SCIENTIFIC ABSTRACT YARNEVSKIY, I.Z. - YAROSH, A.A.

ACCESSION NR-. AR4021610 of.view 30, magnification 20X). Observations are made by two observers: one ob- serves the satellite and records the coordinates; the second upon command from tte first records tim using a stop watch (a chronograph is used somtimes). Ac- curacy of position is 00.1-00*2 and accuracy of time is 05.1-05e2. The theodo- lite is set before each observation. Irregular photographics radio and radar artificial satellite observations also are being made in Finland. Radio observa- tions arc made with radio theodolites; the mean observation error is approximately 00-5, Photographs of the automatic optical theodolite accompany the texte Vo Novopashennyyo DATE ACQi Mar&L SUB CODE: AS ENCL: 00 Cord 2/2  YARNEVSKIY) .,I. Z. First monograph. Kraeved. abor. no.7sI40-11~2 162. (MA 16,-8) (Ulan-Ude) lit   YARNOV, V.K... inzh. (LIVov) Cooperation between railroad and automotive transportation in the transport of paBsengere, Zhel, dor. transP- 46 no.7:77-78 J1 164. (MIRA 17:8)  1f T TARASOV, Vasilly 'Hom^novichl TARNYU1, A.M9, rodaktorl ZU,4RILINA, Z.P., takhnicheekly redakto?-#-~ (Treatment of coenurosis in ruminants] lechenie teenaross. shvachnykh lzd.2-oo, ispr.i. dop. Moskva, Ges.'Izd-vo sellkhoz.41it-ry, 1956. 63 PO* WaA io: 4) (Domestic animals--Diseases) RTM  OHLOV, P.M., dotsent; USACHEVA, I.G.. red.; TARYM. A.M., red.; BAGLOD, AJ., takhn.red, (Diseases of swine] Bolezni evinei. Moskva, Goa. izd-vo eel'I'khoz. lit-ry, 1938. 4,62 p. (KIRA 12:2) (Swine--Diseases md 1~ests)   POTERKINA.,Valentins AlekBeyevna. prof., doktor veter.nsuk,,'TARffMq A.M., red.; BALLOD, A.I.. tekhn.red. LPoultry helminthisses] Gellmintozy domashnikh ptits. Izd.2., parer. i dop. Moskva, Go~Azd-vo sallkhox.lit-ry. 1960. 235 P. (MIRA 13:11) (Parasites--roultry) Rpm (Worms. Intestinal and parasitic)  -SMIVTSWA, Himfadora Andreyevna, prof., doktor biolog.nauk; TA34)F~,.~X, red.; BAILOD, A.I., tekhn.red. [Mycoses and mycotoxicoses In animals] Mikozy I mikotoksikozy zhivotnykh. Moskva, Goaoizd-yo sallkhoz.lit-ry, 196o. 455 p. Wu 14; 4) (Veterinary mycology) ;z -'r  GARKAVI, B.Z., kand.veterin.nauk-, TARN= A.M red.; TRUKHINA, O.N., tekhn.r8d.; FEVZN3R, V.I., te in.red. [Yeasures against helminthianis of ducks] Mary bor'by s gall- mintozami utok. Moskva, Izd-vo mallkhoz.lit-ry, zhurnalov i Plakatov, 1961, 81 p, (AIRA 15:2) (Parasites--D=ks) (Worms, Intestinal and parasitic)  GUSYNIN, Ivan Afanaslyevich, prof.; YAM-I'YIQI,_A.M., red.; USACHEVA, I.G., red.; SOKOLUVA, N.N.j. tekhn. red.- [Toxicology of poisonous plants) Toksikologiia iedovitykb raste- nii. 4. izd., parer. i dop. Moskva, Sellkhozizdat 1962. 623 p. WRA l5t7) (Poisonous plants) via  LIKHACHEV., N.V., prof.; AGRINSKIY, N.I.,, prof.; SYURIN, V.N., prof.; SFF.SIVTSEIIA, N.A., prof.; KOIDBOLDTSMIY, G.V., prof.; ZOIDTAREV, N.A., prof.; KORYAZHUOV, V.P., prof.; KOLESOV,, S.G., prof.; BABICH, M.A., prof*;.P~TROV, A.M., prof&; ZOTOV, A.P., prof.; DOROFEYEV, K.A., prof.; POLYKOVSKIY, M.D., prof.; SOWMKINY P.S., prof.; ORLOV,.Y*.S.,, prof.; KOTDV, V.T., prof.; TRILENKO, P.A., prof.; LYUBASHENKO, S.Ya., prof.; USACHEVA, I.G.~-red.; YARNYKH A M red.; BALLOD, A.I., tekhn. red. [Veterinary laboratory praotical-Veterinamaia labDratornaia praktika. Moskva,, Sellkhosisdat.- Vol.(General microbiological methods of investigation] ObBhchie mikrobiologicheakie setody is- aledovaniia. 1963. 566 p. Vol.2. [Biochemical, chemico- toxicological, and veterjOAry hygienic methods of investigation) Bi6khimicheskie, khimikck~toksikologicheskie i zoogigienicheakie metody isaledovaniia. 1963. 431 p. (MIRA 16:8) (Vaterinary laboratories)  LIKHJkCHEVP N.V.; SYURIV, MI.; TSIOV, R.A.; SHCHERBATYKII, P.Ya.; ZOTOV, A.P.; SKG,",OPXKHOVy A.L.; PIROG~ P.P.; PRIUS, A.A.; BAZYLEV, P.M.; NAZAROV, V.P.; O?J=, F.M., dots.; USACHEVA, 1.G,j red.; YARITYKH, A.M.) red.; BALLOD, A.I.p tekhn. red.; PROKOFIYEVA., L.110, to'khn. red. (Virus diseases of animals) Virusnye bolezni zhivotnykh. Moskva, Sellkhozizdatj 1963. 