates). H. Brovin compiled tables on the frequency of chemical elements found in the three groups. /3  H/01 6iwo/008/001/002 Meteorites as means of space B1 22YB227 H. C. Urey and H. Craig4nvestigated1the same on chondrules, a globular variety of the third group with a higher Fe content. (II) Isotope composi- tion of the substance of meteorites: Elemental and isotope composition irregularities in connection with the origin of meteorites. So far, it has, been found that most elements in meteorites have an isotope composition identical to that found for the same elements on the earth. This fact supports the general opinion of astronomers that meteorites originate, without exception, from the solar system. Thus, isotope irregularities can not be attributed to the particular origin of meteorites. Physico- chemical and biological fractionating effects on the substance of meteorites do not differ essentially from similar effects on terrestrial substances. External nuclear-physical effects: Meteorites have been exposed to cosmic radiation perhaps for hundreds of millions of years. Nuclear-physical emulsions exposed to cosmic radiation presented the phenomenon of nuclear cascade, the nucleons of which quit the nucleus with high energy, leaving it in a strongly excited state. When thermodynamical equilibrium has been attained, the strongly heated nucleus begins to evaporate. In the isotope composition of elements produced by such evaporation, sarong differences of isotope composition are found against their terrestrial composition. Ca~A 2/3  26313 H/016/61/000/008/001/002 Meteorites as means of space B122fB227 Investigations by Paneth and co-workers (1953), Nier and co-workers (1958) have evidenced that helium isotopes are produced in meteorites by cos:nic radiation. Gentner and ZgLhringer (1955) first traced back the presence of argon in meteorites to cosmic radiation. Besides cosmic radiation) other radiations may be present in the solar system, The authors do not think that the neutrino flux from the sun could have affected tteisotope oomposi- tion of meteorites to a larger extent than it has affected the substance of the earth. Simple estimates also show that the presence of neutron radiation from the sun is improbal~le. Internal nuclear-physical.effects: The simpler history of the development of meteorites in relation to terrestrial condi-, tionshas led H. Brown to suggest a method of estimating the age of elements by isotope analysis of certain elements in two different phases of meteorites (metallic Fe.-Ni silicate, or metallic Fe-Ni sulfide, etc.). There, are 1 figure and 3 tables4 ASSOCIATION; MTA Atommag Kutato In tezet, Debrecen (Hungarian Academv of Sciences, Nuclear Research Tnstitute, Debrecent Card 3/.,  SAMSOIJI, ;~oltan dr. A new-type sampler for the determination of the M-gen traces solved in water. Energia, e's atom 15 no.6:251-253 Je 162. 1. Kagyar Tudomanyos Akademia Atommag Kutato Intezetenek tudomanyop, murkatarsa, Debrecen.  NAGY, Zoltan; BENKO, Karoly; 4AMSON1, Zoltan. Optical and electronmicroscopical Investigation of metal films prepared by-m'eaps of vacuum vaporization. Magy fiz folyoir 10 no.5:339-345 162. 1. Debreceni Orvostudomanyi Egyetem Kozponti Kutal;o.Laboratoriuma 99 a Magyar Tudomanybs Akademia,.Ato=ag Kutato Intezete, Debreben.  I I  SAMSONI, Zoltan Quantitative chemical method for testing trace alemente in galenas with special regard to the requirement-c- of lead isotope analysis. Magy kem folyoir 70 no.10.-4324,38 0 16~'- 1. Nuclear Research Institute, Hungarian Academy of Sclew~es, Debrecen.  SAMSONI, Zoltan; NAGY, Zoltan Newer data on the optical characteristics of metal films usable for reducing light intensity. Magy kem folyoir 70 no.12:546-549 D 164. 1. Nuclear Research Institute of the Hungarian Academy of Sciences, Budapest (for Samsoni). 2. Central Research Laboratory of the Debrecen Medical University (for Nagy).  NAGY, Zoltan; SAMSONI, Zoltan; BENKO, Karoly Combined variable light transmission filter adapter for optical spectroscopy. Magy kem folyoir 70 no.12.'549- 551 D 164. 