CO v _a.N., otvetstva SHULIGIN, Ale,kcandr Mikhaylovich; YAKOVLXV, nayy red.; PROT("OV, V.S., red.; SOLOVEYCHIK, A.A., tekha.red. [Thermal conditioas of soils] TempersturrWi rexhim pochvy. lenin- grad, Gidrometeorol, izd-vo, 1957. 241 P. (MIRA 11:2) (Soil temperature)  AUTHOR: Yakovlev, N.N. 11-7-9/23 TITLE: "Discovery of.Machaeridia Representative from Novaya Zemlya" (Nakhodka predstavitelya machaeridia s Nivoy Zemli) PERIODICAL: "Izvestiya Akademii Nauk SSSR11, Seriya Geologicheskayal 1957, No. 7, PP. 106-107, (USSR) ABSTRACTt in 1955, the author obtained several problematic specimens of the Lower Paleozoio from V.N. Smirnov (Institute of Artie Geo- loo. The author assumed that these specimens4 found at the' Promyslov river of Novaya Zemlya belonged to the species of Machaeridia. The cone-shaped body is covered with tile-like plates, which form the outer skeleton. The plates are ar- ranged in vertical rowep somewhat alternating with regard to the adjoining rows. Sofar, Machaeridia were known in the USSR from the Lower Silurian of the Baltic area. The Ma- chaeridia discovered in Novaya Zemlya belong to a different kind than the specimen found in the Baltic. The article contains 1 photograph. ASSOCIATION; Institute of Arctic Geology. (Institut geologii Arktiki) SUBMITTED: October 25, 1956 AVAILABLE: Library of Congress Card 1/1  YAKOVLEV, N.K. Sea lilies from the lower Carboniferous of the Don-e-Its Basin. Geol.sbor. (Lvov] no.7/8.417-420 161. (MIRA 1/,:12) 1. Vsesoyuznyy nauchno-issledovatellskiy geologicheakiy institut, Io6nin&Tad. (Donets Basin--Crinoidea, Possil)  jiko~~N14QJWYich; GEM, R.F.., otv. red. YAKOVLEV, I rironment; articles on the Ps.100- (The organism and its en, 1913-19661 Organizm i sreda; ecology of invertebrates) stati po paleoekologii bespozvonochrykhp 1913-1960 gg. 2., dop. izd. Moskva, Izd-vo "Nauka," 1964. 146 p. (MIRA 17: 10 SSSR (for Yakovlev). .1. Chlen-korrespondent AN  YAKOVLFV, N.M. lisPhere 5 aminobutyric. acid in the cerebral her J*tabolism Of ?(- activitY of varyi-ng duration. Ukr- blok-hio, zh!Ir, during muscular (141RA 17-9) 35 no.2tI75-187 163. 1. Leningradskiy nauchno-isaledovatellskly institut f i ziche skoy kulltury.  7 T_C,.~ 'J.A.~ Cj[p.~,C)Vl YAKOVLEV N.N. kdaDtAb-lon of m"Iddle-aged and r-.~derly persor,5 to Inus-s-ular activity. IF! ziol. zht-T- . 49 no.9,-IC67-10'70, 14 M12) 6sledovatellskogo instituta 1. Uktor biok-hirru"- Nauchno-i P~zicheqkoy kulstury, Leningrad.  YAKOVLEV, ~A inScular NJ lie ~-;d aml,41 lnzt-li--ut f'A,7,A,~~esxoy  YAXGVLEV, N.N.... : Inte:resting cases of the ge=iation,of solitar-f Carboniferous Rugoaa corals in the Donets Basin. Paleont. zhur. no.1:147-.. 148 165. (MIRA 18t4) w m4 g"'gg a 18T ;J  YAKOVLEV, N.N.; VOLINOV, N.I.; LESHKEVICH, L.G. ... Effect of.pangamic acid, methionine., and a.mixture of gluconate and glycin on the metabolism in a heart muscle and the electrocardiograuby of muscular activity. Ukr.biokhim.zhur. 37 no,51818-835 165, (MIRA .18110) 1. liauchno-issledovatellskiy institut fizicheakoy kulltury, Leningrad.  -aws and bibliograpriy. Fiziol.zhur. 51 no.7:903-904 (MIRA 18: 10) -A - M-f . . . . I . . . . ..31 -4; 51 WIN! I INK M     YAKOVLEIV, fjj,~.; ALPATIYEV~ A.M.; BESSONOVA, Ye.V.; RUDFIIKO, A.I. Droughts in the U.S.S.R. and wDrs for overcoming them by agroclimatic knowledge. Zemledelie 26 no-3114-20 Mr 164. (14IRA 17:4) 1. Vsesoyuznyy institut rasteniyevodstva.  14(6) SOV/112-59-1-450 Translation from: Referativnyy zhurnal.. Elektrotekhnika, 1959, Nr 1, pp 60-61 (USSR) AUTHOR: Yakovlev, N. P. TITLE: Approximate Design of a Single-Raise Valve-Type Gate PERIODICAL: Tr. Saratovsk. in-ta mekhaniz. s. kh., 1957, Nr 11, Vol 1, pp 209-216 ABSTRACT: Construction of a valve -type gate (a thin-wall lens -shaped pipe with a single mechanical hoisting device) is briefly described. The'gate structure is solved analyl:ically with the assumption that the gate -has three supports: two outer hinges and the raising-rod hinge. This reduces the entire spatial figure to. a statically determinate form and provides a safety factor due to the fact that the joint functioning of all hinges is not taken into account. The gate is economical in construction and convenient in operation. N. M. S. Card 1 1  yAKO=V, NikolaIr pavlov-,Lch., inzb. impact in ptpelines. A now installation for the control of h7draulic KhidroteYh i melior 7 no.2-39-42 '62* M i Of, 'N-k Ir g 'R-M-RAW-Y   YAKOVLhVj (Naratov) Forma ti on of air ac,-=ulatlons in the beands of pressure pipe- .1Jnea and their effa~xl on flow. Vod. I san. tekh. no,l2zl8:21 D 163 (MIRA 18;2)  YAKOVISV YakovleV 11, ' V, i "The Problem of' Choosing a Feeding Regulator for the oi lers of the'River Fleet ":- in the collection Siloryyye ustanor-Aci na'sudakh redhiiogo flota-2'Power-plants.on'the Vessels of the River Fleet 146scow/Leningrad, Vodtransizdat, 1953, Pages 85-93t 79 6 figures.  Yakovlev, N. V., Frid, U. Y. and Oindlin, I. X. (Moscow Cold Store Ho. 12; State-Institute for Designing Enterprises of the Refrigzrating Industry): "Automation and Control at the Alos,~oq No. 12 Cold Store" ZjEnglish - 8 page's/ report presented at the International Inst. of Refrigeration (IIR), Annual .Meetings of Commissions 3.4, and 5, Moscow, 3-6 Sep 1958.  I ~Va~.91117e~v~ch; CIIICBIKOV, ~13., ,1~40VI4~W= red.; GROMOV, A.S., [Operation of refrigerating sysj;ems]Ekspluatatsiia kholo- dillrqkh ustanovok. Moskva, Gostorgizdat, 1962. 14~ (MIRA 15: (Refrigeration and refrigerating machinery) V~m- I*k-4A M '~`AIRRIIN 191M I 11 OKI, -3 --n V21,511 Ugg  YAKOVLEV, R,V., inzh. Simplest method for capacity control of compressors. Knol.takh. 41 no-1:50-51 Ja-F t64* (MIRA 170) q -a-m- k,'C~7 ZI: 01 z W-0- NO N! R, 1150. V, 5 mum  I ~i It 3(5) PHASE I BOOK EXPLOITATION SOV/1910 Akademiya nauk SSSR. Dallnevostochnyy filial, Vladivostok. Institut geografl~. Materialy po.fizicheskoy geografii yuga Dallnego Vostoka; Prikhankay- skaya rwmina i prilegayushchiye k ney rayony Primorskogo kraya (Physical. Geography of the Southern rSoviet) Far East; Khanka Plkin wid AdgacV Are the Primorfty Kray),Moshow, Izd-vo 1w S 1 1,386 M ( 33 1 95 po copies prib dd, Resp, Eds,: B.P. Kolesnikov, Doctor of Biological Sciences, G.D. Rikhter.m. Doctor.of Geographical Sciences, Professor, and V.V. Nikollskaya, Candidate of Geographical Sciences; Ed. of Pub- lishing House: P.K& Kavun;-Tech. Ed*: Ye, V. Makuni, PURPOSE: This book is intended for geographers interested in the physical geography of the Primorskiy Kray (Maritime Province). COVERAGE: These articles deal with various aspects of the physical geography of the Primorskly Kray, particularly the Suyfuno-Khan- kayskaya plain, A paleogeographie'titudy of the Ussuri valley Card 1/3  Physical Geography of the Southern (Cont.) SOV/1910 is givenjas is a general treatment of the h,drography and climate of the Prikhankayokaya (Khankay~ plain. Infor- mation is provided on the non-metallic minerals of the plain and the rocks available for construction purposes. References accompnay each article, TABLE OF CONTENTS: Foreword Kolesnikov, V.P. Natural Division of the Primorskiy Kray 5 Yakovlev N.V. The History of the Geological Formation and tat! c Deposits of the Prikhanlr-ayskaya plain 30 Ovayannikov, N.V. Natural Hook for Building Materials of the Prikhankayskaya Plain 50 Nikollskaya, V.V. Paleogeographic Studies in the Ussuri Valley 63 Card 2/3  Physical Geography of the Southern (cont.) SOV/1910 Nikol'skayaj,V.V,.. and D.A. Timofeyeve Geomorphological Characteristios of Small Sections in the Suputink and Kedrovaya River Basins. 