564 p. (MIRA 17-.1) -Mm  V.S., prof., red.; YA!VCKII, A.1-1.j rad. Nanual of ieterinar- 1 .4 y Spravcchnfk Fri 're- terinarnoi geltrintologli. lfoakva, lzd-vo "Yolon," 196.1, 1 36? p. (MIRA 17-8) 0  YARNYKH, A.M., red.; USACHETA, I.G., red. (Concise manual for-the veterina, Krattkii spravochnik veterinarnogo vracha. Moskva I* o "Kolos," 1964. 590 P. (MIRA 1?:?)  AKHMEDOV, A.M., prof., doktor veter. nauk; GOLICHAROV, G.D., dok-tor biol. nauk; DURASOV, V.I.; ZAGAYEVSKIY, I.S., prof., doktor veter. nauk; K71KHARKOVA, L.L.; BARHASH, A.I., kand. tekhn. nauk; POZHARIS,KAYA,L.S., kand. tekhn. nauk; LAPTEV, F.P.; LIBERMAN) S.M.) kand. tekhn. nauk; PETROVSKIY, V.P., inzh.; MIR011OV) A.N.) prof.y doktor veter. nauk; MALYSHEV, K.B., kand. veter. nauk; NIKITIN, B.P., inzh.; POLYAKOV, A.A., prof., doktor veter. nauk; RUSAKOV, V.N.j TARSHIS, M.G., kand. veter. nauk; SHUR, I.V., prof., doktor veter. nauk; YARNYKH, A.M., red. [Manual. on veterinary and sanitary expertise and hygiene in the processing of animal products] Rukovodstvo po veterinarno- sanitarnoi ekspertize i gigiene pererabotki zhivotnykh prc- duktov. Izd.2., ispr. i dop. Moskva) Kolos, 1965. 426 p. (MIRA 18:6)  ----------- FIR M ~ KOVALENKOJ. Ya.R.; YARNYKH A.11 ,,_red. [kfrican swine fever] Afrikanskaia churx. svinei. Mo.- skva, Kolosp 1965. 125 P. (MIJU 18:9)  LEBEDEV, P.T., Y.ARNY,YA', .A.,L.I- , red. [Hygiene in groving young livest-ock] Gigiena virashchi- vanila molodniakR. Mw*vs, Kolos,, .1965. 191 P. (MT RA 19. 1)  Emu=  6 ACC NR: ATM176518 SOURCE CODE: UR/318C)/65/000/120/0031/003G AUTHOR: Velikanova, Z. MI. ORG; none TITLE: Laboratory investigation of the velocity field of a plane flow In the presence of a ridge structure on the bottom SOURCE: Leningrad. Gosudarstvennyy gidrologichoskly institut. Trudy, no. 120, 19G5. Issledovaniya ruslovykh protsessov, 31-36 TOPIC TAGS: plane f"Low, vortex flow, flow velocity, velocity distribution, flow kinetics ABSTRACT: The authors preL experimental data obtained from a study of the instantan- eous and average velocity field above a two-dimensional sand ridge in a flow with distinctly separated, circulation and transitional zones. The experiments were carried out at the. Channel Laboratory of GEB GGI (Ruslovaya laboratoriya, GEB GGI) in 1961. The glazed flume used in the experiments was 7 cm wide and 5 m long; the diameter of the sand particles varied from 0. 1 to 0. 25 mm, averaging 0. 18 mm. Before the start of the experiment the sand was laid parallel to the bottom, then the bottom of the flume was inclined (I = 0. 001). The flume was filled with water, after which the same inclination of the free surface was Card 1/3 M ~Mw  L 3*9-66 ACC NR: AT6016518 achieved by gradually increasing the flow rate of the water. In this case the flow rate was 1. 7 liter/see. The ridges that formed in the flume had a height of A = 3 cm, length A = 30 cm at a flow depth of the crest of the ridges H = 6 cm. The lines of the crests of the ridges were perpendicular to the axis of the flume, thus demonstrating that the movement was two- dimensional. The ridges moved along the flume, keeping their height and length constant. High-speed photography was used to obtain the velocity field in the flow. The velocity field In U-te flow was recorded in a section completely encompassing one ridge at a frequency of 240 frame/see. An examination of flow velocity distribution showed that the horizontal com- ponent of velocity at the bound aries of the transition of the flow did not substantially change over the greater part of the vertical.',. This velocity distribution differs from that usually observed in natural flows and can apparently be explained by the fact of the side walls of the flume. A stable circulation zone was observed at the trough of the ridge, within which the velocilides markedly differed in magnitude and direction. In the lower part of the circulation zone velocities counter to the direction of the main transitional flow were observed. The velocities within the circulation zone are represented by lines of the current which divide the volume of water included within the circulation zone into streams having an equal flow rate. The data, obtained broaden current concepts concerning the structure of a flow in the presence of two -dimensional sand ridges on the bottom. A ratio of the length of the vortex zone to the height of the ridge equal to 5A seems sufficiently reliable. The distribution to the bottom velocities within the vortex zone and the upward slope of the ridge that was obtained also  L 389r .." )9-66 ACC NR: AT6016518 seerns sufficiently reliable. 