1. Central Research Laboratory of the Debrecen Medical University (for Nagy). 2. Nuclear Research Institute of the Hungarian Academy of Sciences, Debrecen (for Samsoni and Benko).  SLMSCNIDZI, q.G. I'Morphophysiologieal aInalysis of regeneration of the kidney-after injury] Morfofiziologichaskii analiz pro ItsessaIreig'eneiratmii poebk:i posle povrezhdeniia. Tbilisi, Sabehota Sakartvelo, 1958. 110 p. (KIDMS) (MIGHM[RATION (]BIOLOGY)) (mm n%9)  SAMSONIDZE, G.G. Tin the weight and size of icidneys following operation. Soob. All Grus. SSR 20 no. 3:367-370 Mr-'58. (MIRA 11:7) 1. Tbilieskiy gosudarstyenW meditsinskiy institat. Predstavlono skademikom A.D.Zurebashvili. (KIDNEYS--STRGKRY)  SAMSONIDZE, G.G. W-WOMMe, co" g- 4 n e t i'c processes in kidneys during regeneration. Soob. AN Grus, SSR 20 no,.6:727-730 Je 158. OIIRA 11.- 10) I.Thilieskiy gosudarst-YeMV7 meditainskiy Institut. Predstavleno akademikom A.D. Zurabashvili. (KIDN19TS) (BEGEIMATION'(BIOIDGY))  SAWONOU, G.G. Renal regeneration in mammals, Report NO-3-. Changes in the fine structures of the kidney during its regeneration '[with an-wry in Paglishl. Biul.ekep.biol. i med. 45 no.1:86-89 Ja 158. (MIRA 11:4) 1. Iz laboratorii rosta i razvitiya (zav. - prof. M.A.Voroateova [deceased]) Institute eksparimentallnoy biologii (dir. prof.,I.N. Mayakiy) AMN SSSR, Moskva. Predstavlena deystvItelInym chlenom AM11 SSSR N.N.Zukovym-Verezhnikovym. (KIDNEYS. Dbysiology, regen. (Rue))  SAMSONIME, GG-~~ Changes in the function of the regenerating kidwy under increased functional load. Soob. AN Gruz. SSR 22 no.4:469-1+73 Ap 159- (MIRA 12:9) l.Tbilisskiy gosudarstvenny7 meditsinakiy institat. Predstavleno akademikom A.D. Zurabashvili. (KIDNEYS) I  SAMSONIDZI Kidney regeneration folloling compensatory hypertrophy. Bjul. eksp.biol. I mod. 47 no.6:lol-lo5 Je '59. (MIRA112:8) 1. Iz luborutorii rosta i razvitiya (zav. - prof.L.D-Ltozner) Instituta akeparimental'noy biologii AMN SSSR (Moskm) i iz Imfedi-.r gistologii (zav. - prof.S.E.Sakbarelidze) Thilisskogo meditainskogo instituta. Predstavlena deystvitel'nym chlenom AIRT SSSR V.N.Chernigovskim. (KIDITZ"YS, pkyBiol. regen. after post-resection hypertrophy (Rus))  SAII Accordim- to Protocol !~o 1Q, 11 ime 1960 the Hirher Certification t3o,.-U-iSSion cOnfirm the foilowin- in the academic decree of ~oator' of 5ziences, SAMNIMEE, GEORDIY GEOR-GlY-ElITCH awarded the dtgree of doctor of medical sciences on the basis of the defense, in 2 October 1958, in the Soviet -of ti-e Tbilisi State Mledical instittite, of the dissertation: 91-forpho-physiological 1~nalysis of the 'Process of Kidney Regeneration after Injury".. -o i io Obrazo-,raniy SO: it-mlleten' 'Iinisterstva Vvsshe,,; Srediiero Spetsiallm a GSSH, T1_ -I March 1961; j4=s; 5C-r-5 AQ i;~~ ,TIP RS S? ~2.-7   SAMSORIME, G.G. Ghanges in the regulatory capacity of the regentTating kidney. Soob.Alff Gruz.= Z5 no.2:Z09-212 Ag 160. (MIRA 13:11) 1. Tbilisskiy gosudarstvennyy meditsinskiy institat. Predstavlono akademikom A.D.Zurabashvili. (KIDNEYS)  SAMSONIDZE, G.G. Changes in the lipid content of adrenal cells in experimental fasting. Soob..AH Gruz. SSR 25 no. 3:353-355 S 160. (MM U,:l) 1. Tbilisakiy gosudarstvannyy Meditsinskiy institut. Predstavleno, akademikom A.D. Zurabashvili. '(ADRENAL-CORTEX) (LIPID METABOLISM)   SAMSONIDZE. G.G. Morphological changes in the regenerating rat kidney at,lati pariods after injury. Biul.eksp. biol. i med. 49 no.2:113-216 F 160. (MIRA-14:5) 1. 1% ;aborato rii-rosta i razvitiya,(zav. - prof. L.D'.,Liozner) Instituta-eksperimentallnoy biologii'AMN SSSR (dir. -, prof. I.N. Mayskiy) i kafedry gistologii (zav., prof. S.E.Sakvirelidze) 7bilisskago meditsimskogo instituta. Predstavlena deysivitellnym chlenom AMN SSSR V.V.Parinym. (KTDNEYS-WOUNDSAND INJUPJES) (REGENERATION (BIOLOGY))  SAMSONID23, G.G. Change in the size of the nucleus and body of the'cel-I in the regenerating kidney of rate. Biul. ekBp. biol. i med. 52 no.9:98-101 S 161. 