SCIENTIFIC ABSTRACT POPOV, YE.P. - POPOV, YU.A.

BANNIKOV, Yu,l.p kand.tekhn.nauk; -FMV. -Ye,.F.,, inzh. Drying of an CMS trana,'cr=sr us-4%9 S-'n,vle-Phase current. Zbergetik s t 6j" 1 noo906-38 0 % Ica --,? I 10)  ro r-Ovy ye"F. - - -It-- ; I I J n. :-, . 4 -t - ' ~ ' ~ * r: f: e:,, Irr , i2 " I , , , ge 0 f - i All~omatLcc - , "'V -)L * 3 ~,  POPOV# Ya.P.,, inzh.; PYASTOLOV, A.A., kand. teklm. nauk Dr7ing of transformers with aluminum windings. Elek. sta. 35 no.2:56-60 F 164. (MIRA 17:6)  ACCESSION NR: AT4017769 S/3037/63/003/000/0376/0397 I - AUTHOR: Popov, Ye. P. MM) TITLE: Approximate methods for the study of nonlinear oscillations In automatic control systems SOURCE: International Symposium on Nonlinear Oscillations. Kiev, 1961. Prilozhenlya metodlov teorii nelineyny*kh kolebaniy k zadacham fiziki i tekhniki (Applying methods of the theory of nonlinear oscillations in problems of physics and technologyi~ trudy* 6impoziuma, v. 3. Kiev, Izd-vo AN UkrSSR, 1963, 376-397 TOPIC TAGS: automation, control system, automatic control system, feedback, no*n- linear oscillation, control system oscillation, harmonic balance method ABSTRACT: By automatic systems, the author means dynamic systems of any physical nature, containing at least one closed-16op circuit for the passage of signals, and the dynamics of which are described by means of anqrdinary differential equation of arbitrary order containing nodinearity of the type y = F(X, yx), where p _!L Unlike the usual substitution (for the small-parameter method): dt y F(Ic. P4 ke + IC20K + 14f(K. JPK). CWd 2A ACCESSION.M: AT4027769 where S& Is a small parameter, the auther uses tho OWWWWon Y - F(X' FOCIL. FC1) + where xj = Al Sin YL lt to the first harmonic of the unknown periodic solution x xj + ,Lz(t). and cis asmall parameter. A complete solution comprising all the harmonics is considered. This leads to approximate equations for the first harmonic (not a small one). and each of the higher harmonics which are small with respect to the variable x and not small with respect to the variable y. This is a generalization of the harmonic lineariza- tion method or the harmonic balance method. The solution to found to be true, provided a certain mathematical condition is satisfied, coinciding with the well known physical postulate regarding the filter property of the linear part of the system. Apart from these approximate forms for the first and higher harmonics of the periodic solution, the method can be made to apply to the study of slow processes in oscillatory systems, this being of considerable practical importance. - A special method Is proposed for splitting en the L30 system equation into two equations, the nonlinear interrelation betwe ir solu- tions being retained. System oscillations superimposed on a slowly-changing component may bo 6ther self-oscillating or induced (forced). A similar approach may also be used w.-en ana;vzing random processes in automatic systems. During the question and ans- Wer parioii that followed the reading of the report, the author made It clear that the Card._2j~__  FOJW, Ye.P. Nonliwer laws ck control in automatic control. Isy. All SSSR. Otd. takh. nauk. Emrg. i avtom. no,5:49-58 S-0 162. (MIRA 15:11) (Automatic control)  POPOV, Yevgeniy Pavlovich; SOBOLEV, O.K., red.; BRUDNO, K.F., tekhn.red. [Automatic regulation and control]Avtomatichookoe reguliroyanie i upravlen~~r-FGskva, Fizmatgiz, 1962. 