'Me pattern of the distribution of velociti s past. 0 Within the vortC.K zone that Was obtained Is of dofwto, Interest silica thiis pattern had b en little studied In the Orig. art. has: 3 figures. SUB CODE: 20/ SUBM DATE: 00/ Card 3/3  USSR / Cultivated Plants L-2 Abs Jour :.Ref Zhur -,Biol., No 6, -March 1957, No 22713 Author : Yarnikh, S.,_.,. Inst z Not given Title : Water Bice. Orig Pub :B. kh. Bashkirii, 1955, No 10, 46-47 Abstract sWater rice -- a grain plant up to 2 15 m in height yields large grains useful for prep4_rin6 groats and flour; the hay is well oonsuraod by fam animals. Thies plunt wan first introduced to the Leninerad district in 1912 and wan recommended for oulti,.Tation in hunters' fams. The expe- riments of DlantinLr it in Bashkir reservoirs produced apo- werful and speedy development of the grain in slowly flo- wing water basins, free of weeds of other water reeds. Card  f~ Nf K H, V. Pneumonia -Treatment and prevention of pneumonia. Veterinariia 29p no- 5, 1952 ,9. Monthly List of Russian Accessions, Library of Congress, Aucnjqt 1959 Uncl. BPI 1118113 R.- Bl~_'_ T'x x-gL';g 3pn'-- g~ U  POLTAKOV, A.A.. professor; YARNM, V.S., nauchnyy sotrudnik. Light-waight apparatus for mechanized disinfection and disinseeti2ation by hot solutions. Vaterinartia 33 no.12: 70-74 D '56. (MLRA 9:12) 1. Tanso3rusnyy nauchno-imeledovatellskiv institut vaterinarnoy vanitarit, I. ektoparasitologii. (Disinfection and disinfectants)   USSR / Microbiology. Sanitary 1-1icrobiology. Sanitary F Microbiology of the Air. Abs Jour: Ref Zhur-Biol.,.No 2j l(,59, 5551. .Wthor : )[arnykh, V. 9 31~ Inst :All-Union Sci, Res. Institute of Veterinary Sanitation and Ectoparasitology'_i_o~~. Title :Survival of Pasteurella Suspended in Air. Orig Pub: Tr. vses. n.-i. in-ta vet. sanitarii i ekto- parazitol., 1957, 12, 196-210. Abstract: The influence of teiaporature and relative humid- ity of the air on viability and infectiousness of aerosols of the causal agent avian iasteur- ellosis was studied in an airtight chamber. It was established that increase of the temperature from 12 to 350 raised the death rate of pastour- allae (tom-,,,eratures of 23-250 cause doath of a Card 1/2 USSR / "lliorobiology. Sanitary Microbiology. Sanitary F Morobiology of the Air. Abs Jour: Ref Zhur- Biol., No 2, 1959, 5551. Abstract: considerable number of bacteria, and at 300 they die Off completely in the first 10 min.). Similar results were obtained upon inOCUlation of white faice and chicks in the chamber at vari- OUS tera,.)eratures. Higher atraos~)horic humidity aids survival of pasteurellae at 160 and below. Ath an increase of temperature, higher humid- ity has a negative effect on survival of past- eurellae. Prevention of air-borno infection by Dastourallae can be achieved by maintaining in aviarias temperature of 23-260. - V. V. Vlod- avets Card 2/2 DA  m nn LU-0- YARYM, V. S. Gand Vet Sci (diss) "UfAilg4*A-on of aerosols for the disinfection of tho air and mirfanes in nnimal-husbalk a-nd poultry-raising buildings." Vos, 1958. 18 pp (Min of Agriculture USSR. Mos Vet Aoad), 140 copies (KL, 11-58, 120) V  BOYKO. A.A., red.; DATYDOV, A.P., red.; POLYAKOT, A.A., prof... red.; SOKOLOVA, L.H., vetvrach, red.; T .AP2M,-Y-S, kand. veteri- narnykh nauk. red.; XMICEMKO, T.S.. red.; KALOYA. L.I., red.; nCHICNKIN, LV., takha. Ted. [Invention and innovation In veterinary medicine; materials of the First All-Union Conference, 1958] Izobratstellstvo i ra- tsionalizatatia v vbterinarii; materialy Vaosoiuznogo sove- shchaniia izobretatelai i retsionalizatorov v oblasti veteri- narii. let, 1958. Moskva, Izd-vo 14-va sel'khoz. SSSR. 196o. 188 p. (HIRA 14:5) 1. Vaesoyuznoye soveshchaniye izobretateley i retsionalizato- rov v obla6ti vaterinarii. .1st, 1958. 