04IRA 15:6) 1. Iz laboratorli iosta i razvitiya (zav. -prof. L.D. Liozner) Instituta eksperimentalinoy-biologii (direktor - prof. I.N. Mayakiy) AMN SSSR, Moskva, iJkafedry gistologii Tbilisskogo meditsinskogo instituta. Predstavlena deystvitelInym chlenom AW1 SSSR A.V. Lebedinakim. (NUCIZ1)_'_, (KIDNEYS) (REGEARATION (BIOLOGY))   LAGIDZE, R.M.; CHIGOGIDZE, L.P.; IRIK AIME, N.K,; KUPRAVA, Sh.De; SMOVIYA, G.G_ Alkylation of benzene and its homologs by diacetates of different I -acetylene glycols in the presence of anhydrous aluminum loride. Soob.AN Gruz.,SSR 25,no.1;19-26 11 160. (MIRA 13:10) 1. Akademiya nauk Gru2inskoy SSR, Inatitut khimii im. P.G.Melikishvili, g. Tbilisi. Fiedstavleno akademikom R.I.Agladse. (Alkylation). (3enzene) (Glycols)  I-AGIDZFi R.M.'; .111LErIADZE, N.K.; CHIGOGIDZE, L.P.; KUPRAVA, Sh.D.; SAKS'ONIYAf G.G. Alkylation of benzene and tolufne- by tert-714-acetylenic glycols., Zhur. org. khIm. 1 no.i-L-1965-1969 N 165. (MIRA 18?12) 1, Institut fizicheskoy i organicheskoy khimii imeni P.G. Melikishvili All GruzSSR. Submitted July 7, 1963.  7z) I=. H-T-Aa. AT- A. N. 3-orm.), (C"64m. AH rpy& CCP, r. $ .. 3, 1. K Aonpocy . ..... "To It-- ' P: 3.46. 194 31.3. o - ' ' - ' - 1027- KA.m--m ... m-M ... Do- A::.: . ~ o A P K Too ... 3-p.....- B .... ....... ro '. .0. ..9.6.1 . P.-A). p :&. : ..I w..P... .. 1949, .. " 121, 183 C- (C-6%. AH rpy., CCP, Y A---- - ....4 cy ..... '. 11 X '0. '9'). Y AY6o..M MIAKO"PPA.. 1952. is. 1949, 28.12. too g.. 4 3.q. 1952, 23.6. ictm. no-A.. n.vp moo..,.,... to= 9OP-AgN :~': ' ..Mcl- p : .. C... 3 .. A.0 3.s. 1940, '28.3. :: . rpy- . P I=. P.- rawo. OPMAP-DON4, g S C.o -P. (H". OA. ap...). K---PO-7 0 P.A.-- -p.p.~ 344. 1941. 29.4. %~-A . YCA..... rpy'... (p ... U.4 10". KYA ..... E., .4 OQOPI~1-0). 193a: 76 .. ... H.- P-M"" . 1930. 22.D. 6 --mov". ,.p... r-AP- 1036!C.v*..o p.... Cp*Aop.. rp-Tou om.pa na"o_. B. r. % c., 1939. 16A. po~ 160 c P.~ 161 C. , , 29.4. KIVY6-A-4 c .... Kop.o.., poc y A:.- K ....... ri- 4-0- P....p .... -, Al. _ Y-,P-U. ONP 1943,3221 P- .. j 1 ' ' ' 1941. 9 g., 4 6A. (Tp. Try, 151 - A., 1941. 4..; ~Am- (Tp. TrY. v. 3~ , T. 46. 1952; 190). v. 46 1452) 1947 . , . 1943, 27.3, 3.g 942, 2t,3. 3. it :p-rp. ' -P.. M.r,4.A... 1031- 98 ... A A"* P-'m H.A. 1034. !~ ... -P'A- .. 11P.A.M. Y.. V.-A ... 9 6OPMONC.OM N -M% UQPOA Werp-ooom V&MONZ. 1939. 99 C.. c p... (Ap.. -P-- AH CCCP), C.- -ftc-ooom.. ...m. pyd... 3.s. ;939. 23.6. 1938 43 . 1039-T - --- HUM& : .- A .... Y 3.q. 1934. 11.4. Poo .... Ms-p Ao PA. X.... Too, 3 21 !0 16oAGM -P~A-AIA UoAo . % : 006t- SOACTIA a YcAosam, rpysmac-1, Ccv ' * Z . 1942. 115 o., IDA. . r,,.::. 3&%, 1932. 14.5. 3.q. 1942, 25.10. 4-60-C.6., ja6D6.j. sommomm"m mmooomm& 6w-~ racTuaro. rwooll 040 c .bab..4- r.,... m .... A B_Ap. 1 (3 ~Mcr- 4. po.. U.P.151--om . 6.1 AD: - e-ni' -- -P ... ~ Y'-- A PCIP-lop... n 160 33. (-tz po-m- 6tc---. 195 1. 160 c ,Tp. TrY. r. $4, 1931). ; , 1. %.t2. 2-%W 1951, 2b.12. __Z2J M gW 4t OVAL111016 aolagit"L uwome   L 27257-65 EWT(d) IJF(a) -5- 'Of. Y of integral equations SOURCE. AN GruzSSR. Soobshcheniya, v. 36, no. 1, t964, 19-26 TOPIC TAGS: conformal mapping, conformal representation, integral equation, linear integral equation. Fredholm equation A-11STRACT : The author exRmines the problem of constructing an at4irox1mate conformal eurr,~iewan )n -)f a funcnon for simply connected regions bounded by sufficiently smooth -~~-nnprip i -P"4 17 -1-., qmontb -MA Alc  ACCESSION NR: AP4049387 be a conformal representation of Bon the unit disc which is given by 54-, where zol t) is a real function of the points of the contour L and a unicV10 solution to t*' Fredholm. integral equation !Vf- v(q)+-Lfv(j~� ItntgAO-10) dr In'(0), x ds x (j)--% (,J) 4, Card 2/3  M~, L 272511-65 ACCESMON NR: "4049387: The authors then show [Low ta'appro).IbW6-the sokffolr~-~W-bf a :0.4 where tion. This is done in section L. Section 2 deals witla the rate of cdnveirgence of the i("d- rpation. Section 3 shows how the approxtmants naAy be eafftnated numerically. OrIg. nt. has: 19 formulas and 1 table. ASSOCIATTON: Vychislitel'uyy tsentr, Aka&mfya ntuk Gruzinskoy SER (Computer lenteii Academy of Sciences of the Georgian SSR) SUBU=ED- 03Feb64 ENCL: 00 SUB CODE: MA NO REF SOV: 004 OTHER: 000 Card 3/3  SAMSOITOV, A., inzh.-mayor dvizheniya Traffic inspectors. Zhel. dor. transp. no-3:81-82 '47. (MIRA 13.