388 P. (MIRA 16:3) (ALutomatic control) A  POPOV, Ye. P. The dynamics of automatic control systems. Reading, Mass., Addison-Wesley; London, Pergamon Press., 1962. xiii, 761 p. diagrs. (ADIWES International series in the engineering sciences) Mranslation of the original Russian: Dinamika sistem avtomaticheskogo Reguliravaniyay Moscow, 19567 "References": P. 759-761.  6. /L-/ 6- /V 1~ Popmr, Ye. P.; !,0SFUT07, 'TSUPWI, ". "On Self-Adjlisting Control Systems Wit~ioljt 9parching Tentative Action." Paper to be presented at the IFAC Congress; to be held in Basel, Swit;erland, 27 Aug to 4 Sep 63  POPOV, Te.P.; FIDOTENKO, N.M. 11mulAifier umed for preparing emulsions. Rate. i izobr. predl. v Btroi. no.5:26-27 158. (MIRA 11:6) I.Trest Mosotdolstroy No,2 Glavmoestroya, Moskva, Mothayakoys, shosses d. 28/34. (2mlsions)  L 23852-65 FdT(Q _ ACCESSION NR: AR4046321 S/0044/641000/008/VO381VO38 SOURCE: Ref. zh. Matematika, Abs. 8V270 AUTHOR: Popov, Ye. P. TITLE: Approximation methods of examining non-linear vibrations in automatic systems CITED SOURCE: Tr. Mezhdunar. simpoziuma po nelineyn. kolebaniyam, 1961. T. 3. Kiyev, AN USSR, 1963, 376-396 TOPIC TAGS: non linear vibration, automatic system, approximation method, harmonic linearization, slowly changing process, divergent vibrational process, decaying vibrational process TRANSLATION: The principal bases of the method of harmonic linearization are developed. Relation and differences of the given method from the small parame- ter method and the method of harmonic balance are examined. The approximative means of discovering the periodic solutions is shown; the possibility of finding cara 1/ 2  L 23852-65 ACCESSION NR: A.R4046321 riot only first but also higher harmonics is explained. The method of harmonic linearization may be applied to finding the region of stability, detecting slowly changing processes in systems of automatic regulations, and studying decaying as well as divergent vibrational transitional processes. E. Barbashin SUB CODE: MA ENCL.: 00 -card  NOLTUROT, I.N.; SINTAGIVSKIT. K.L.; CHERNOV, P.P.: POPOV. re.se; *-~- ~-- --.11 Fros readers's letters. Good. i kart. so-1:76-78 J& 157- (MLRA 10:3) 1. Fachallnik otryada No. 67 "ro-geodesichookoge predpriyatlyn (for Koltunev) 2. lachal'alk otryad& 10. 70 aero-geodetichoskogo pr~,- priyatiya. (for SinyagivskiY) 3. Zamestitell nachallnika otorrads. (for Chernov). 4. Inspektor Otdela tokhmichaskoge kontrolya (for Popov) (Topographical surveying)  KOWEV, N.I.; KAPICHEV, A.G.; KITAYEV, B.I.; SENEIENK0, P.P.; AIZKSAIIDAUV, S.F.; Use of compressed air for the acceleration of ther4al processes in open-hearth furnaces. Trudy Inst. met. i obog. AN Kazakh. SSR 5:149-154 162. (~MU 15:11) 1. Urallskiy politekhnicheskiy institut, j Metallurgicheskiy kombinat im. A.K. Serove. (Open-hearth furnaces) (Heat--Transmission)  %TF, 5 p Pv-oll F as roo- ,P4 p -lie a 165 open-, 10 and cjy-yg.~~n inme. - Mp- 4 18 4)  Po Po V,I'e. S - 25(2); 180) PHASE I BOOK EXPLOITATION SOV/1573 Kokarev, Mikolay Ivanovich, Petr Pimenovich Semenenko, Nikolay Georgiyevich Kamkin, and Yevgeniy Stepanovlch Popov Uluchsheniye konstruktsiy I ekspluatatsil martenovskikh chey s osnovnymi svodamI (Improvements In Design and Operation of Open- hearth Furnaces With Basic Roofs) Sverdlovsk, Metallurgizdat, 1958. 