2. Nachallnik Glnvnogo upravleniya veterinarii, chlen kollegii Ministerstva sellsko- go khozyayatva SSSR ( for Boyko) 3. Nachallnik otdela po izo- bretatel'stvu. I ratsionalizataii Ministerstva sellskogo kho- zYaystva SSSR- (for*Davydov). 4. Direktor Vaesoyuznogo nauchno-ionledavatellskogo institute veterinarnoy eanitaril (for Polyakov). 5. Glavnoye upravleniye vaterinerii Mini- ateretva sollskogo khozynyetva SSSR (for Sokolova). 6, Za- veduyushchly laborstorivey makhanizataii VsesoSmi2nogo nauchno- isoledovetallskogo institute voterinnrnoy sanitnrii (for Yar- nykh) (Teterinary medicine-Congreases) '(Yeterinary instruments and apparatus)  POLYAKOV, A.A., prof.1 YAMYKH, V.S. Universal disinfecting machine for collective and state f-urms- Veterinarlia 39 no.6t68-73 Je 162 WIPA 18 tl) 1. Voesoyuznyy naucbno-issledovatellskiy institut veterbiarnoy sanitarli. 2. Zaveduyushchiy laboratorlyey mekhanizatsii Vsa- soyuznogo nauchno-isaledavatellskogo instituta veterinarno7 sanitarii (for Yarnykh).  KAVUN, Vasiliy Mikhaylovich. Prinimali uchastiye: BABSKIY, I.I.; BOROVSKIY, V.A.; VITKOVSKIY, M.P.; ZIMOVETS, V.N.; SEREDENKO, B.N.; PITULIKO, V.Ye.; CHEPMOV, I.A.; BLAZHEVSKIY, V.K.; YAROFUD, V.N ; RYBAKO V.N.; KUZIK, G.I.; ZADNEPRYANETS, G.V.; IVANOV, A.N., red.;ERLOVA, N.N.., tekhn. red. [Efficiant farm management] Ratsionallnoe vedenie khoziaiestva. Moskva, Sellkhosizdat, 1963. 205 PO (MIRA 16:4) 1.Ukrainskiy nauchno-issledovatellskiy institut ekonomiki i organizatsii sel'skogo khozyaystva (for Babskiy, Borovskiy., Vitkovskiy, Zimovets, Seredenko, Pitullko, Chepurnbv). 2.-Viftuitskaya'go~udarstvennaya seltakokhozyaystvennaya opyt-~ naya stantsiya (for Blazhevskiy, Yaropud)-3. Ukrainakiy nauchno-iaaledovateivskiy institut zemledeliya (for Rybak), 4. Sekretar' partiynoy organizataii kolkhoza imeni XXII s"yezda Kommunisticheskoy partii Sovetskogo Soyuza (for Kuzik). 5. Glavnyy agronom kolkhoza imeni XXII a"yezda Kommunistiche- skoy partii Sovetskogo Soyuza (for Zadnepryanets). (Collective fams-Managem6nt) Y~  VWN nvAri ACHEIIA, I.G.9 red.; PROKOFIYEVA, tekiff. red.; TRUKHINA, D.N.y tekhn. red. (Use of aerosols in veterinary medicine) PrimAnenie &pro- zolei v veterinarii. Moskva, Bellkhozizdat 1962. M p. imin 16:5) (Aerosols) (Veterinary medibine) Ei  YARNYKH, V.S., kand.veter. nauk Apparatus for aerosol production. Veterinariia 39 no.1:79-al Ja 163. MRA 16:6) 1. Vaeso3nmyy nauchno-issledovatel'nkiy Inntitut veterinarnoy sanitarii. (Aerosols)  KULESKO I.I.; SHIKOV, A.T., mladshiy nauchnyy sotrudnik; YARNM V.S., kand. voter. n~Luk Aerosol immunization of baby pigs against hog cholera. Veterinariia 40 no-5:30-32 My 163. (MIRA 17:1) AL 1. Chlen-,korrespondent Vseaoyuznoy akademii sellskokhozyaystvennykh nauk imoa Lenina (for Kulooko). 2. Ukrainskf'%y nauchno-iasledovatell-~`.,, skiy institut eksperimentallnoy veterinarii (for Shikov). 3. Vsesoyuz- nyy nauchno-isaledovatelisk-iy institut veterinarnoy sanitarii (for Yarnykh).  YARNYKHj V.S.; SAYTANIDI, V.N.. red. [Mechanization of veterirarj lqgiene work) Mekhanizateiia veterinamc-sanitarnykh rabot. ?4oskvap Kolas 1965. 287 411RA 18:12)  L MfL146 DT(l)/T A ACC NR, COM AP60220 AUTHOR; -YamLt, V. S. (Candidate of veterinary saiencos)l Akawan, 70- Sh- (Candidate of votorinary sciences); Vranchan, Z, E, (Candidate of voterirAry sciences); _jnava, V a I andidate of veterin-ar-7--a-M-no-e-51- jly V. I. (C ORG: AU-Unlon Scientific Research IngtitI& of Vetednm aw-At#40 (Vs6soyuznyy nauc soledovatetllskiy institut vaterinarney sanitarii) TITIS : Met1wd of dininNting rdlk on farm contaminated with Logt-MA-Muth disease, tuborculosis\#& bruce1losis . and paratypiwid: fever\11 SOURCE: Vaterinarlya, no. 1. 