-2) (Railroads--Traffic)  SAMSONOV, A., shturman karablya Tn-104 (Kyabarovsk) Fit for flight duty. Grazhd. av. 22 no.5125 My 1650 (MIRA 18t7)  SP14SONOV, A.P., OLSUF1)MV, N.G., PETROV, V.G., YAMOLOVA, N.S., MMAUVA, V.A. ----an-J-TMYGsTOVA, A. I. "The Roles of the Tick Rhipicephalus Rossicus Jakim Et.K.-Jakim in the Support of Tularemia Infection in the Natural Strain of the Named Type," Zool. Mur- 34, No. 6, 1955.  SAMSONOV., A.P. Pathogenic action of mold fungi under experimental. conditions. Med.,zhur. U*. no.3%61-65 Mr 161. (MIRA 14:5) 1. 1z Uzbekskogo nRuchno-issledavatel'skogo instituta sanitarii., gigiyeny i professionaltnykh zabolevaniy (direktor dotsent A.Z. Zakhidov). (FUNGI, PATHOGENIC)  SALIKIIODZIIAYEV, S.S., kand.med.nauk; GOLIMAy I.V., nauchnyy satrlldnik; SAMSONOV,--A.P-, nauchnyy sotrudnik Some problems inindustrial. hygiene and the incidenceof diseases of the upper respiratory organs in workers of the Kenaf Knitting and Weaving Factory. Med. zhur. Uzb. no.7:3D-13 161. (MIRA 15:1) 1. Iz Uzbekskogo nauchno-issledovatellskogo instituts. sanitarii, gigiyeny i profzabolevaniy (direktor - dotsent A.Z.Zakhidov) i kafedry mikrobiologii (zav. - prof. P.I.Samsonov) Tashkentskogo goaudarstvennogo meditsinskogo instituia. (TASHKENT-TUTILE WOMRS-DISEASES AND ROME) (RESPIMORY ORGAVS--DISEASES)   KHARSHAK, Ye.m., dotsent; YEDOSHCHENKO, Ye.A., kand.med.riauk (Kiyev) ANDRUSHCHENKO, Ye.v., kand.med.nauk; KRAVETS, V.S., kand.med,.nauk (Kiyev); SPIROV, M.S.; prof. (Kiyev); SLYUSAREV, A.A.,-dotsent; SANSONO _A_Y__(Donetsk) Congresses, conferences, meetings. Vrach.delo no.g:,151-153 S 162. (MIRA 15:8) (MEDICINE--CONGRESSES)  SMSOVOV, A.V. Strauberry cultivation in the Ya-rovaya village of* Donetsk Province and its role as a major factor In t-Ii- tim smisslon of invasive ascarid eggs. Trudy Ukr. resp-nauch. eb-*a pars.~. no.2.-100-101, 163 (MIRk 17o) 1. Donetskiy meditsinskiy institut.  o A.V. Samsonov's For the Safety of Railroad Traffic; a book review. P-392. (KOZISFEDESTUDOMANYI SZEMLE, budapest, Vol. 4, No. 10, Oct, 1954.) ,90: Vonthly list of East European Accessions, (EFUL), LC, Vol. 4, No-11, J;n-. 15~5, Tj 4 ncla-ssified.  SAKSONOV, Alekpey,V~~Ollyevlch; PANOV, V.I., redaktor; KH.ITRDV, P.A., V - '-;'-"te C ichiaskir r tor. [Manual on safetjr measures for chief and assistant train conductors] Pamiatka po tekhnike bezopasnosti'gLaynowd i starshema konduktoram. Isd. 3-9. Moskva, Gos.transp shel- dor. izd-vo, 1956. 94 p. (.KWA 9:6) (Railroads-Safety measures)  IJ ANTON=. I.D., inzhener; ORLOV, V.G.; SAMS ONOVLh.L..jd.- TaIRENKO, A.F.F redaktor; KHITROV, P.A., tathnichaskiv redaktor [Station master's manual) Posobis nachaliniku stantsit. Moskva, Gos.tranap.thel-dor. izd-vo, 1957. 406 p. (MLRA 10:9) (Railroads--Stations)  ~~S04PV,__Alaknoy Vasil' evioh; LOGINOV, Nikolay Grigorlyevich;.TSARMO, '_Vall" 'OVIO" I A.F., red.; BOB!RO_VA_,.__Ye.H., tekhn.red. (Labor protection and safety ~eaeuree in railroad traffic] Okhrana truda i takhniks bezopasnosti v khoziaistve dvizheniia zhelez-_ nykh dorog. Moskva, Goo.tran8p.2hel-dor.izd-vo, 1959. 190 P. (Railroads-Safety measuxes) (MIRA 12:4)  MILIDVARF, M.D.; SAMSONOY, A.V., red.,. KHITROV, P.A., tekhn.red. [Manugl for the train conductor] Rukovodstvo konduktorm. Moskva, Gos.transp.shol-dor.izd-vo, 1959. 267 P. (MTRA 13:2) (Railroads--Trains)  SAMSCNOV._Aleksey Vasillyevich; TSARMIKO, A.P., red.; MP.7DVMEVA, M.A., tekE_.red. (Conductor's safety manual] Pamiatka po tekhnike bezopasnosti konduktoru. Izd.4. NoskvB, Vses.izdatellsko-polir-r.oblledinanie M-va putei soobahcbeniia, 1960. 56 p. (MIRA 13:11) (Railroad conductors) (Railroads-Safety meacures)  ANTONTUK, Igor' Danilovich; ORLOV, Viktor Grigorl"vich; SAXSONOV9__, Ajekuey_,Vasi1!yevjch; TSARENKO, A.,-red.,-.KHITROV, P.A., tekhn.red. (Manual for the stationmaster] Posobie nachalluilcu stantsil. lzd.2., perer. i dop. Moskva, Vses.izdatellsko-poligr.ob"edi- nenie X-va putei aoobahcheniia. 