107 Stotsenko, A.V. A Climatic Outline of the Prikha*knyqkayn Plain and Adjacent Territories 131 Sokolov, I.F., Dry Winds-Sucoveys as a Climatic Feature of the Forest-steppe Landscape of the Prikhankayskakya Plain 162 Stotsenko, A.V., V,G. Chernenko. A Hydrogeographic Descrip- tion of the Rivers of the PrikhanikaypkhyN?,~ Plain and Those of Contigous:-; Regions 179 Stotsenko, A.V. Floods in the Primorskiy Kray 254 Kurentsov, A,I. Animal Life in the Prikhankayokaya Plains 273 AVAILABLE: Library of Cqngress (GB325.A45) 6-19-59 Card 3/3  YAKOVLEV, N. V., Assistant "On the Proble= Concerning the Meth.od Employed in "he Precizzjrn- of Angles in f4unicipal Triangulation of First Order". report presented at a Scientific-Technical Conferencecat Moscow Inst. of Geodesy, Aerial Photography and Cartography Engineers, 24-26 April 1958. 0 (Geodeziya i kartografiya, no. 61 PP. 78-79, 1958)  -)rML)MIXxzkbvq IAwAo; High-Illuminance mirror-lens s7stemg used for image transmission. Opt.-.mekh.prom. 25 no 5:24-25 HIjr 158. (NnA ll.-9) (;;tical'iinstruLments)  I , 3M SOV/154-59-3-8/19 AUTHOR: Yakovlev, N. V., Assistant TITLEs On Observations of Directions at Triangulation Stations :(,0 nabl- yudenii napravleniy na punktakh triangulyatsii) PERIODICAL: Izvestiya vy8shikh uchebnykh zavedeniy. Geodeziya i aerofotoall- yemka, 1959, Nr 3, pp 87 - 98 (USSR) ABSTRACT: Card 1/3 On the strength of investigations made the following is stated. The problem of the presentation of observation results at a station in the form of a series of directions with equal accuracy has numerous solutions. Their number increases with the increase of the number of directions in this point. All known methods for large-precise angle measurements by means Of which.s. number of directions can be obtained with equal accuracy at the station are exceptions from the general solution of this problem accord- ing to formula (1). Thus, possibilities for the development and application of such observations arise (with the same or a differ- ent number of directions in the groups) which, if applied to concrete working conditions, may prove more suitable than the known methods of angle measure ment.with regard to an increased accuracy of the observation..results as well as from the economic  Tz. On Observations of Directions at Triangulation Stations -SOY/154-59-3-8/19 point of view. This fact is of.extraordinary,importance for the observation of stations with a great number of direct'ions. The aforementioned simple rules for the calculation of equalized directions of a station and the formulas (13) to (17) for the estimation of the accuracy of the surveying results are of a general nature. They may be,applied to any method of angle mea- surement (by means of which the observation results,can be given in the form of a number of directions of equal accuracy). This holds equally true of the known methods as well as of those which may be obtained according to the theorem for formula (1) which has been proved in this place. The.author pleads for an aban- donment of the unsystematic classification of the directions into groups as it is practiced now. In practice it.is possible in all cases of the classification of directions in groups to obtain a number of directions of equal accuracy and to estimate correctly the accuracy of the angle measurement results accord- ing to formulas (13) to (17). There are 2-tables, and 9 refer- ences, 8 of which are Soviet. Card 2/3 21 M Nita W NZ  On Observations of Directions at Triangulation Stations SOV/154-59-3-8/19 ASSOCIATIONs Moskovskiy inatitut inzhenerov geodezii# aerofotos"yemki i kartografii (Moskow Institute of Geodetic, Aerial Survey and Cartographic Engineers) SUBMITTEDi October 22, 1958 Card 3/3  (t,NO L-e Lf-U IV, U. Sa r, to A US .0 0 .,0.3 13- *3 Z '1k.o. ut.O.Z.0 11V A 3 J. I;.: a U.. V4 I I Ilm-n 96 WOO, , j . Z j a" jw 'I; it 4. I A 1, ~pj it I I I 1 fl-UP 4! i -1 p .0 XAv., R 0 . . .  3(4) SOV/154-59-4-5/17 AUT.HOR: Yakovlev, 11. V.., Assistant TITLE; Improved Programs for Observations According to the Method of the Symmetrical.Combinations of Three Directions (Usovershenst- irovannyye programmy dlya nablyudeniy po sposobu simmetrichnykh kombinatsiy trekh napravleniy).(With Equalization of the Di- rections)(pri uravnivanii napravleniy) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodeziya i aerofotos"- 3remka, 1959, Nr 4, Pp 43 - 51 (USSR) ABSTRACT: The method was developed under the control of Professor A. I - Dur- it ey: ml was published for the first time in the treatise (Ref,7). Here this method is greatly improved. There (Ref 7) the efticiency of direction measurements at the triangulation stations in single groups with three directions each was proved'and the respective programs for angle measurements were given. These programs com- prise the collected material of one station in the form of a number of directions of eqvql accuracy with a good approximation. But not quite accurate, since the equalization at the stations ard 1/4 is made according to angles while the directions are measured C independently. According to the demands for a precise equali-  Improved Programs for Observations According to the SOY/154-59-4-5/17 Method of the Symmetrical Combinations of Three Directions. (With -Equaliza- tion of the Directions) zation of.the directly measured quantities, i.e. of the direc- tions, this method is improved and carried out according to the method of the least squares. In an exact equalization accord- to the method of the least squares it is supposed that the results of linear measurements and angle measurement results are free from any regular and systematical errors and from errors with an unbalanced effect. But since this is not the case with angle measurements methods are investigated to weaken the influence of those errors which are in connection with the instrument. The measure (in the first half-operation the de- sired angle and in the second the complementary angle of the former is measured up to 3600) given in the instruction for tri- angulation (Ref 3) and the programs (angle measurement in all combinations and the method of the circular process) which are predominantly used in production are demonstrated. Table 1 shows programs for the measurements with equal accuracy according to single groups with three directions each. These programs are arranged for the case of a precise equalization according to Card 2/4 the method of the least squares of independently measured di-  Improved Prograns for Observations According to the SOV/64-59-4-5/17 Method of the Symmetrical Combinations of Three Directions.