3.966, 92-94 TOPIC TAGS: foot sM mouth disease, tuberculosis, brucellosts, bacteria, virus, food sanitation STRACTo B. . In view of the shortage of reliable pastourixers on farms, a mobile unit A is suggested for farms contaminated with various cattle diseases a, A 'W-liter VDP- 300 vat for prolonged mM pasteurization is mounted on a GAZ-7& trailere Tests various bacteria and viruses showed the method effective if a temperature of 800 C it; maintainod for 30 minutese The method can be used in farm conditions, oven in pastures* Detailed instructions are given Sor ain the method under various local conditions. Orig. art. hasi 2 figure Q SM CODE : o6 / SUEM DATE t none Card 1/1 6 C' uDc: 619:637,133.3 a rof/-r- Z76 V4.1~  YAROCHKINI A.A. Mechanize the loading and unloading operations. Put, J put. khoz. 7 no.5:44 163. (MIRA 16:71' 1. Dorozhnyy master, stantsiya Kuskovo, Moskovskoy dorogi. (Railroads-Zquipment and supplies) (Materials handling)  L 4~20946___ ALF; NKs AR015976 SOURCE CODE: UR/0275/65/OOO/Oll/VOlO/VOl0 AUTHOR: Stamov-Vitkovskiy, A. V.; Yarochkin, V. V.- TITLE: Noncontact methods of vibration measurement .1 M SOURCE; Ref. zh. Elektronika i yeye primeneniye, AbB. nv65 REF SOURCE: Tr. N.-i. tekhnol. in-t, Vp. 8, eh. 1, 1964, 147-157 TOPIC TAGS: vibration measurement, ultrasonic emitter 1~ 1k(4 10(6 ABSTRACT: The authors describe the UBV-2 UBVS-3 and UBV-4 vibrometers for measuring the displacement amplitude of ultrasonic radiators. These instruments are based on an inductive pickup without a ferromagnetic core with the use of an electromagnet parametric system. The frequency response of the vibrometers is linear in the 8-50 k range; the limits for measurement of displacements are 0-5, 0-15 and 0-50 m; the vi- brometers may be used in strong constant and alternating electromagnetic fields. Block diagrams and schematic electrical diagrams of the vibrometers are given. The- sensing element in the UBV-2 and UBS-3 10 an inductive vibration pickup, while that in the UBV-4 is capacitive. The construction of the pickups Is described. The I - fields of application for the vibrometers are enumerated. 7 illust-ations. A. Ch. [Translation of abstract] SUB CODE: 13, 09 Card 1/1 UDC: 534.232-8  1. 471102-66 E,4T (m)IDIP (j )/t/EYIP (e !JP (c) P'ki/Aa ACC N1, AR6016485 SOUR'CE CODE - UR/0272/65/000/012/0033/0034 AUTHOR: Stamov-Vitkovskiy, A. V.; Yarochkin, V. V. TITLE Contactless methods of measuring qbrations SOURCE: Ref. zh. Metrologiya i izmeriteltnaya tekhnika, Abs. 12. 32. 331 REF SOURCE: Tr. N. -L' tekhnol. in-t, vyp. 8, ch. 1, 1964, 147-157 TOPIC TAGS: vibrometer, ultrasonic emitter, vibration sensor, vibration pic*kiip/TJB-2 vibrometer, UBVS-3 vibrometer, UBV-4 vibrometer 0 ABSTRACT: A description is given of the UBV-2, UBVS-3, and UBV-4 vibrometers, used in measuring thle amplffud6 of displacement in ultrasonic emitters. The vibrations produced by the magnetostrictive transformers, which i: induce elastic vibrations, are measured Nvith an inductive transducer, which instead of a ferromagnetic core uses a systein of electromagnetic parameters The frequency characteristic of the vibrometer in the 8-50 kc. range is linear, 1/2 UDC: 389:531-8. 232:62-752. 08  ACC NR- AR6016485 and the vibrometer can operate in both constant and variable strong electro- magnetic fields. Block diagrams and principal electric circuits are given for an three vibrometers in the original article. In the UBV-2 and UBVS-3, the sensor is an inductive vibration pickup. A change in the inductance of the vibration pickup, which Is a part of the oscillating circuit of the automatic generator, provides a change in its instantaneous frequency, which corresponds to the change in the magnitude of the instantaneous shift of the vibratingsurface. The vibration pickup sensor is a winding,- sebled in a cc h.=. I gEau 01 The coil is hermetically sealed by a protective cap made of fluorine plastic 4., iThe vibrometer consists of an electronic block and head, which contain the pickup coil and the high frequency generator. Within the B-50 kc range, the lit-nit shifts are 0-3, 0-10, 0-30, and 0-100 t< . In the UBV-4, the sensor is a capacitance pickup, which provides the vibrometer with complete freedom from the effects of the physical properties (spPcific resistance and magnetic permeability) of the vibrating objects. Within the 8-50 kc range, the limit shifts are 0-5, 0-15, 0-50 j-4 . Examples are cited of the use of these vibrometers. There are 7 figures. [Translation of abstract] [SP] SUB CODE: 09, 20/ LC, d 2/2 hs  S/126/60/010/004/019/0--3 AZ'r*Opts xmb^tui v V., motova. L, Allay Steel$ P"IODICAL, 71.1h. t.11., L 1960, Y-1.10. X-A. -Me ou"ora, stat that tn.r. or. di-leftt VL~I T9=. a.rbtd._C._tj.. affect: 0111 il % 112n ..1L .. In ^1 *? : :rb.. (0.2 to 1.0') and , r .