1960. )98 p. (MIRA 13:6) (Railroads--Station service)   SAMSONOV, Aleksey Vasiltyevich; ITKIN, Lev Mendeleyevich; ZANOSOV, "e im Georgiyevich; IN, I.I., retsenzent; YURCHENKO, I.F.,, insh.2 red.; KOLTUNOVA, M.P., red.; KRITROVA, N.A., tekhn. red. (Wages in the department of railroad*traffic; miinus~l].Oplata truda'17 khoziaistys dvizheniia zheleznykh dorog; sp3ravochnik, Pod obshchei red. I.F.IUrchanko. Moskwas Vsea..izdatellsko- poligr. ob"edinenie M-va putei soobahchaniia,'1962. 171 P. (MIRA 15:4) (W.ages-Railroads) A  SAMSONOV, A.V.; SHAVKIN, G.B., red.; YUDZON,-.D.M., tekhn. red. (Guide on safety measures for the chief conductor and head trainman] Famiatka po tekhnike bezopasnosti glav- nomu i starshemu. konduktoram. Moskva, Transzheldoriz- dat, 1953. 92 p. (I~IRA 16:8) (Railroads--Safety measures) (Railroad conductors)  l''yevich-, LYAKHOV, Gennadiy Aleksandrovich; ORLOVA, I.A., red'. --' [Labor safety in railroad traffic operations] Okhrana truda v khoziaistve dvizheniia zheleznykh dorog. Moskva2 Transport, 1965. 182 p. (MIRA 18:10)   GRIG-310YEVY G.I.; KOVNFR, M.S.; NIKIFOROVA, O.G.; OBOLENSKIY, L.M.; SAI%EOIIOV,~ ....... TRAKHTFNGERTS, V.YU. Logarithmically periodic helical irradiator for a paraboloid with a frequency overlap of 1:7. 17.v. vys. ucheb. zav.; rad-iofiz. 8 no.4;768-770 165. (MIRA 18:9) 1. GorIkovskiy gosudarstvennyy universitet.  SAMSONOV, A. C- Beets and Beet Sugar - Transportation Practices of driver-innovators. Sakh. prom. 26 No. 5, 1952 Month-- List of Russian Accessions. Library of Congress October 1952. UNCLASSIFIED.-  ZABOZLAYEV, A.I.; SAMSONOV, A.Ye. Consolidate the raw material supply and improve procurement work. Sakh. prom. 27 no.4:1-3 AP '53. (KRA 6:6) 1. Glavnoye upravleniye sakharnoy promyshlennosti. (Beets and beet sugar)   SAMSONOV, A. L.'(6j Wider diffusion of leading workers' experience. Avt.transp. 32 no.q: 6-7 S 154. NLRA 7:11.) 1. Glavnoye uprayleniya sakharnoy pronWahlennosti. (Sugar beets--Transportation) (Transportation. Automotive)  SAMSCNOV,A.Ye. Improvements in the system of transporting sugar beets. Sakh. prom. 29 no.4:5-7 155. (KLRA 8:9) 1. Glavnoye upravleniye sakharnoy promyshlennosti (Sugar beets--Transportation)  SAKSONOV, A.Te. Organizing the work of tractor loaders. Sakh.prom.29 no.6:18-20 '550 (NW 9: 1) l.Glaveakhar. (Tractor*) (Sugar industry-Squipment and suppliis)  SAKSONOV, A. To. vmwm~-jgrm 1-113 m Organizatioa of sugar beet transportation. Sakh.prom. 30 no-7: 12-15 Jl '56. (KLRA. 9:11) (Sugar beets-Transportatiou)  SAMSONOV, A., inshener. Kachinery for loading and unloading sugar beats. Avt.tranap. no.9:10-11 S '56. (Cotton-Transportation) (KLU 9:11)  SKRYABINJ, K., itkademik, Geroy Sotsialistichaskogo Truda., ladreat Lenihsikoy premii; SAMaQLllOV.,_B.; PUSHKINA, Ye.,V vrach (selo Targa., Moldavskaya' SSR); KCRACHATURDII, A., kompozitor, jaarodnyj~ artist SSSRV laW-eat Leninskoy premii,-, -RUDEZ-TKO, A, . gornyy master; TERM-,lMffKOVs Ye.j- ABDRAZAKOV, T., I=d. ekon. nauk Our interviews. Sov. profsoiuzy 18 no.13:7-9 Jl '162. (MIRA 15:6) 1. Modellshchik Lyuberetakogo zavoda. sellskokhozyayst*ennykh mashin (for Samsonov).: Shakhta No-5 tresta "Vorkutaligoll" (for Rudenko), 3. Zaveduyushe#y kafedry politekono.mii I'(4ragandinalcogo pedagogicheskogo instituta (for Abdrazakov). (Disarmament) (Peace)  ANASTASIIN, V.P.; ARAKELOV, A.B.; BOBROV, A.L.; VIKHOREV, Yu.T.; VILOIAR, S.I.; GLUSHKO, I.X.; GOICUN, A.M.; PINIKOVSKIY. Yaj.; PASHKOV, N.D.; RYABUKffA, G.K.; REB=O, G.S.; SKUROV. Fedor Pavlovich; SOSKIND, D.K.; SAMOT, I.B.; SUOUKANOT, A.B.; KHAIRLAKOV, A.A.; TSARIKOV, B.N.; SHURIN, D.L.; S111YNW, V.I.; ABAKUMOVSKIY, Dmitriy Dmitriyevich, red.toma; STYATITSKAYA, K.P., vedushchiy red.; TROFIHOV, A.V., takhn.red. [Petroleum equipment;in six volumes] Neftianoe oborudovanie; v shesti tomakh. Moskva, Gos.nsuchno-tekhn.izd-v6 neft. i gorno- toplivnoi lit-ry. Vol.4. 1959. 294 p. (MIRA 12:9) (Petroleum refineries-Equipment and impplies)   SAMSONOV, B.G.; CHIZHIKOV, VS. Hydrochemical zoning of interstitial waters in northern Kazakhstan and conditions governing the exploitation of fresh waters. Sov.geol. 6 no.12:133-138 D !63. (MIRA IL:12) 1. Sradneaziatskaya ekspeditsiya Vsesoyuznogo gidrogeologicheskogo, tresta.  SAMOINOV9 BcG. Depdsndencs of the water permeability and water abLmdance cf water-lbearing fo.