(With Equaliza- *tion'of the Directions) rections. Thesequence of calculations for the setting-up of these programs is given here as well as an example for the pur- pose of illustration. As opposed to those given in the paper (RIDf 7) the programs in table 1 were arranged according to the demands of an accurate equalization of the directly measured values - i. e. directions -1 following the method of the least squares and not according to the demands for the equalization of angles (as in reference 7). The method given here leads to a number of directions of equal accuracy and permits a precise estimation of the equalized elements.of the net according to the rules for the estimation of the accuracy of the measured values and their functions (Ref 2). The present method demands less time and less work for the observation,of the triangulation station compared with the method of angle measurement in all combinations and it-nearly ebm the same results as to the accuracy of the observation results.~This is proved by the calculations (Table 3) as rell as by the experionce made by the Moskovskoye aerogoodezicheskoye predpriyatiye (Moscow Aerial Geodetic Enter- Card 3/4 prise) in the observation of the triangulation stations by  Improved Programs for Observations According to the SOV/154-50-4-5/17 'Method of the Symmetrical Combinations of Three Directions.(With Equaliza- tion of the Directions) means of "incomplete" sets. In the present nethod the observa- tion programs are calculated for a better compensation of a nu.mber of errors conditioned by instruments, thus granting the symmetry of observations of each separate direction. There are 4 -tables and 8 references* 'ASSOCIATION: Moskovskiy institut inzhenerov geodezii, aerofotosllyemki i kartografii (Moscow Institute for Geodetic, Aerial Survey anti Cartographic Engineers) SUBMITTED: October 22, 1958  3(2).3(4) AVTRORI No" Given BOT/6-59-6-21/22 TMAI chronUl* (Khroalk.) C' PXILIOPICUs GoOdeslys, I kartogr&fia, 1959, Ir 6. V; T4-T5 (V3SR) ABSTRACTI At the Mosk.v&kAy I no titut imbonero, Sod.c4l, owrofoton-y*s" I kwrtogrofIl (UGSO:. Institute of Geodetic, Asrisl Survey &ad re )' the Ordln"T Saisutific Confor'"s k place an April 22 too 24. L. 1. Ivanow, Doc4stv Candidate at - 4 . Philosophic aclows., -poke a- -17~ fttet-zc Bark 2.1 Materialist'.* Philosophy*. A. X. Isromor, Chief of the Glarwyo spralonly. goodeall 1 kartgrnfli (Wn Adlmistrotl.n of Geodesy &DA c"tography) *pate -On the Sov-3vax Pl= for be poont of TopograDhIo-Vo4eti. and C"tcgraptic Work,. The = 1 1 wine "Parts v do 1.*~d In the g*od*%Lo sections " p A. 36 ftynaLl-ber, f#m *rpQ3~mo m Integr^ls of the Surfame : t Thsorome and Their Lpplic tion t% be Xtabantes of. Axtifitial 3&t.Llltvs of the ta~rth*- A. V. Xaudr&.hk.-, D~cont, -R-lo- electronics &nd Geodesy- a v I t , Dooent, -locursay In the Solution of by the Coordinates _of_ DifforqAt. Ge?d*tia SItIne.- oki Docol -Grmrin.try In the P"wit 3tago of Assistant, reported on the Wlienov of ~-uzding or-ra an iia wouracy of solution of llna~ j"tl.n 4y.t..N.- L-11. C-41dat. of Tch.1c.1 Solowoo, spoke om'th. ..tig.tion or the Rules of Dlatribution of 1--mr. In Generalizing the Ballet in P34t-v-duitv Student, reported on lution of Z .1mear oystass for the adjustment of good*Uo 2t na o ke. T. X. XorvI orts-, WcAnt, d.oonstrt.d no apparatus T ;7 do slened him for pa traveralcg w-th a short tonstan't wrtloal basia.- "he ",,art* .." doliv."d in the seropbotogw* ti s 2.* t42 fts 4-2-rx!n*aw' D3ient. "parted on !a d ' ' PArlj.ati r. ,A4'tlo,,Ll 4.,J.. to the store- ' Lima" D,tdo%. op, XLj-YAo. ke an the pos-lbilitr f fiomormllsLng the formulae far the air sv~sy of ontl-Lzes Lad aItItods.- B. N. Rodlq n2x-az4 1. P. 'Z k. 1" Doct.t.. roport.4 _ To- on a shutter r a c"ores, 2 m RoUonow an a straSomoopia oollwatzr Ight~ 3. 1. Radiator and ch.so f . co.potir4r do~lcs for !~X. To~khov an ths . = Mry of be &I szo to tbs --auto for air jo 42 P. h. n , p.. oatc.1 p.m. slopliflontimas for the AEL rd 2 2 4 4 I : an of .13.tn of, a rI-L;.,*,-.r*a,-1=,L. Jko on the us a or ropIld file rocordID4 l Olud nt' To. In. -riat-camera abutters.-X. o f z ~ootekhkontora C,aplans ISM, mpoko 00A So" Bn'a..r of the In the n".-tioa of urco-o-14 Photo- Results And Tok ... lo.lne rer tb.od~llto ffurvy-* Th fol arts ars delivered. is the a&rtoamphic seavon% T. I, khal spoke a- the . 2,500,000.- Professor r mants.t of the we wap an . at.!. of 1 as *Xlnora. R-our-88 cf.tb- V= , k ::o z"no.02 Xa;o*.- : ti . a Assistant,. reported on the method, at go.grssh'a fl ld rooozroh t of turlm, the V~.pa~~tor7 oditirial voyk at The objec j.':t t, reported on the lartog-07- A3 L. 3 ~- M od.d flat country c1h , 7 Inprort.sat of . of I the tapagrphic "P on . anal. at A 1 10,000.- Tn. S. MII-h' ' ZC-Tu-%Xv- nt,,r*portod on says of peri-at bu1Idi Lsslst A1268. of tbo-oblaotf.- In the o.otl.n of build-ing of : apps,rat", 1. 1. X. D'*.ut' Poke an the life at Am.jstnt, -.prt-d - rafl..%Sug an the loa-zo.s. In c.ursor In 3- -1 an T. r go.;;:4mg phy~Joa i`Z~-'R--8, Zxeno- N- , . . for h-4 17 -Gura~v ~ptl It#.. U3- 7 9b azial syst. I C.4 i/4 Assistant, 'ith t.'..Qor.. a--- ---- --- :. - - ist.A., a the autonst!st!om of   E032/E514 0. 12100 AUTHOR: Yakovlev, N. hy TITLE: On the Use of Mirror-Lens objectives in the Photograp of Axtificial Earth Satellites \V PERIODICAL: Astronomicheskiy zhurnal, 1960, Vol 37, Nr 3, Pp~550-554 (USSR) k\, the objective is shown in Fig 2. ABSTRACT: The optical system of It consists of a spherical concave mirror 2 and two negative dIoptrIc components 1 and 3. All the refracting surfaces of the system are spherical. The dioptric component 1 is placed in front of the spherical mirror and between the centre of curvature of the mirror and Its pole. It consists of two lenses in series. One of these lenses is made of crown glass and the other of flint glass. The dioptric component 3 is placed in the path of the reflected light and is located between the centre of curvature of the mirror and its pole and consists of two lenses in series. One Card 1/2 of these is made of crown and the other of flint glass. 7777  7 5/033/60/037/03/019/027 E032/E5i4 On the Use of 31irror-Lens Objectives in the Photography of Artificial Earth Satellites The focal length of.each of the components is not less than three times the focal length of the whole objective. The objective has a very good correction for spherical aberration, coma, astigmatism and chromatic aberration. No correction is made for the curvature of the field. Detailed information is given as to the residual aberrations of the system and it is shown that the objective can be used to photograph artificial earth satellites of the sixth magnitude with a film having a sensitivity of about 500 (lux sec)-l. Acknowledgment Is made to M. A. Shesmintsev for interest in the present work. There are,2 figures, 1 table and 8 references, 7 of which are- Soviet.a,nd 1 English. ASSOCIATION'.