~ .. ! 0.6 IV7.71 Cr. L:2 to 3. 3% V. to 0.1 to 10.3% v, and o.6 16.1% W. It.~d-d . I' " 4- fro. 113C to 1300, ?r.t ... Is % - - 120G-1350'C. T--P-rx-lt was t f S Z _ I 00, 3 0. boo and.650'C. Crbid.. phs... C;~ : i '~ fC..t.d .1 200, 300. Orimed at d1crorent t&I*8 of timporing w-art A&PArt.d ; loctrelytically and studl.d by X-ray diffraCti" iDelay* withad. . 1"1.L d :brvisloma r diation the po~wdmr beIng conta".d in a a t .pillsrT. Th. phis ound for vorl.us t-p-In Par.%- a f V 3 b~ L. Tbl.. I %a, 5 for ch-Lam (tyr4. ICMC6 UCKN6)'. '%0 oEb4p). 1 X30 (lock30.12Xho cloKbko)l IOXIIO (10"70). - ' ' 0~ ior t L~ ( t oe.s.n.t. ype. . 70 2XhO (3KMO)ht 3 icria cio=oi. tor3amroo). ior3o iimsoi.~r3o (5.Gloi.ri 4 -1y"d..- I (ICMb PI 2r,30 (2GIO) I. II :M20 (j2!20)j 10MIZ lamo tic~CU 2M20 um-'a) ) :4 -di.mi (tjrp.. 10~2 tL=)l 10~3 tIOF3 ). 10#6 (I_QF_b7q),Qfl2 (ICW121. 10#20 (10T20). 10�40 (10F40" 3#10 (5?20)~ 2t20 .(2F20).- 20100 (2)PICO) and tungsten 1 ho 6 10520 QOV20). IOS (t".. 104 10860 (LOY60) 108230 CIOVL30). lOtISO (IOVISO). 5 0-1-0 (5%~Lko I' r/ * `^Ij.I. i PS40 (;T%C1 &.ults of che"Ic"I M r 2G30. JOG30 ad 10050 fe- r. ..d No (urt.36) r Ld .;d- c -iod eat by T^bl* 6 h*- ,, ( ... 1,,,:. : .X. .. th " . * . . . R.M.L. P"I, b 4 ,.ad.' r tn h * e - ..ntLr..d in thl a r .:l ' * Vb-- on the dogr 11.1inS r..t pr~ry growth And subsequent tAinwd on th .b xsx-tio. - ..:. :a C-gul. "too of crystal* of sp-LoL rbid.. (p-cLpit.ti.X as C&" 2/3 r;;,Ut or -.tito fe-tion) in relation to the ratio of the - 11071at-616ftent and .-rb.. 4.nt..t:s of stools. Thor. -a _ 6 tbl as ASSMXATX012 G*r'k--kiY l0.l.d.-t.l-.kI,, fL.ik-t.kh.I~h..kI3r I.Atlt.t (C--kly Ph),.L,. -1 R .... rch .A 5r8ZCTTzvt 4.17 25. 1959 Cord 3/3 k  AUUMOVA, A.I., professor; 4=0110VA. T.H., dotsout; TAROGHKINA, H.P., asiestent Decreasing the incidence of gastrointestinal diseases In children, Wrav.1razakh. 16 no.9.-6-9 156. (HLRA 10:1) 10 Iz Kafedry goopitallnoy pediatrii i detskikh infektsiomWkh bolquipy Kazakhakogo goeudaretvannogo meditsinskogo instituta imeni V.K.Molotova. (ALIMTARY CANAL-DISEASIS) M TlVn*~  YAROCHYINA, 111.P., Cv.,nd Lziul Sci-Wins) "On thr- clindc -nd of ,,s- protracted ond chronic dSrsentery in yQunC childron. 11 Prurme, 1953. 16 :)p (iir(,,hiz State tled lnet)q 200 copien (1:L,30-53, 134) Fun; m  YAROCHKINA Fprmation of chronic dysentery in young children. Zdrav, Kazakh. IS no. 2:34-39 158. (MIU 13:8) 1. Iz kafedry goopitallnoy pediatrii (zav. - prof. A.I. Avenirova) Kazakhskogo gosudaratvennogo meditsinskogo instituta. (DYSERTERY)  'I-YAROCHKIIIA, 11.~. kand.med.nauk Chronic dysentery in young-children as revealed by materials from the Third Children's Clinical Hospitil for Infectious Diseases in Alma-Ata, 1956-1959, Zdrav. Kazakh,"21 no. 3;35-40 161, NIRA 14:4) 1. Iz kafedry gospitall .n?y pediatrii (za v.-.- professor A.I. Avenirova) Kazakhskogo meditsinskogo ihstituta. (DYSENTERY)  B. Yarogov, B. A., Penetration of water of the Sea of Norway into tl--- Atle--itic Ocean through W. Thompson's Rise, Nauchno-tekhn.byul. Polyarn. n.-i. in-ta morsk. xybn. kh-va i okeanogr. (Scientific and Technical Bulletin of the Polar Scientific Research Institute of Marine Fishing Economy and Oceanography), No 2(6), 1958, p 41-46; (RZhGeofiz 7/59-6853)  YAROGOV, B.A. Formation of the East Iceland Current. Trudy Okean. ko--. 