-mations on their at.-actmxal Dosition. Raztsd. i okh. nedr. 30 no.502-54 My 164. (MIRA 17sl10) 1. Goaudarstvann7y geologicheekly komittat SSSR.  AUTHORS: Andreyev, K. K., Samsonov, B. S. 20- 114-4-37/63 TiTLE; Thermal Decomposition of Nitrocellulose in Vacuum (0 termi- cheskom raspade nitrokletchatki v vakuume) PERIODICAL: Doklady Akademii Nauk SSSR,1957, Vol. 114, Fr 4~ PP- 815-818 (USSR) ABSTRACT: As is well known the thermal decomposition of nitrocellulose takes place at a constant absolute velocity of separation of the gaseous nitrogen compolinds, if carried. out in the current of an inert gas. It takes place with a high acceleration, however, if one does not draw off the gaseous decomposition products. The constancy of theabsolute velocity means after all a-substantial increase in the relative velocity on a considerable period of the decomposition process. It might be assumed that the reason for this increase might be seen in the incomplete drawling-off of the decomposition products. Lebedev's test5provedg howevery that the absolute velocity of the formation of gas does not only not decrease in the case of an uninterrupted drawing-off of the gases forming in the course ofthe decomposition, but that it increases several Card 1/4 times (up to 8 times). In connection with these results the  Thermal Decomposition of Nibrocallulose in Vacuum 20-114-4-37/63 decomposition of nitrocellulose (13,35%) was more closely investigated in'the vacuum. The diagrams of figure 1 show that the formation velocity of the gases originating at 1600C9 which is highest at the initial point, decreases uninter- ruptedly. This is true for gaels condensed in a trap of liquid nitrogen. The formation ielocity of gases not cought in the trap, on the contrary, drops continuously according to Lebedev's resul-t& kt the beginning it is relatively low, but at the culminating point it rises 7-8 times and approaches the formation velocity of the condensable ga:,,es. Culminating point being passed, the formation velocity of the hard condensable gases drops. Its volume amounts to from 1/4 to 1/3 of the total volume of the decomposition products. According to the course ofthe above graph, the summary velocity of gas formation remains nearly constant for some time, that is until the culminating point in the curve of the hard condensable gases is reached; it then drops rapidly. The same diagram of the course of decomposition is confirmed by the curves showing up the loss iri weight. The diagram of the dependence of the velocities of gas formations on temperature enables us to compute the kinetic coefficient of Arrenius' equation . The Card 2/4 dependence of this velocity on time is different for the  Thermal Decomposition of Nitrocellulose in Vacuum 20- 114-4-37/63 condensable and:hard condensable gases, in the case of decomposition in the vacuum. This is hard to explain, unless one assumes at least two subsequent reactions. However, one may not consider the formation ofthe condensable gases as a simple monomolecular reaction, for the summary.velocity of gas formation increases considerably. From these facto it may be concluded that such characteristics as the summary velocity or the lose of weight are the result of a number of reactions. ,For.this reason they may not be directly used for the.- computation of the kinetic parameters of the individual reactions. The above-said is true for tests in the vacuum. Without the vacuum the formation of gas takes place with a conqiderable deceleration. More gases than in the vacuum are obtained and the weight of the solid residue is less. Most probably the influence of the gaseous decomposition products consists chiefly of the interaction oftheir component3 capable of reaction with one another and with the solid matter and leads to the formation of additional gas -volumes. At..the beginning of the test oxygen slows down the formation of gas, but in the further course of the test it causes a rapid - Card 3/4 acceleration of decomposition. Vapor alone little accelerates  Thermal Decomposition of Nitrocellulose in