55 P. 3,000 copies printed. Ed.: S.D. Fedorov; Ed. of Publishing House: B.E. Berman; Tech. Ed.: Ye.M. Zef. PURPOSE: The book is intended for foremen In.open-hearth furnace shops and may be of use to production engineers and for students of vuzes and tekhnikums. COVERAGE: In this book the author examines the problems of improving the design of open hearth furnaces with magnesiochromite basic roof linings. It has been established that open-hearth furnaces Card 1/ 3  STOROZHEV, Mikhail Vasillyevich; POPOV, Yevgeniy Aleksandrovich; VASILIYEV, D.I., kard.--:Ee'khn-.'niidk --d1ot!i.31",t- ~ t; 2 re senzen , KORNEYEV, V.A., red.; GOROKHOVA, S.S., tekhn.red. (Theory of metalworking by pressure] Teoriia obrabotki me- tallov davleniem. Izd.2., perer. Moskva, Vysshaia shkola, 1963. 388 p. (MIRA 17:2)  KOKAREV, Nikolay Ivanovich-, SHMIENKO, Pstr PiMenovich; KAIAKIII. Njkolay Georgiyaricb; POPOV, Yevgeniy St.53anovich; YNDOHOT, S.D., red.: MR-MAN. V.z., red. [Improving the design and operation of open-hearth furnaces with basic crowns] Ulnchshenie konstruktaii 1. ekspluatataii martenov- skikh pechei a onnavoyni avodami. Sverdlovsk, Goa.nauchno-tekhn. izd-vo lit-r7 po chernot i tavetwi metallurgii. Sverdlovskoe otd-nie, 1958. 55 P. 04IRA 11:12) (Open-hearth furnaces) (Refractory materials)  I - POPOV, Ye.la.; TIGIROV., I.M. Refining of low-grade cow hides for footwear uppers. Koz.b.-obuv. prom. 3 no-4:33-34 Ap 161. (MIRA 14:5) 1. Glavnyy inzhpner Kurskogo kczhevennogo zavoda imeni Seregina (for Popov). 2. Nachallnik tekhnicheskogo otdela Kurskogo kozhevennogo zavoda imeni Seregina (for Tagirov). (Leather)  POPOV,Ye.Ya.,; MILYKH,A.A. Salt treatment of cows' hides. Leg.prom. 15 no.4:34-37 Ap 155. (MLRA 8:7) 1. Glavuyi inihener Kurskogo kozhavennogo zavoda, imeni Seregina. 2. Nachallnik khimicheskoy laboratorii Kurskogo kozhevennogo za- voda, iment Seregina. (Hides and skins)  -7, 020111, Ilikolay ?etr,:-w: kan ',;Fit tqkjjajchas~dkh aauk; Z~i.-,MUUOV, Petr Prukhorovich. te.c,,,nIe-heakIkh nauk-. tTORU1,h:,V, :~.IiKhail Vasil 'yev it.;-, tak---nicheskikh nauk; POPOV. lrov,:dd-v Alaksan- "IT =ovich. im.-itiaat ro,"' r ~-'. IJAA -i-nutcli,, "ch, 11-circidat nauk-, L~*,,)cn:)v:ch, kandidet --U5.t takhrxictbesk~kh naulk; -?U :'UV, V*,kt:;r ALI ek-Gand x3uk. Rrj,-AjtA,-,A~v I.,r,- rk,aalrto~-, UVALituvi, ta*,-.,~~-,.,!,-.!~.C-:Y mdaktor. MODZIII. 3.1., redaktor ~.Technolcci of metallov. ?od ri,-... ii.P.Lubtriine. Izi. 11-e. Moccric, Ut-ry, 1957. 56-1 10: 10 (Metals) 1w Ork-)  POPOV, Ye.Ya.,inzh. the quality of chrome-tanned Dig lenther used for footweRr. Leg.prom. 18 no.4:47-49 Ap 158. (KIRA 11:4) (Shoe manufacture)  pr - 71 a Socla'li~,t trans-r 7on o, L 1952. ,j .  1~ F - ~ - -- L, -f - t / I POkV, Yu., inzhener. Automatic tugboat hook. Mor.flot 17 ne.8:23-24 Ag '57. (MIRA 10:10) l.Loningradakiy port. (Tugboats)  lic,  POPOV, Yu.; KAPITSKIYr R.; GOLDTA, D.; UVAROV, V.; KHAISp A.; ZHUKOV, A., Ms'h.-geolog; ABUSHAYEV9 I. (KkUh-ingrad)- Our readers'- letters. NTO 3 no.3:57 Mr ~61.. (MIRA 14:3) 1. Nachallnik proizvodst-venno-tekhnicheskogg otdela i chlen soveta nauchno-tekhnicheskogo obshchestva tresta OPechorlesosplay*q g. Pechora (for Popw)~.-Iw Zamestitell predsedatelya Rostovskogo obshchestva, g. Rostov-na-Donu (for Kapitskiy). 