10 no.lt96-99 160. (Hrru 14:6) 1. Polyarnyy nauchno-issledovateliskiy institut rybnogo khozyaystva i okeanografil, Murmansk. (East greenland Current)  SWARTS, V.Ya.; YAROUP, I.Sh. Extension elements of oeraigrcuj~s with one- a Wed unity. Usp. mat. nauk 19 no.4:209-214 164. (MIRA 17:10)   L 43985-66 EWP(e)/E!ar(m) ,uH ACC NR: AP6030595 SOURCE CODE: UR/0413/66/000/016/0081/0081 INVFNTOR., K.; 541 ORG: none TITLE: Glass with high softening point. Class 32, No. 185024N< [announced by State Scientific-Research Institute of Glass (Cosudarstvennyy nauchno-issledovatel'skiy, institut.stekla)]: SOURCE: Izabreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 16, 1966, 81 TOPIC TAGS: silicate glass, heat resistant glass ,ABSTRACT: This Author rtificate has been issued for a process of melting and treating silicate glass ;t a decreased temperature which was achieved by selecting the following formulation (% by wt): 65-75 S102, 20-30 MgO, 4-8 Na20, maximum 5 A1203, andpin addition, 2-8 ZrOV Glass with a high softening pointwas produced. [JKI SUB CODE: ll/ SUBM DATE: 04May65/ ATD PRESS:o-,O 7d Card 4- 1~_ lis Ali 1441111 I, _-17Z ...........  PARFENENKO., L.S., gorryy inah.; V-TTXOIISKIY, Yu.J., garnr( inzh.,- gornr/ Inzh. Electric blasting of boreholes In the making of horlsortal workings. Gor. zhur. no.9i7l 5 164. OCRA 717t12) 1. Krivorozhsk!.y filial Vsesoyuznogo nauatino-iasledovateilakngo institutAt organizats1i i mekhanizatsil shakhtnogo strcitallstva.  ~ h. - - - - DIDOV., V.Ya.., inzh.; YAROKHNO., V.I., irlzho; SEKERUKHIN, L.N., inzh. - Using centrifuges for the production of reinforced concrete shells with a 2m. diameter. Trans. stroi. 13 no.8:22-24 Ag 163. (MIRA 17:2)   YAROLIYEV, Ya., brigadir brigady kommunisticheskogo trula Scouts of the future are always s*cbing. Sov. profsoiuzy 19 no.Uz5 Je 163. (MIRA 16:8) 1. Nontora bureniya, No.1 neftepromyalovogo upravleniya "Karadan,anaft'", Baku. AzerbaiJan--Oil well drilling-Technological innovations) (Turbodrills) -U- N  PASHCHENKO, V.; PSHENICHNIY-, SHK014"NIKOV, B., redaktor-, YAROKENOK, Tu.. redaktorl PWRONM, L. taimichnijr redaktor. [Lvov In photographs] Liviv u fotoiliustrateiiakh. Xriv, Derzh.vrd. vo obrazotvorcho4o mystetetva I musychnoi lit-ry, 1956. 1 Y. (LWOT-Views) (MLEA 10:3) 77777771,  YAROMBIM, V.) r, ch Sci (diss) -- "The use of Indicators of reserve sta- Cnnd Te bility for investigating linear systems of automatic regulation". Illoscow, 1959, 15 PP (Min Higher and Inter Spec Fduc RSFSR, Moscow Order of Lenin Aviation 0 Inst im Sergo Ordzhonikidze), 160 copies K, No 15, 10160, 137)  UTHOR: ----------- sav/144-59-8-5/14- Yarominek, V.F. A2piraat TITLE: The Stability Wurgin of Linear Automatic Control Systems PERIODICAL: Izvestiya vysshikh uchobnykh zavedeniy, Blektromek-hanika, 1959, Nr 8, pp 48-60 (USSR) ABSTRACT: The stability margin associated with control systems is connected with the idealization of the differential equations of the system. According to it~ when the Hurwitz criterion is usedg all the determinants must be not less than a certain value s as in Eq (1). On the other hand if the Routh criterion is used. all th6 elements of the first column of the Routh Table must be not less than s, as in Eq (2). If the latter is expressed in Hurwitz terms, Eq (3) is relevant. These three equations re-fer to non-normalized characteristli~: equations. In the rest of the paper normalized equations are used and the particular case of equal, positive determinants giving a "uniform" stability margin considered. The charar,,teristic equation is written briefly in terms of the two suffj--.es s, n in Eq (6). C d 1/ The sequent,-es in Eqs (7) and (8), written in terms of the ar 3 equation coefficients and the "Entier" Panotion E(~Q,  SOV/lL~~-59_8_5/i.~- The Stability Margin of Linea.- Automatic Control Systems are a.form of recurrence relation for the coefficients. Eqs (9) and (10) are the laws of addiLion and displace- ment. for the coefficients. Table 1 shows both odd and even sequence coefficients Cs, n against the order of the equation, up tr, n = 20. Any value of Cs, n can be found by repea-itied app-lication of Eq (9). As n becomes lprger the gerieral exprdssion for 03, n becomes more unwieldy and a simplification results if sums of binomial coefficients are used insteadi these are given in Table 2. The reverse procadure f-rom known sequence coefficients to equatlon ooeffi,:~ients for uniform stability margin is pcssible with Table 1. Th;~ coIrresponding values when stability is irlte:rpretod In terms of Routh's a-Ilgorithm are in Table 4. If thG determinant values are in geometric. progression, Table < is applicable, The distinctive features of a uniform stability margin according to aither crite.rion are shown graphically in Fig I for n = 3. The Harwit-z carrs; lies Card in the region of oscillatory transient procasses whilst, 2/3 the Routh curve passes through all three main areas of this so-called Vyshnegradskiy diagram. The points K and M refer to "equal rootsis and "equal criteria".  