Vacuum 2o-114-4-37/63 the process, but together with oxygen there occurs, after an induction period, a sudden fall in pressure and then a rapid acceleration of the formation of gas. Thus the decomposition diagram described in publications is in reality determined by a common effect of water and atmospheric oxygen. The difference between nitrocellulose and nitro-glycerin, whose decomposition is accelerated by wator also without oxygen, is apparently, above all, due to t-.he fact that the separated nitrogendioxide at nitrocellulose may be rapidly reduced into monoxide, that no acids form, and that in their absence the hydrolysis progresses slowly. There are 2 figures, 1 table, and 6 referencesq.2 of which are Soviet. ASSOCIATION: Moskovskiy khimiko-tekhnologicheskiy institut im. D. I. Mendeleyeva (Moscow Chemical-Technological'Institute imeni D. I. Mendeleyev) PRESENTED: November 17, 1956, by V. N. Kondratlyev, Member, Acadomy of Sciences, USSR SUBMITTED: November 16, 1956, Card 4/4  .1.x r rifORS: Andreyev, K. K. _.'U~L100111OV, B. 1:. 07[i 6-58-2 3 5 -7/40 TITLE: On the Character of the Explosion of Some Explosives and on the Tnfluence of the Pressure on This Process (0 kharaktere . v~,).yuhki nekotorykh vz-ryvchatykh veahcheatv i vliyanii na nc,go davleniya) -O'I"L: uchn--ve doklad-y- vysshey shkoly, !:q_i,-! -a khimicheskaya 41; ek- hn o 1 e E~ _Jya ,1)58, Yr 2, pp. 223-9`2 (UqSR) ABSTR~,CT: Storting from 'he Dresent conceptiozis corcernin;~ the process of combustion and of detonation of ex-aloaiveE, it Eissumed, ti,a' an cbrunt increase in -oressure is a necessary require- :n-_-nt Of 1-1 11 Cdetonation at the igiiit4o_-1 of a_n ex-plosiv.-I.- The, 4ncre,f3c in -r-roz!suT-c! miuzt be enormous order to forn a &hock which is not extinguished at once but Suarauteess s. pro- ot 'lie detonation wave. One wa- of bz~ngfng about ol doen i-a the fo:z-rmation of -a s%ispe -on _it!u in -pre.,2ure rei 01 o--,' V~c (,-Xvloz!ive b-., fect com- y of im-ner J.-~, thu rii-le. in casc of a ~,ufficient thickness of Vic layer of Louspension, an exn-losion occuz-o in- it T-Inich 1 immediately to ~ sudden rise in pressure. By th-JE 'the I la d 1 uriburnt -wortion of charge oF the explosive detonates. ""he  W-58-2 SOV, -7/48 On the Character of -the of Some Xy-ploaivos rnd on'-*.ne Influence of the Pressure on Thi- 'Proce-, prec-sure under whicht-he combustion uraceeds e-Vai-cises a double influence. a) The rise in presoure favors the appeexance of the Landau-effect (Ref 2) and b) it can prevent the forma- tion ol' a thick layer of suspension. 111-Dwever, a drop suspen- --ion of the explosion can be brought about'in some way or other by a slowheating from outside. The cuantity of 'he f di,_!persed eXploL:,ive3 can be controlled, by a modifi.ation o. the thicknecs of the heated zone. The --uthors of the Present nai)er described most simple tests Tith different kinds of explosives. For this reason a little test tube (radius 4 mm, lencgth 1,5 cm) was filled with,varying quantities of nitro- chrome-nickel wire provided for heat and was t-gisto-: -lycerin. a r o -. i nd the lower ptirt of 'he glass tube up to a he-ght of 9 (,m. A short. perioi o-f"boilinc-," enta-i'led an exl)losion bloving the class tube into pieces. Filled up witi, Jidtro- ,-,Iyceiin to 'he mark of I mra, the glass. tube remained sefe. V 14 'hon the he C -4 n.-, coil was fixed at differefit parts of -the tube. "'ests with other explosives proved (nitro-glycol, diglycol- 2~_ of' 5mm, iin-Li--rate, T.'.N, tutry! :-ndl that the layer  On the Character of the of Some ',~'.-,Plosives -----rd, oil t-we I'nfluence of the I~reusure on This cz--Jices no noithor at --Li -n:.- e E; s~ o nor at -3--cGO a!:Mo:z~)hQrer, Oi -1 C-,,%"_Cess ~,,ressuzta. then is combusted -it,exceeds coneiderably the lipait :7hich is neces- ntion satry Fo-, t'he Ijandaii-effect. The. other explosives, me ed this explanatior above much lower T are marked b , y f is t ru e , -the character of the exploeion~mustu deuend on the 'h o' ,;Ul.e . 70~,!(, .Ver, Z~. ,r -or leng- the glass -ube res lts Ceat u L u in ~~ hi er -,,-n.