~ M6skovskiy institut inzhenerov geodezii, aerofotos"yeAd i'kairtografii (Moscow Engineering Institute for Geod A6_rlal Photography and Cartography) SIFB-MITTED: September 7, 1959 Card.2/2 4t  N. V. , Cand. Tech. Scl. (disc) I'InvestiLi~atlon of HJE~h- -YAKOVLE Preeision Ajigular 'Measurements in Urban Triangulation of Ist Class," Moscow, 1961, 15 pp. (Moscow Inst. Engr. of Geodesy, zo~-yaphy) 200 copies (KL Supp 12-61, Aerial Photography and Car 0M.  ~:. ~ -, ,ez ~ "  YAKOVLEV N.V., kand. tekhn.nauk y of angle measurements in "irst- and aecond-or-der General theor- anguIRtiono Izv.vys.ucheb.zav.; geod. i aerof. no.1:3-17 164, INqRA 17:12) 1. Moskovskiy institut inzhenerov geodezii, aerofotos"yeuki-A:.- kartografii.   BORKOVSKAYA, Yu.A.; KLIMOV, P.K YAKOVIEV N.V. Methodology for the study of I.be. cf--rebral circulation Urder experimental conditions. Biul.eksp.blol.i med. 58 no.7:124.- 125 ji 164. (MIPA 18:2) Kabinet rentg-moMlologli, (znv. P.K.K11mov) InstWIL-1 NZ101) ii imeni I.P.Pavlova (dlr. - akadejOk V.Mlierlllgovskly) MI SSSIR, Leningrad. Submitted May 28, 1963.  SOV/86-58-9-27/42 AUTHORS: Annenkov, Ye. I., Engr Lt Col, and Yakovlev, N. Ya., Engr Maj TITLE: Application of Achievements in Chemistry to the Repair of Aviation Materiel (Dostizheniya khimii-- v praktiku. remonta aviatsionnoy tekhniki). PERIODICAL: Vestnik vozdushnogo flota, 1958, Vol 41, Nr 9, pp 64-69 (USSR) ABSTRACT. The authors describe.some instances of using physico- chemical processes in the repair of aviation materiel. In Air Force establishments electroplating has been used for many years Ito repair parts and units., and to produce anticorrosion coatings. The chemical nickel-plating method for aircraft parts,, and the ultrasonic electroplating method for aluminum alloys have been proposed. Recently, anodic-mechanical methods of metal machining have becomewidely used. An etch- ing method, replacing grinding, has been developed; complexly Card 1/3  Application of Achievements in (Cont.) SOV/86-58-9-27/42 shaped par'ts have been thus prdduced with a precision up to + 0.005 m. However, sometimed these new methods are very slow fn coming into use. Vinyl.has become very widely used. Capro- lactiam, a polyamide resin, has*Veen experimented with as a coat- itig material. Such materials as,"glass textolite:, new kinds of rubber, arLa a number of other noranetallic compositions, are used in a very limited degree. Inorder to*extend the life of machine tools, "textolite" additions may be cemented or,screwed onto worn-out guides, and bronze nurs for feed screws may be replaced by "textolite" nuts. The most suitable products are the "texto- litell mart. PT and the "metallurgic tex'tolite" mark B. Some pressed-wood-pgcking, used in pumps and other mechanisms, is considerably more resistant than that made of leather, rubber or asbestod. Wood,plastic marks DSPB, DSPG, and others, are used to replace bronze sleeves and bushings, steel pu.Ileys*and gear wheels. In some cases, roller bearings were replaced by laminated- wood plastic bearings. Card 2/3 LINE Ls= M, A'; 'W  Application of Achievements in (Cont4) SOV/86-58-9-27/42 Some good-quality parts have been made from hydraulically com- pressed..pouters. Several perchlorovinyl varnishes and enamels are now,uAs as r d' anticor osion coatings for skins'of aircraft fly- ing at~ ult.7rasonic'speeds or close to it. Infrared lamps are now used to dry these and other 'coatings in the open, after painting. The new methods provided various advantages, e.-g-., they brought savings in materials, expenses,'labor and time. Among improve- ments now being developed in laboratories and industrial enter- prises are: the use of molybdenum disulfide to lubricate bear- ings andgear transmissions which operate under sharp temperature changes (minus 500 to plus 4000 C), use of a carbon dioxide st stream to cut special steels, and the use of public-network gas for metal cutting. Card 3/3 MAT N P_f  YAKOVLEV, N. YA. Reforestation Experiment with concentrated seeding in freshly cut-ov,er areas. Les. khoz. no. 5, 1952  YAKOVLV, N,, Ya. Clinical aspects and treatment of cancer of -'.he rect=-- and the largo intestine according to clinical material. Trudy TSIU 62: 253-258 163. (MIRA 18:3) 1. 11 kafedra klinicheskoy ~hirurgii (zav. prof. B.K.Osipov) TSentralynogo instituta usovershentvovaniya vrachey. R e4  YAKOVLEV 0. Central Organization for Advertising and Display of Goods. SOV. t,Drg. n0.8:32-35 Ag 158. (MIRA 11:9) (Latvia--Diaplay of merchandise)  SlI.AuEVSKIY9 V.9 Imnd.tekhn.nauk; VORONGVv V.~ inzh.; YAKOVLEV9 0.9 inzh.; AFOX.INY L,j, inzh. Vfaldng and using cold asphalt mastics. Stroitell no.W8-a9 A 161. (MIRA 1482) (Aspha~l~)' fj, !.-M HE 6 . . . . . . . . . . .  YAKOVIEV) 0., inzh. Bridge across the Yenisey. Zhil.-kom. khoz. 12 no.4:28-29 (MIRA 15:7) 4p-162. (Krasnoyarsk-Bridges) MIA T., k gg~ N  PIGZANI M.D.; YAKOVLEV, O.A.- Selecting an efficient way of ore drawing durina 'he Einv-,e- stage working of thick ore deposits. Gor. zhur. no.10iz45-49 0 165. (MIRA 18;11) 1. Institut gornogo, dela im. A.A. Skochinskogo.  TAKOVLXT O.A.; PMKYAKOV, R.S. -Worlr practIce of miners of the -S.N. lirov "tits mizo. Mda. prout. no.l-.50-51 Jv,-F '57. (an 10:4) (Ajpatits) (Kining engineering) A all, MAIN',- --11N." -M  A E V 0, A. 127-58-5-3/30 AUTHORS: TITLE- PERIODICAL- ABSTRACT: Card 1/2 Abramov, V.F., Candidate of Technical Sciences, Kaplunov, D.R., and Yakovle Mining Engineers Comparative Estimate of Ore Blasting by Deep Shot-Holes in an Apatite Mine (Sravnitellnaya otsenka otboyki rudy glu- bokimi skvazhinami na apatitovom rudnike) Gornyy Zhurnal, 1958, Nr 5, PP 10-14 (USSR) The apatite-nepheline mine imeni Kirov has a thick, flat sloping deposit which outcrops at the sides of the moun- tains. The average thickness of the ore lens varies from 150 to 200 m, and its extension is about 2,200 m. The de- posit is mined by the system of forced level caving with ore blasting by large explosive charges. This system of mining had drawbacks. Therefore, a block in the northern part of the Kukisvumchorr deposit was used to conduct ex- periments in blasting by means of deep shot-holes; up to 50 m long. The block was divided into chambers and pillars with dimensions of 40 to 57.5 m. Altogether 350,000 tons of ore was broken in the chambers and about 400,000 tons in the interchamber pillars. The net cost of the ore from  127-58-5-3/30 Comparative Estimate of Ore Blasting by Deep Shot-Holes in an Apatite Mine the experimental block turned out to be approximately the same as in the ordinary method of applying large charges. However, the technico-economical indices of the deep hole method can be considerably improved, when the proposed scheme of hole distribution in the block, shown in Figure 3, is agplied. It is concluded that this method will prove to be more efficient and will replace the latter in the mines of the Apatit Combine. There are 3 figures and 2 tables. ASSOCIATION: GIGKhS AVAILABLE: Library of Congress Card 2/2 1. M-4nes-Blast effects  T~A~~, lit; 1~1..'