sov/144-59-8-5/j4 The Stability Margin of Linear Automatic Control Systems Fig 2 is the same diagram plotted for different coordinates6 The striking feature of this representation is that the curves for the two criteria are straight lines intersecting at 450. Card There are -" figures, 5 tables and 5 referenoesq cf which 3/3 4 are So-Vie-t and 1 Polish. ASSOCIATION: Moskovskiy aviatsionnyy institut (Moscow Aviation Institute) SUBMITTED: May 19. 1959  AUTHOR: Yaromine1c., V - F. , As s i s ta n t S QV/ 1411- 5 9 - 12 - -5/2 1 TITLE: finding the Dlinimum Integral-,Squared Figure of Merit in an Automatic Control System PERIODICAL.- I-zvestiyn vys5hikh Uchebnykh zavedeniy, Elektromekhanika, 1959, Nr 12, pr~ 36-48 (USSR) ABSTRAM, The general background to t1iis topic is found in [,Ycf' 1. 2 and 3. Analytical. methods of finding the condition-9 for a minimum in the criterion are difficult if all the coefficients in the systern vary together, The present paper reports resulto of work on finding the minimum integral-squared fi,~ure of merit for a linear syste'm xr2.th transfer function b, 1$(p) 1= Rx--(--) P Card 1/4 when unit function stimulus is applied. An eSSelltial relationship used in solving this problem 1.5 tbaL between integral-squared error and stability margin (Ref 5), If the clo3ed loop transfer function is Lq (1) then the formula, due to A.A.Krasovskiy, for calculating integral-squared error is Eq (2). It is often alleged V/  Finding the Minimum Int egra I- Squared Figure of Merit in an Autotriatic Control System that tile dependence of this result on determitiants such as Eq (3) and (4) is a drawback since the latter are difficult to break down in literal form. For out purpose determinant notation is an advantage. That this is so may be seen from the expressions for the diagonal elements in Eq (6) and (7). The determinant ratio in hq (4) which figi.iretj ~ja largely in E'q (2) can thus be expressed by a ni.nglo Hurwitz detorminntit and tile extreme J)OirS of Co(~ffiCiejtts a() i n I a Ild 1) 11-11 ln~ Vic 11orma I i.z(!f.4 form of the error criterion is Eq (15) where 11 is Lhe, ratio of the, lower coefficients in numerator and denominator of the tran,3fer function of Eq (].)~ The normalized form is used throughout tile remaindol. of tile Paper. If it is assumed that the stability margin is uniform in the sense of the 111arwitz criterion, the ratio of the extreme coefficient.% takes the simple forms L-f Eq (21), (22). Hence, whether n, the order of the system, -;S even or odd, the quadratic error is Eq (25), The criterion depends therefore on the stability margin, the Card 2/4 ratios of the extreme pairs of coefficients and on the  sov/144-59-12-5/21 Finding the Minimunt Integral-Squared Figure of Merit in an Automatic Control System term a, which represents the sum of the real parts of all the roots of the characteristic equation. The ratio of al to the order, n, represents the arithmetic nican distance of the roots from the imaginary axis arid is thus theaverage damping. The minimum value of the expression ill Eq (25) is simply n/2, Tables I and 2 list the partial derivatives of the integral-squared criterion with respect to other terms in tire determinants for n = 4. 6. A linear automatic control system has a uniform stability margin in the Routh sense if all the Hurwitz determinants form a geometric progression.. . It is shown that swhatev,~-r has been said aboiit Hurwitz stability applies also to Routh stability. It is also deduced that if the coraniou ratio q of the geometric progression of tire generalized stab-'lity margins ei satisfies the condition 1 -