3. Uchenyy sekret---.r,' soveta nauchno-tekhnicheskogo obshchestva Krasnodarskoy geologicheskoy ekspeditsii (for Golota). Z.' Zamestit6lf dii-ektora Gorodenkovskogo kh1eb:o;5riyemnogo punkta g,, Gorodenkop Stanisliyskoy oblasti (for Uvar - 5. Chlen Zapadno-Sibirskogo pravleniya nauchno-tekJlnicheskogo obshchestva gornoye, st. Izhmorskaya, Kewerovikoy oblasti (for Zhukov). (TeQhnology--.Information services)  TSAREV. V., inzh. (Astrakhan'); NIKOLISKIY, V~;,POPO starsh-iy jo master; ARKHIPOV, I., malyar (g.'Cheboksary); PIORRIN, F. (g. Riysk); PLAVIN, B.*,-.,, mekhanik; LDGLTIOV, B. - ~p Advertising board. Izobr.i rats. no.2:32-33 F 162. (IMIL 153) 1. Rostovskiy-na-Donu kotelinc.-mekhanicheskiy zavod (for Popov). (Technological innovations)  POPOV, Yu. ,W, 1-710~ --. - - ;jt4r" -- 1~1 41 Making accumulator separators. Avt.transp. 35 no.11:30 N '57. (MIRA 10:12) (Storage batteries)  0 22(3) SO'1/175-58-6-24/41 AUTHOR: Popov, Yu., Senior Lieutenant TITLE: How We Service Tank Armament Under Field Condit--ions PERIODICAL: Tankist, 1958, Nr 6, Pp 35-3? (USSR) ABSTRACT: The author refers to the common opinion concerning tank armament and its servicing under field con- ditions: "The present differs from the past; every- thing is simplified and armament is much more re- liable". But in spite of the high degree of tech- nical progress the need for proper maintenance is still valid. Adequate oiling of the working parts of the weapons is most important. The use of an lubricating oil ( AU -Artilleriyskoye Upravleniye- Directorate of Artillery) is recommended. If a cartridge case jams in the barrel, it is clear that the stoppage is caused by dirt in the chamber. The latter, during firing, must be repeatedly cleaned. Card 1/3 Serial numbers of all parts belonging to a machine  SOV/1?5-58-6-24/41 How Vie Service Tank Armament Under Field Conditions gun must be collated to avoid wrong assembly and stoppages. The sighting mechanisms must be very carefully checked. The checking distance employed must be approximately equal to the calculated fire exercise range. But prior to combat activity, the checking distance must be 6,000 to 8,000 m. When preparing a machine gun for either exercise or com- bat fire, the use of heavy bullets is recommended, as they have more stable ballistic properties. It is also important to use the cartridges in batches in order to avoid abnormal dispersion. It is re- commended to have a field kit at hand containing the necessary tools and outfit, The latter must include the metal cross reticles, an angle pointer and targets (Figure 1). It has become usual prac- tice to clean the gun barrels with Diesel oil, though the instructions prescribe kerosene. The latter must Card 2/3 be used, and containers for it must be prepared in  BRAGINA, F., kand. okon.muk; POPOV. Yu., agronom-ekonomist. BxperiewA in shelterbelt afforefftation, Faulcm t pored. op. v sellkhoz. 8 no.6:20-21 Je 158. ' (KMA 1196) etc.' (Windbreaks, ahelterbalts,  FOFGVq YU0 Talents develop in the collective. F 163. (Amateur art activities) Sov-ProfsoiuzY 19 no.4-.16-17 (MIRA 16z2)  PUKMCHEV, YU.: POPOV, Yu. Today's air fleet; interview with B.M.Lvteev. IUn.tekh.7 no.2:3-4 F 163. (WRA 16:4) (Aeronautics,, Commercial)  POPOVY Yu. "A mathematician's miscellany" by John Edensor Littlewood. Reviewed 1 - 37 no.8s47 Ag 162* :5) .by IU.Popov. Znan.