%*.. ref erent.,gornyy inzh. Scraper levels and scraper equipment in Climx mineb. Gor. zhur. no.7:75-76 Jl '58. (MIU 11:9) (United States--Mining ongineering)  FURZAN, M.D., kand.tekhn.nauk;",YAKOVISV, O.A., inzh. eff.icient oft sening of broken-off ore on Effect of the co condittons of ita drawing. Nauch. isoob. IGD 21:32-43 163. (MIRA 17-2)  YAKOVLEV, O.A., inzh. Effect of the coefficient of the looseplipg up of granular materials on their mechanical properties and the 'regularities of ore drawing. Izv. vys. ucheb. zav.; gor. zhur. 7 no.10:3-10 164. OIIRA 18: 1) 1. Institut gornogo dela imeni A.A. Skochinskogo. Rekomendovana kafedroy razrabotki rudnykh i rDssypnykh mestorozhdeniy Sverd- lovskcogo gornogo instituta. =7777777  Category USSR/Radiophysics - Radio-wave propagation. Ionosphere Abs Jour Ref Zhur - Fizika, No 1, 1957/ 110 1910 Author Yakovlev 0.1. Title ~NZZces ~ioztEe Height of Antennas in the Theory of Tropospheric Scattering of Meter Waves Orig Pub Radiotekhn. i elektronilda, 1956, 1, No 3, 309-312 1-6 Abstract Examination of the dependence of the field intensity far beyond the horizon on the.height of the antennas in the theory of the tropospheric propapation of meter waves. It is shown that one must take into account the interference nature of the field in the scattering region when the scattered fibld is calculated. Allowance for the interference between the direct wave and that reflected from the earth makes it possible to establish the dependence of the magnitude of the received signal on the antenna height. Card 1/1  MUM, 0. 1.., Bommy, V. I. (Evil Tomsk) IfThe BAck Scattering of Radio Waves by the Lower Ionosphere". Reported on an interesting theoretical and experimental investigation of the radio wave back scattering in irregular heterogeneities of the ionosphere. report presented at the All-Union Conference on Statistical Radio Physics, Gorlkiy,13-18 October 1958. (Izv. vyssh uchev zaved-Radiotekh., vol. 2, No. 1, pp 121-127) CONPLETE card under SIFOROV, V. I.)  67527 sov/141-2-3-4/26 AUTHORS: jakovlev, 0.1. and Bocharov) V.I. TITLE: On the Back Sc attering of Short Radio Wave by the Lower Ionosphere PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radlofizika, 1959, Vol 2, Nr 3, pp 370 - 373 (USSIO ABSTRACT: The theory of the scattering of radio waves by statistical irregularities in the medium is applied to the problem of back scattering of short radio waves by the lower ionosphere. A calculation is given of the scattered energy and the correlation coefficient for signals received by distributed aerials. In the associated experimental work, a 50 kW source working on 12 Mc and having a pulse length of 50 itsec was used. Experiments suggest that the back scattering of radio waves by the ionosphere is a regularly observed phenomenon and is due to a region 10 - 20 km thick and located at an altitude of 90 - 140 Ion. There are 2 figures and 6 English references.  6 72 7 SOV/141-2-3-4/26 On the Back Scattering of Short Radio Waves by the Lower Ionosphere ASSOCIATION. Sibirskiy fiziko-teldinicheskiy institut (SibirskV Physic o-t echnical Institute) SUBMITTED: December 1, 1958 Card 2/2  S/112/60/000/017MV(44 91 A0O5/AOO1 Translation from: Referati,~nyy zhurnal, Elektrotekhnika, 1960, No. 17, P. 12, 6.14499 AUTHOR: Yakovlev. 0,11 TITLE: On the Attenuation Function of USW Far off Behind the Horizon PERIODICAL: Tr. Sibirsk. fiz.-tekhn. in-ta pri Tomskom un-te, 1959, No. 37, pp. 151-157 TEXT: The author determines the intensity of the USW-field far off behind the horizon, which is caused by the scattering of radiowaves in consequence of the statistical nonuniformities of the troposphere. The dependence of the field in- tensity is determined on the range,--the height of the antennae, and the frequency. Translator's note: This is the full translation of the original Russian abstract. Card 1/1  87330 s/058/60/coo/O i 2/oo 7/o i i AOOl/AOO1 Translation from: Referativnyy zhurnal, Fizika, 1960, No. 12, p. 258, 33600 AUTHOR: -X"~vlAv -n-T-i TITLE: The.Calculation of Inverse Scattering of Short Radiowaves by the Lower Ionosphere PERIODICA L: Tr. Sibirsk. fiz.- tekhn. in-ta pri Tomskom un-te, 1959, No. 37, pp. 379-381 TEXT: The author presents the calculation of inverse scattering of short .radiowaves at the vertical probing of the ionosphere. If the power of a transmit- ter amounts to 100 kw per pulse, pulse duration is 50 /-Asec, antenna amplifica- tion.K = 10, and wavelength is 25 m, then the power of a scattered signal at the receiver input amounts to W = 10-12w, provided that the thickness of a scatterint X layer is 5 km and its effective cross section of inverse scattering 6 = 10-13m- Importance of experimental studies of radiowave scattering is pointed out. N.A.Mityakov Translator's note: This is the full translation of the original Russian abstract. Card 1/1  80872 -9,31-0 S/141/60/003/02/013/025 AUTHOR: Av. 0.1. E192/E382 TITLE: Detection Characteristics of a Gas--discharse Plasma PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiofizilq,-, 1960, Vol,3, Nv 2, pp 285 - 289 (USSR) 'ABSTRACT: The detection characteristics of gas discharges have been investigated by a number of authors (Refs 1-7). Howeverf' the fundamental processes In p lasma, which are responsible for its detec;t-ton properties, have not been studied-. It was therefore decided to,carry out a number of experiments which would help to solve this problem. For this purpose ,a number of different detectors, filled with neon and helium, were investigated at centimetre waves. The equipment employed in the investigation consisted of an oscillator, an attenuator, a measuring line, an impedance transformer, gas-discharge detectors and a metering amplifier. Firstly,,It was observed that the voltage V at the output of the detector was strongly dependent on the current passed through the discharge tube and the gas pressure in the tube. It was observed that there exists Cardl/4 an optimum value of.current and pressure at which the LX  80072 s/14i/60/003/02/013/025 EA2MURasma Detection Characteristics of a Gas-d1sc rge detection effect is a maximum. Various portions of the gas-discharge tube give different detection characteristics, especially as regards their magnitude. The detection -effect appears to be strongest in the vicinity of the cathode and-i:weakest near the anode. A gas-d1scharge detector exhibits a considerable inertia. This is illustrated in Figure 1, which shows the detected voltage V as a function of the modulation frequency. The four curves of FIgure 1 were taken for Ne at pressures of 22 and 40 mm Hg and for He at 25 and 37 mm Hg. It is seen that, V strongly decreases with the modulation frequency f . The detection properties are also dependent on the constant magnetic field. Since plasma becomes a strongly absorbing medium when the carrier frequency coincides with the gyromagnet:Lc frequency, it should be possible to observe a kind of resonance in the detection character- istics. Such an effect was in fact