-ccsure s,' the M' i e 4ntensity of u heat- ing, too, exevcieeu wn influence on the character of'-the phe- nomanon es well as on the -oosition of*the heatin- coil. ~:~ie-, are 4 are Sovict. A SS 0 C 1 "' T-T C, X _'loskovski-7 -_himdko-tekhno1o,-_' cheskiy. ini3ti .tut iza.. D., 1. ;:endele v.-,,, (?,-,o--cc,:z Chemical and Institute ir. me ni Ye .:en~Jeleycv) October 1", 3/3   SAMSONOV, F. L. Samsonov, F. L. "Cold welding of n6nforrous metals", Avtomob. prom-st'l 1949. No. 5. p. 24. SO: U-4392, 19 August 53, (L*topis f9hurnal Inykh Statay, No 21, 1949).    L 6574-66 rdT(1)AVA(h)ATG(%) W ACC NRi AP5025050 SOURCE CODEt UR/0286/65/000/016/0091/0091. AUTHORSt Viktorov, V. I Fetroy, B. N Abramov, A. j Masloy, G, S, Khokhlov, V. P.; Sammonoy, G- I- ORGS Done TITLEt Resonance lovei gauge. Class 42, No. 173c/71 SOMM Byulloton' lzabrotenly i,tovarnykh znakov, no. 16, 1965, 91 TOPIC TAGS z hquid level indica tor, resonator R F c ABSTRACT: Thin Author Certificate presents a resonance level gauge containing a high frequency oscillator for exciting a resonance detector with a atop frequencf characteristic and a frequency foodulator for periodic,variation of the oscillator frequency in the range of the level variation. To increase the accuracy of dis- crots meaiurement of the liquid love ft given pointsv*ths device In provided wi. tector. Th~ tank circuits excited by the oscillator at the same time with the do tank circuits are tuned to the frequencies determined.by the jiven values or the measured level. With the coincidence of the resonance frequency of the dq- .teotor and the.,remonance frequency of the correopondimg tank circuitj the signal Card'1/2 UDCs 681.128.82 m!  f- 0~114-00 I . Nvo- I . ICC M AP5025050 .0 - f ( from the tank circuit is fed in narallel with tho detector siffnal to the Imnatm ~  L 76~9-& En(l)/k`,A02)1W0(m) ww ACC NRs AP5025053 SOURCE -GO DE i UR/O.286/65/WO/~6/00%/6042 AUTHORS: Viktorov. V. A Petrov, B. N.; Abramov, A. S.; Maslov, G~ S. f.:j V. P.; !S,!~O~i,; jr9l; ORG. none TITLE: Resonance level pugs. Clans 42, No. 1735174 SOURCEt. Byullateni izabreteniy i t~varnykh-znakov,Aw. 16, Ic)63, 92 TOPIC TAGSs liquid level indicator, resonator, A&4A.-Z_ z,,Z+, A,_A,-~ ABSTRACT: This Author Certificits presents a resonance level pugs containing a iJ r frequency-modulated oscillator for exciting the resonance detector and tank cir- cuits tuned to the frequencies corresponding to,the discrate'values of the a ured level divided in height at equal intervals. 'to increase the accuraL7 of! digital level measuz-enintOith nonlinear variation !of the detector, and osciliator:', j output characteristics, the pup is pr6vid*d-with'a device In the torml or trigger-, counters. These c"Ounterm deterains the mlwr of scale pulses ffta Uw tA* cir.;~ cuits given off with the coincidence of tho'coo lator fl, usacy end the frequency of the o=T" Ming tea Gii6mit until-the ippmranct of the det6ator PO card I& Me 6M.228.82  L 7639-66 ACC Ms AP5025053 j pulse. The gauge is also provided with a device for determining the time lag of the detector pulse relative to the liseediately preceding scale pulse. These devices are connected through controllable logic switch elements reap otively to the out t of the tank circuits and to the output of the clock oncill tor (see Fig. 1)!U Fig. 1. 1- detector; 2- tank circuits; 3- frequency-modulated oscillator; 4- scale pulse counter; 5- counter for time lag of detector pulse relative to imediately preceding scale pulsel 6- logic elements; 7- switches; 8- clock osclllatorl 9- coimter for detsr~ tim:interval between two scale pulses To increase the accuracy of measurements, the pup in provided with a device for determining the tim interval between scale pulses. The device Is In the forst of a trigger counter connected to the clock oscillator'by two electric chamels vith switches. Ons of the mdtWwa Is controlled by the logle stlawate. 12w Card 2/3   KUMFAIF. F.Ve, Imad.arkhttekturyg KOSITSKIY, Ya.Y., kand.arkhitektury. SAMSONOV, G.A., arkhitektor Urban medicAl "ervicee and new types of tiospitals. Izv.-ASIA . I no.2:78-87 t6o* (MIRA. 13:7) (Hospitals-Construction)