-sila (MM 16 (MathematIes-Curiosa. and miscellany) (Littlewood, John Edensor)  1( SO-1/84-59-9-41/66 AUTHOR: Popov, Yu., Engineer TITLE: How to Eliminate the "Ground Resonance" in a Helicopter? PER10DICAL: Grazhdanskaya aviatsiya, 1959, Nr 9, pp 25-26 (USSR) ABSTRACT: This article is a summary of experiences acquired by an unidentified sub-unit in handling the Ka-15 helicopters, which, according to the author, are also usable in handlin- the Ka-18 helicopters. The author enumerates a number of ways and methods of elimination of the so- called ground resonance, which is a state of violent vibrations developing sometimes in the Ka-15 helicop- ters in the course of a ground engine trial run. The ground resonance arises when the frequency of vibra- tions within the rotor system, which depend upon the number of revolutions, coincides with the frequency of vibrations developing in the whole helicopter structure, which depend mainly upon the specific properties of Card l/ 3 the shock-absorbing system. The preventive measures I  SOV/84-50-9-41/66 Hov-, to Eliminate the "Ground Resonance" in a Helico-Dter? against ground resonance are based on precluding the above-mentioned vibration frequencies from coinciding. They include the right choice of the mooring ropes and their proper application, lowering the pressure in the front wheels, softeninp .~ the shock-absorbers in the landing gear struts, proper regulation of the ro- tors, placement of the helicopter up-wind and far en- ough from another helicopter undergoing ground trial CD C) run. The ground resonance does not set.in all of a sudden, but is usually preceded by an indication: the helicopter starts an irregular " tap-dancing", in a way harder and more violent than the usual soft os- cillatory movements characteristic for every ground trial run. The article contains a series of advices on what to do at the appearance of such an indication, what to do once a ground resonance has already developed, how to operate the Ka-15 helicopter airborne testing Card 2/3 while held back by the mooring ropes, and how to lands/  -JOV/84-59-9-L~1/66 How to Eliminate the "Ground Resonance" in a Helicopter? it from that position. Card 3/3  1( SOV/84-59-9-41/66 AUTHOR: Engine e r Pop0vj TITLE: How to Eliminate the "Ground Resonance" in a Helicopter? PERIODICAL: Grazhdanskaya aviatsiya, 1959, Nr 9, pp 25-26 (USSR) ABSTRACT: This article is a simmary of experiences acquired by an unidentified sub-uait in handling the Ka-15 helicopters, which, according to the author, are also usable in handling the Ka-18 helicopters. The author enumerates a number of aays and methods of elimination of the so- called ground resonance, which is a state of violent vibrations developing sometimes in the Ka-15 helicop- ters in the course of a ground engine trial run. The ground resonance arises when the frequency of vibra- tions vithin the rotor system, which depend upon the number of revolutions, coincides with the frequency of vibrations developing in the whole helicopter structure, which depend mainly upon the specific properties of Card l/ 3 the-shock-aboorbing system. The preventive measures ~1~  SOV84-59-9-41/66 How to Eliminate the "Ground Resonance" in a Helicopter? against -round resonance are based on precluding the 0 0 above-mentioned vibration frequencies from coincidi-. They include the right choice of the mooring ., ropes and their proper application, lowering the pressure in the front wheels, softening the shock-absorbers in the landing gear struts, proper regulation of the ro- tors, placement of the helicopter