observed and the results are plotted in Figure 2, where the vertical Card 2/4 axis shows V while the horizontal axis represents the L'Y"  4/141/60/003/02/013/025 EA(IME3~j s Detection Characteristics of a Gas-dIsc trge a ma magnetic field. Further measurements showed that V is proportional to the high-frequency power; this is illustrated by the experimental curve in Figure 3. On the basis of the experimental data of Figures 1, 2 and 3, it is possible to express the change of the detector admittance by the following empirical. formula: 2 -Ad E /((W - WH P f where E -represents the electric field. This formula can easily be derived theoretically, in which case it is wr�tten as: 4 2 e NE Acr (5) 2km2kT1(W WH 2 V21 ~f2 (m /Tr M)2 where k is the Boltzmann constant, Card3/4 T is the electron temperature,  80872- s/141/60/003/02/013/025 2JR24F-18 Detection Characteristics of a Gas-disc a g flasma * is the mass of an ion, * is the electron concentration, is the effective numbez- of collisions and e and m are the charge and mass of an electron. Comparison of these formulae shows that P =~V and a-;= ml)AeM . On the basis of Eq (5) it is possible to determine the quantity 'V by employing the resonance effect of the detector at the gyromagnetic frequency or the inertia curves of Figure 1. It Is thus possible to calculate V- by two independent methods. Some of the results calculated by these methods are indicated in Table 1 on p 288. There are 3 figures, 1 table and 11 references, 6 of which are English and 5 Soviet. ASSOCIATION: Nauchno-issledovatellskly radiofizicheskiy institut pri Gor1kovskom universitate (Scientific-research Radio- physics Institute of Gortkiv Unii~ SUBMITTED: October 8, 1959 X Card 4/4  YAKOVIZVA, G.D.;_YAKOVLEV, 0.1.; ROGASHKOVA, A.I. Doppler effect in nonuniform media. Radiotekh. i elektron. 8 fio.3:416-424 ~Mr 163. (MM 16:3) (D6ppler effect) (Electromagnetic waves) -  :n fy- 17 3 1 7 A i"_!FSf~ A P 4r~ 'I AUTHOR: Kolosov, 'vi. A.; yaicoviev, 0. 1. Y ef, -,-nov. A. Shvaclik,,11, K. M. TITLE: Meter-wave propagation in interplanetary apace :SOURCE: Radioteklinika i elektronika, v. 9, no. 10, 1964, 1735-1739 ;TOPIC TAGS: interr lanetary space, meter vave, meter wave propagation, radio wave propagation ABSTRACT: The results of an investigation of 183.6-B& radio-wave propagation are reported and corapared with some published data. The level of a signal ~ ly received from Mars. I -'artificial object was rietermined by comparing it with the receiver noise. The latter was measured by means of a calibrated noise generator ari(! aiso bi a comparison wi-.h the r-f radiation coming from w-,th"'n tale Z6-50-,nill1on--kn-. rar.~e Card 1/ 2  L 11" 7 -6 !ACCESSION NR: AP1046671 -axim,jrn po-qRible attenuation is esti 'ate were --~t reliable. th~ m rr d as 4t 2 db over t C8 tn ~~pacp- A comparlson of h e ,a r: - TTAA a *j ji aad un raclar rza-nglng ii poss--blc. ur,~g. ar-, 4 iiguref,- 1ASSOCiATION: none ~SUBMITTED: 05MLa)64 ENCL: 00 0jREFv-'SO EM O~k  ARMAND, N.A.; VVEDENSKIY, B.A.; GUSYATINSKIY, I.A.j IGOSHE;Vt I.P.,- NAZAKOV,, L.Ta.; KALD112', A.I.;- NOLOSOV, M.A.; LEVSM, I.F.; LOMAKIN, A.N,y- NAZA.Rz) L.G.; NEMIROVSKIY, A.S.; PROSPIA A.V.j RYSKIN, E.1a.j SOKOLOV, A.V.; TARASOV, V.A.; TRASHKOV, P.S.; TIKHOMIROV, Tu.A.; TROITSKIY, V.N.1 FEDOROVA, L.V.; CBERNYY, F.B.; SHABELINIKOV, A.V.; SHIRET, R.A.; SHIFRIN,'Ia.S.; SHUR, A.A.; ARENBERG,, N.Ta., red. [Long-distance tropospheric prcogation of ultrashort radio k waves] Dallnee troposfernoe ras~rostranenie ulltrakorotkikh radiovoln. Moskva., Sovetskoe radio., 1965. 414 P. (MIRA 18-.9)  W1~4(Q-2 18Afid) --TT,/ ACCESSION NR: ~:AT5023589 UR/0000/65/000/000/0227/0233 AUTHOR:~ Kolosov, M. A. Yakovlev 0. I.-P Yefimov, A. 1. t --- 5' .:ATITLE: Propagationof*radlio waves n Antif4lanetary, an3 near solar space 6,~/ SOURCE: qyAesoXinnaya konfeientsiya -po fizike kosmicheskogo prostranstva. 1193cow, 11965.. Issledovmliya kosmicheskogo prostranstva (Space. research); trudy konf erentaiij Z -v0 Moscow, I d 'ilauka,,1965, 227-233 n TOPIC TAGS: radio emission, radio wavepropagation, radio wave absorptio ABSTRACT: A study,of radio wave propagation from.Mars-l:at 183.6 Me and reception. at dist h -ances of up to,50:million km is reported. T e study included analysis of a o wa r *di ve propagation at distances of the'order of 300 million km on the basis of radio emission data f rom Taurus A. In particular, an attempt was made to determine 1) the maximum ossible values of.monochromatic radio p wave'attenuation in inter s ace,: ~'2) the attenuation-of radio waves with a white spectrum in the planetary p near. ~ s9lar ~,regioa, .3) the~effect of the interplanetary medium on radio wave props- ibi gation~ and 4) the poss e joechanism of.mon6chromatic radio wave attenuation.', Anai- Mars-lyindicates~sigiial-,fading h '1r ys s. of signals ~.Erom a ave an regular character which cannot -be'J2.ntirely explained either 'by the. ef feet of ionospheric inhomogeneit 6i Card 2  7- - I  _~~L_2?__60 ACC NR:, A 6ol 144i SOURCE CODE: UR/0109/66/olil/oob/061'(/O("1.22 WUTHOR: Yakovlev, 0. 1.- Yefimov, A. I.; Shvachkin, K_ M. ORG: none ttenuation of radio waves in interplanetary space nd in the vicinity TITLE, A a of the Sun ~-SOURCE; R(Ldiotekhnika i elektronika, V. 11, no. 4, 1966, 617-622 TOPIC TAGS: radio.wave' absorption, radio wave prop,agation, space communi- .Cation ABSTRACT: A study of attenuation of meter.-band radio waves in interplanetary space and in the vicinity of ft Sun -is discussed. A method of precise measurements of ..radio emissionlfrom radio source Taurus-A was employed. The measurements were made from March through December 1964 at 184,lic and various values of angle The band- width of the antenna radiation pattern permitted measurements at 0 ~ 50. On the ,basis of the measurements, the following conclusions were reached:, 1) There is no attenuation (within. limits of t5%) in the propagation of radio waves with a continu- ous spectrum et the 1.6-m band for a distance of 3 x 108,km when the energy beam x 1 7, km propagates at a distance of 2.5 0 from the Sun.. 2) Little attenuation was observed during thepropagation of radio waveswitha continuous spectrum at the l1-, 3-5-, and 1.6-m bands through all the interplanetary space within the Earth's orbit Card 1/2 UDC: 621.371.191/.192i523.164.3   ACC iV,15027749 monograph MV - Armand, N, Aol Vvedena B. A.I. Quoyatinsklyp 1. A.; Igoahev, I.P.j. gallanfln Flazar IG~iiiiEcv-.L. YIK.;.-- ~K ovaj Ii yo n, A.; boKoL0v,_4,, Vq Taragov, Y, A,- Taohkgy,,P. S.; Tikhomirov Yu. roitakiy, V. 11. Fedorova, L. V.j - ~j T S C . A7 ; -5 r 0' 1. rej 14makin, As b6 -Shur, A. A.;;YAkovlov 1,,j Koloaov, . j Upper tropoRpheric 0 a lonNf%Xtraahort; radio waves (Dalinoyo tropd-5-rexm6y-era5p a a e ye ulitrakorotkikh radiovoln) Moscow, Izd-vo "Bovetako e ra 10" , 1965. 414 P- illus., biblio. 