up-wind and far en- ough from another helicopter undergoing -round trial run. The ground resonance does not set.in all of a sudden, but is usually preceded by an indication: the helicopter starts an irregular " tap-dancinZl', in a vay harder and more violent than the usual soft os- cillatory movements characteristic for every ground trial run. The article contains a series of advices on what to do at the appearance of such an indication, what to do once a ground resonance has already developed, how to operate the Ka-15 helicopter airborne testing Card 2/3 while held back by the moorin.- ropes, and how to land V  SOV84-59_9_L~1/66 How to 131iminate the "Ground Resonance" in a Helicopter? Card 3/3 it from that position. Abs jour : Ref Zhur - Biol., ITO 1, 1-958, 4078 Author : Yu. Popov Inst Title : on the 14echanism of the Effect of Beer on Gastric Secretion. orig Pu7o : Vopr. pitaniYa, 1956, 15, No 5, 69-70 Abstract The introduction of 250 ml of beer extract (withovu al- cohol or C02) through a probe into the stocach of 10 patients (4 - without any gastric disease; 3 with an ulcer; and 3 with a chronic gastritis) markedly incre- aded the secretion of gastric juice as well as its aci- dity and digestive capacity. The effect on Gastric se- cretion of this extract proved to be stronger than that 'fein or cabbage. In a patient with a of alcohol, caL fistula of the digestive tract, "sham-drinking" of 200- 300 ml of beer increased the gastric secretion more Card 1/2  POPOV I YU. Developing man's inner beauty. Sov. profsoiuzy no.17:42-43 S 161, (MIM 14:8) 1. Spetskorrespondent zhurnala "Sovetskiye profsoyuzy"., g. Bamaul. . (Barnaul-A,millary police)  POPOV, Yu. Peaceful coexistance and the class st-ruggle. F 161. n-j.4:1,"-24 (Russia-FoReign relations) (World politics) Kom-r..Voaruzh.Sil I li.:P-)  POPOV, Yu., kand.ekon.nauk roductivi-67 of tractors. Tekh. v Possibilities for Increasing the p &I sellkhoz. 20 no.6.,46-5o je 16o. (KM 13:10) (Tractors)  POPQVI Yu. d2--,!~- -- - Close cooperation of socialist countries. Ko=.Vooruzh.Si-l 2 no 2:10-18 Ja '62. Oulu 15: 3) (iiu6sia--Foreign economic relations--Communist countries) (Gommunist count~ies--Foreign economic relations--Russia)  ; P-C ~~ 0 kl*" UJ,SR/Nuclear Physics C-7 Abs Jour Ref Zhur - Fizika, No 5, 1957, li266 Author Popov, Yu-A- In5t Moscow State University Title Solution of the Fundamental Diffusion Equation for Cosmic Ray Particles from a Constant-Energy Concentrated Pulsed Source. Orig Pub : Zh. eksperim. i teor. fiziki, 1956, 31, No 1, 80-85 Abstract : The flundamental diffusion equation, derived by Ya.P. Terletskiy (Referat Zhur Fizika, 1956, 12848), is solved for cosmic ray protons emitted in magnetized interstellar medium during a short period of time from a concentrated source of specified energy. It is shown that allowance for the particles that remain after the collision between the cosmic ray protons and the protons of the interstellar Card 1/2  MSSR/Nuclear Physics Ms Jour : Ref Zhur - Fizika, No 5, 1957, 11266 C-7 gas leads to a power spectrum, simular to the experimen- ta-Uy-observed one, if one assumes the Drima y source to be a superno a which appeared at the center of the galaxy more than 109 years ago. Card 2/2  -PY ~U A, S I I )LUTION OF ft(.' FUxDA3,IF.Wr',l- IFFUSIL-t-i FQUA- TP,N F~-,'Ft t- A.~Y PAHTIC',P~ -'M:I'rF[) BY k C. r krf A(, Y ~NCFN-Tli x 1 FI) PIT ls~ 1) AAWV A 4. for cM-,nlC. f3y Pfl-4 I-MIUM1 M MAKn~U ZvO pace during a aAort period at tini, by a concerarated ource A Kicn eneriLy Is Solvtil Ift Is shoo LhAl COMLdvr'a : tien of the particles which remain mftrc colusion Qf Cosmic ray prmans with protons of the jMcrVe',Iar gas lc2,ds to a power spectrum similar to that observed expertmentaLy, it the source in arsurned to be a supernova which appeared in the center of the plaxy over fOj years ago. (UQI  :ACCESSION NRs AT3012132 S/2967/63/000/000/0157/0164 AUTHORS s Khetagurov, Ya. A.; Popov, Yu. A..j Lyubentsovi V- K- TITLEt Matrix multiplication machino SOURCE: Voprosy-* vy-*chislitellnoy matematiki i vy*chialitellnoy-tekhniki. Moscow, 1963P 157-164 TOPIC TAGS% datrix multiplication, calculating machine, multiplicand, Partial produotp summator, diode, pulse circuit, Bynohronizer, diode trannformer TT6 !ABSTRACT: Several different machines operating as matrix instruments for high- Ispeed multiplication have been considered. Such a machine should contain m series with m + 1 summators in each. On each series with output summator of preceding ,series, the preceding partial product sum is transmitted and shifted into a corre- japonding multiplicand form. The multiplicand is added to this partial product sum ,only if the corresponding digit in the multiplier is "I". An improved signal transfer schema is proposed, with signals transmitted from one series to another. iFor an m-digit numbor multiplication, this is shown to require m-1 all tor series; !for two digit multiplication m/2-1 m, tor series.are required. A two 13-digit )multiplication scheme used at Moskovskiy inzhanorno-fizioboakiy institut (Mosco-a Cord 1/3  C ON--NR: AT' 012'1'32 A CMSI 3 i 'Engineering Physice'lastitute) is described. This scheme calls for 670 summatorse IThe circuit of this functional summstor composed of diode-transformer (1r6) pulse joircuits is disowned. The work is synchronized by VAlse feed summator "un" knee Tig. 1 on the Enclosure)* The working speed of the calculator for a 13-&igit !number multiplication is 60-70'thousand multiplications per second. Orig., art, jhas9 7 figures. ASSOCIATIONs none ENCLs 01 1 00 DATE ACqt 220ot63 lio MW SOIIS OW M CODRS DP 000 2/3 Lc~~ Card 3/3  L,z5744-65. 9WT(d)/EWP(1)/W)-2 Po-4/Pq-4/Pg-4/Pk-h W(e) BE/Go ACCESSION NR: AP50CIZO87 S/0146/641OG7/006/0048/0053 ~3 ..AUTHOR: - 1%29~, Yu. A,; Surnarokov, L. N.; Khetagurov, Ya. A. TITLE: Matrix methods of speeding-ug arithmetical overattofts in a digital computer -1964 - 48-53 SOURCE: IVUZ. -Priborostroyerayer V. 7$ no** 6* 0 T&C~s _4gital c mputer, arithmetical operation numbertof digits m of the cofactarx. The first method - a modification of the carry- #orage method - includes a "complete" matrix of mil functional adders., In praq-9ce, the amount of aquipment required can be considerably cut by (a) elirliAnating the adders that receive only one signal and the adders that correspond to lower-order m-k digits of the Zm-digit product (k being the number Card 1/ 2 f.  1A 25744-65 ACCEMON NR.* APSOOZO87 of buffer digits required to round off the productj and (b) using improved I Ial circuits. This method also permits the summation of numbers. The sec method - a modification of the first - is based on conversion of the multirow product code into a two-row code, and then - by means of a parallel adder -into a single-row code. Fornralas for determining the amount of equipment are supplied. Orig. art. has., 3 figures and IS formulas. ASSOCIATION: Moskovskiy inshenerno-fixicheakiy institut (Moscow Engineering -and Physics Institute) SUBMITTED: IOMar64 ENCL: 00 SUB CODE: DF NO REF SOV: 003 OTHER: 000 Card  Low Bulk Dwaity. P~!