4000 copies printed. WOPIC TAGSt radio wave propagation, tropospheric radio wave, radio communicution, apace communication1tropoopheric scatter communicat- A ion, signal proceasing, signal distortion, field theory PMOSE AND COVERAGE: This monograph is intended for specialists working In the field of radlowavo propagation, designers of long- distance radio communication systems, and teachers and students of the advai-iced couraea lim achoola of higher technical education.. The* monograph contains, for the most part, heretofore. unpublished results of Soviet eVerlmental and theoretical investigationa in the field of long-distance tropospheric ultrashortwave propagation., A Ccwd iAo YrIU10c: C-21-37/0 Y  NRI AM5027749 _Froblems of Investigating the troposphere by means of refracto- motors, the mean level of signals, meteorological conditions and topography, fluctuation of arrival angles and distortions of antennai directivity pattorna)loases In antenna gain, and quick and slow . . fadirWo of signal levels are discussed, Tho statistical character-. ictica or the signals at diversity reception in time, apace, fre- quency and angle-as well as the dintortion of eignala in the commun- ication systemn are also investigated. The long-distance propagat- theory to analyzed, and the engineering method of calculating field intensity at long-distance tropospheric propagation in given. At - present, there is no theory of Long-Diatanco Tropospheric Propagat- h In practice. Thus, in k' Ion which can be applied effectively enoug the investigation or that propagation, considerable attention has to be pald to experiments. The special characteristics of geograph- ical conditions of the territory involved should be taken into con- sideration during the analysis of experimental data and in their Yractical application because the conditions of propagation in arctic and tropical climates dIffer'from thone.eidating over Dean and*continentu. A considerable part of the monograph deals with the Investigationiof long-distance tropospheric propagation carried out over dry'land routes, 800 km long, In the central part of the USSR under the general supervision of B. A. Vvedonakly and At 0.- Arenberig (up*to 195T)o Ve 1, Siforoy iniestig4ted problem con- CWd 2A  ACC HL AH50 49 2TT nected with dintortions and fluctuations of signaler- References follow each chapter@ TANX OF CONV=Ss Foreword Ch. 1. Radio Engineering Methods of Investigating th* Troposphore Dielectric Constant Bibliograppy 16 ph. 11. Roaulto of Troposphere Dielectric Constant Measurements 17 ationship between the mean value of the air refraction Index 1. Rol, and altitude. Standard radio-atmosphere - 17 *-,2. Plw)tuations of the air refraction index- -- 24 osphere model -- 43 3. Some notions on the trop V1blIOgraPhY 45 Ch. n1. Average (mean)'Signal Levels In Long Distance Tropospheric propagation of Ultrakhort Wavos L% P -U.8 V)~ ~ 48 gAo  ACC NAt AM50277119----____ 1. Equipment and measuring methods for the moan signal level -- 48 2. Signal attenuation function in LTP USW -- 54' Relationship between mean signal level and the distance 57 4, Relationship between mean signal level and the wavelength - 63 5. Relationship of mean signal level and the shadow anglEmof both transmitting and receiving antennas --1-65 2' 6. Diurnal and seasonal variations of mean signal level 7 Bibliography 75 lCh.' IV. Effect of Air Refraction Index at the Zarth Surface on the._. Mean Field Level In LTP USW -- 77 10 Correlation of the mean r1eld level with the &Ir refrowtion Index at the FArth Surface. -- 77 2, possibility of predicting field intensity variations 61 -13ibliography 86 Ch. V. Fluatuation of Radlowave Arrival Angles wA Instantaneous' Patterns of Antennas Directivities 88 -and recording of' le Methods of measuring radiowave arrival angles Instantaneous antenna directional patterns 69 CO-4 L&A0  2, pluctuation of radlowave arrival angles In horizontal w0 vertical planes -- 92 3- Instantaneous antenna directional patterns 92 Bibliography 102 Ch. Wo Losses in Antenna Gain of MP USW 103 1. D6torudnation and methods or measuring loines-In antessna gain.- 103 2. Experimental data on losses In antenna gain -- 108 3. Theoretical,Investigations on losses In antenna gain 114' Bibliography 120 Ch. VII. Theories of Long Dietance Tropospherio'Propagation of USW'- -- 122 1, Introductory remaom 122 BibUography IL29 2~ Theory of scatterim radlowaves by tropospherlo tustulont nonhOMOSOMIUSS 130 Cwd rj/10 -,z --,.gig ~;g le- --w SIM,  H A145027749 Bibliography 150 Reflection or radlowares from dielectric nonhomogeneitles of definite dimensions -- 151 Bibliography 171 4* Raflectiona of radlowaven from lodnated tra"spherto nonhowo geneities of random character -- IT2 'Bibliography 1T9 ch. vxxx " Engineering Method of Denign-Calculatlon of nold Xntonsity Attenuation -- 180 -~J. Basic rulen of calculation method -- 181 2. Diffraction horizon ( a distance, beginning of which, the Yalu of the field intensity, calculated according to thediffraation *formulae in smaller than the measured intensity) -,. 182 '3. Detervdnation of field standard attenuation 182' 4. Meteorological conditions correction 184 Local topography correction - 185 Nat1mate.of leasea.1a antenna gain 185 .qw  M15027749 7, Eatimato of fadinga 286 Bibliography 188 .Ch. 3X. Statistical Characteristics of the Envelops, Phase and Fre- quency of.the Random Signal In MP USW -- 189 1. Statistical characteristics of atmosphere dielectric constant; signal components.in IWP -_ 189 2.-Distribution-laws for the envelopes and phase of various signal components -- 193 3. Distribution laws or sum-nignal envelope value 4-Kulti-dimenuional distribution functions of Instantaneous 1 of'envelopes and phases of the spaced signals in minute Intervals 207 56 Parameters of multi-dimennlonal,amplltude and phase distribution -functions of spaced signals -- 210 ,0. Statistical characteristics of instantaneous values of the en- velopos of spaced signals In minute intervals -- 222 7. Statistical characteristics of Instantaneous values of spaced Oignp-1-phases in minute Intervals -- 239 statistical charaoteristics of Instantaneous value of phase first derivatives of spaced signals In minute Intervals -- 248 cc~d TAO  AC5-NRi---- AM5OZff49 9. Statistical characteristics of Instantandous values of the first derivative or phase In minute Intervals -- 257 B~bliography 260 ap.,,X. Experimental Investigations of Rapid and Slow Failings in 1T.P USW -- 262 1. Methods of measuring and processing experimental data -- 262 2, One-dimensional. distribution functions of signal Instantaneous values -- 264 3@ One-dimensional distribution functions 6f signal averaged values-. 278 Period and frequency In rapid fluctuations of signal envelope-283 Blblicgraph7 -- 287 Ch. XI. Experimental Investigation of Signal,Statletleal Character- latics at Space, Frequency, Time and Angle Diversity'Roceptlon - 288 1. Space-diversity reception -- 288 2. Frequency-diversity reception -- 295 3. Time-diversity reception 4* Frequency-time diversity reception 305 50 Anglo-diversity reception 307 I CW4 8/10  Y T~C~M_94_50'27"4 Bibliography 312 Ch. )(11. Investigation of Amplitude-Frequenoy and rhase-Prequemy Signal Characteristics at LTP -- 314 1. Measuring and processing methods or experimental data ---! 314 2. Amplitude-frequency characteristics -- 321 3. Phaae-frequoncy characteristics of LTP channel -- 325 4. Froquonoy oharaoterlstion*,of signal group't1we delay -334- Bibliography 350 Ch. MI. Signal Distortion In LTP USW -- 351 1. Theoretical Investigation of distortions appearing In multi-, channel FM LTP communication systems -- 352 2. Experimental investigation of distortion in LTP -- 384 3. Distortions appearing during TV transmission over tropooph*rlo radio links -- 389 Bibliography 392 Appendix Automation of Signal Statistical Processing 394 1. Quantification of oontinuous signals and ooding 395 2. SIgnal. quantlflaatlon Instruments --.39T Cwd 9AQ  ACC NR: AP6036377 SOURCE CODE: (JR/0109/66/oi 1/0 11 /2064/2066 ~AUTHOR. Yakovlev, 0. Is;. Yefim6vt A. Is ORG: none `,'TITLE: Fluctuation characteristics and opictrum of radio waves propagating e in the interplanetary apace SOURCE: Radiotekhnika i elektronika, Y. 11, no.' 11, 1966, 2064-2066 TOPIC TAGS: radio wave propagation, interplanetar-y space, interplanetary communication ABSTRACT: Rapid fluctuation of energy stream propagating in the interplanetary i space has been obnerved (A. Hewish et al., Nature, 1964, 203,,4951, 1214) when the radiowave sources have small (I angle minute or less) size. This fluctuation is due to the rapidly-moving otat1stically-inhomogeneous plasma that fiUs the A !Card 1/2  ~-T , ~' --. -* - . - ; - . ... ~!,. I . . : - " : - . -- ., . . . . . .:- : :z : , ; .,. - ~ -~ , , , Pl: . .- - . ..I  NALIVK N," P ,V.D.; DEDEYEV, V,.A.; IVANTSOVA, V.V.; KATS, Z.Ys.; KRUGLIKOVp N.M.; ~IAZjUWV, V.S;_i_SVrRC97n_V-.G.P.- CIMINIKOV, K.A.;'SHABLINSKAYA, N.V.;' ZIIABREV' -I-,P ROZANOV~ L.U.; SOFMINITSKUY- F_A-f Priminal uBb stjy~*-. ~.. - -P. 0 . ; y . .1; HHAIN, V.Y4. ~..SIPDNI~NKO %:_,T,.N.j'SOKOlDV, MI.; Ygqy~TV) O.H., gidrogeolog th 6il, ifid' g~ b~6tihti6 Va nrl + c s [C646tatl-~~ afi~I:V6i6 &f e &f -tho Wp-bt-SlbeHaii-6fid Tui-hii.~-Sd~thian-~l'ifoi-nLi-. - 42 i ralUg_s'zon-_o's_n_io_6ti'i t~~niki- -Zaps dn6.:Siblrbko'i'-i Turano- ans' 4 ngra'd_'Nidrh--1965.'-322 (L_hin&_d*.* ~Jjt.7 Lefil " 0 p a V-6666iii~fayi--iiiftiifi6i-nauchno-issledovatell.!3kii geologorazvedochnyi 4 institut,.Trudy,..no.236) (MIRA 18:6)  Y/i C "V L- U. V.)Al SLUTSKIT, H.Te- YAKOYLEV O.H.- ANDWAT-RTBAEDY.L.I.; ROMAWVSXIT, V.P. k;~IiRi;~ ~ nauk. doteent. redaktor; LWINSON, Te.M inzhener, redaktor; NIKITIM, P.S.. inzhener, redaktor; S(NDWVA, L.V., tekhnichask-Ir mdaktor. [;leCtros3gn~tic stampIW presses] Blektromagnitmve shtampovo- chrqe pressy.-Pod obshchei red. V.P. Romanovskogo. Moskva. Goo. muchnlo~tekhn.izd-vo roashinostrolt.lit-ry. 1955. 21 p. (Bibliotecbka shtampovshcbiks, no.11.) Cgicrofilu] (MLRA 8:10) Sheet metal work) (Magnetoolectric machines)  17, 70 AUTHORS. 2~86 S/187-1/000/010/001/007 D113 D053W Nazarov, S.Kh., Korzhukov, N.G., Pletnev, A.P., and Yakovlev, O.ff- TITLE: The type 6-35 magnetic tape PERIODICAL: Tekhnika kino i televideniya, no. 10, 1961, 7-11 TEXT: The authors describe the.manufacturing process of the type 6-35 mag- netic tape and compare its operating characteristics with those of other types of tape.. Unlike other Soviet-produced tapes, this perforated 35-mm tape has a ferromagnetic coating made of -ferric oxide without an admixture of cobalt compounds. It was jointly devloped in 1960 by the Shostkinskiy filial NIKFI (Shostka. Branch of the NIKFI), the Shostkinskiy khimzavod (Shostka Chemical Plant) and the VNAIZ. The film for the tape is made of CBX-40 (SM-40) synthetic resin, which is a copolymer of vinyl chloride and vinylidene ohloride, with aromatic hydrocarbons and ketones as solvents. The film is then coated with a ferromagnetic suspension on a special Mt7-400 NP-400) machine designed and built in 1960 by the Shostka Chemical Plant. Card 1/0  2-n576 S/187/61/000/010/001/007 The type 6-35 magnetic tape. D053/D113 The type 6 magnetic powder contained in the ferromagnetic suspension is made of o(j-FeOOH which is processed into e-ferric oxide. The grains are acicular, 0.2/4,long, and have a length to crossover ratio ofCt-7:1. The performance of the new 6-35 type magnetic tape was investigated and the obtained operat- ing characteristics were compared with those of the "Gevasonor T-20011, 2-35, 4-35, C -1 54-4558 (S-1 4-4558) (standard) tapes, and with the tape produc- ed by the "Pirall" firms Abstracter's note: the name is given in Russian transliteratioj, The basic electroacoustical characteristics of Soviet magnetic tapes are compiled in Table 2. It can be seen that the type 4-35 and 6-35 tapes have similar electroacoustical characteristics except that the demagnetizability index of the former is 4.5 db less than that of the latter. A comparison of the amplitude characteristics, remanence variations and the coercivity of these tapes showed that (1) the cobalt-free 6-35 mag- n,etic tape possesses a better demagnetizability than cobalt-containing 2-35 and 4-35 tapes, especially with the elapse of time; (2) the optimum value of the high-frequency bias current and the value of the recording current re- quired for obtaining a given magnetization level were reduced in the 6-35 tape; and (3) the basic characteristics of the 6-35 tape remain practically Card 2/4  28576 S/18 61/000/010/001/007 The type 6-35 magnetic tape D053YD113 constant within ambient temperature variations from +600 to -6oOc. There are 8 figures, 2 tables and 2 Soviet references. ASSOCIATION: Shostkinskiy filial Nauchno-issledovatel'okogo kinofotoinstithta (Shostka Branch of the Scientific Research Institute of Motion Picture Photography)..   AIMREYEV, Yu.F.; YAKOVLEV 0 N Hydrological study of,Mesozoic and Cenozoic sediments in the northwestern part of the Wast Siberian oil- and gas-bear ovince. Trudy VNIGRI no.225:303-310 163. =(17:3)  =o=, PO Inprovement.in the design oil spring anticrespers. Zhel.dor, transp, 310 -no.6:83 Je '55. (MIRL 12:4) 1., Starshiy inzhener distantaii puti, stantsiya Altavakaya- (Railroads--track) (Railroads-Equipment and supplies)  -I=VLEV, P. "Historical development of tho technologr of grain milling." N.A.PonemaIrave Reviewed by.P.iAkovlev. Nuk.elev.prom.22 no.5: Tof cover MY 156. WMA 9: 9) (Grain millingl V(Ponomnrev, N,A.)  AUTHOR: Yakovlev, P., Squadron Commander (Chelyabinsk) 8h-12-31/49 TITLE: A Direct Procedure (Po pryamoy skheme) PERIODICAL: Grazhdanskaya aviatsiya, 1957, Nr 12, p 24 (USSR) ABSTRACT: The author reports an innovation introduced by the Chief of Communica- tions and Radio navigation 0. Khomutov, and the Chief of Radio 1dreation Finder Station, P. Kozulin, to simp4fy the procedure of getting the bearing from the station. The improvement Involves an addition of an audio-frequency generator and a microphone amplifier to the,ground transmitter. The addition makes it possible to cut the time of getting a bearing down to 20-30 seconds. The article is accompanied by the wiring diagram of the device. AVAILABLE: Library of Congress Card 1/1