- OV. )9641% (b), 40"17). '%~~acx'mmt W 'Pron of exparunce At Xdt&jfurgwjLi Worka an a.0 JR&LUM 4 loan, lo-V buIkdc-.mity. -iust~ urm (M t-aw qrxetx~ tho ~olxLirw 4tits burden exr-d"d Chat o( the anio, idwllng t'~ acamelerable rodlstr, bUt4,)n of niskielimis at the stockline ad calwenUaLlUn Of filWa at the WrICM 40 OXVG~ Or 0" at the, coa6s" misuJixill sit p- jpharal &sr~mg, a cundizkos whirb o,)ulA aoL be rurr~ot~t, ar~4 the, ut-on working isrilamei ~ffoki gm*%h C,-ntrol froin tt.. top w" hinit-i t, ~.rmg mi adpq"t* porij,heml 11-Y .4 ic"~ The lowcat teropermtu~ We" "o4nrvad m the otitrs.' part of th-) swiL, but tn. o-tl~ arkwi oorm&ljy Thr u*5 ---f ho orim w" le"t djoadvan, tWOVA when mAkW ' U*t[ACOn It ~ff thAt b0t1kr h.'. 1Z r1bt-mir'-wi in is lower eurna~- Kith awk Dattor a- x  133-1-3/24 AUTHORS: Popov, Yu.A., Umrikhin, K.G., Shaposhnikov, A.K., Engineers. TITIZ: A Rational Charging Equipment for a Blast Furnace (Ratsion- allnoye zasypnoye ustroystvo domennoy pechi) PERIODICAL: Stall, 1958, No.1, pp. 7 - 14 (USSR) ABSTRACT: A description of the design and operation of a new charging equipment-, is given. The distribution of burden materials, in the blast furnace throat and the possibilities of controlling this distribution with the charging equipment in use at present is outlined. The distribution of materials in a model and an o7oerating blast furnace is shown in Figs. 2 and 3, respectively. It is pointed out that at present the success in controlling this distribution depends to a hrge extent on the qualifications of the operating personnel andthe available equipment, the influence of the individual controlling para- meters (size of coke and ore charge, system of charging, stock level and the seauence of rotation of the distributor) on the distribution of materials in the throat is not certain. This uncertainty is caused by the following factors: non-uniformity of raw materials in the chemical and size composition, the influence of the gas stream on the distribution of materials during their fall from the large bell. The design of charging Uardl/3 equipment proposed by the authors (Fig.4) can secure the  133-1-7/24 AUTHORS: Kolosov, M.I., Engineer, Morozov, A.N., Doctor of Technical Sciences, Strogan v, A.I., Candidate of Technical Sciences, Pol3ov, Yu.A., Engineer, Vaynshteyn, O.Ya-,and Keys, N.V. TITIB: The Quality of Steel from Pig Iron Produced with a Constant Moisture Blast (Kachestvo stali iz chuguna, vyplavlennogo na dutlye postoyann y vlazhnosti) PERIODICAL: Stall, 1958, No.1, pp. 24 - 27 (USSR). ABSTRACT: The influence of moisture content of b1mt on the hydrogen content in pig iron and the influence of hydrogen content of pig iron on the hydrogen content of steel as well as flake sensitivity of steel on the hydrogen content in the liquid metal were investigated. Nos. I and 3 blast furnaces on the above works were trans4erred to operation with a constant moisture blast (15-20 g/m'). This resulted ia the smoother operation, highgr blast temperatures 750 - 800 C (against previous 450 - 500 'C), increase in output (No.1 - 3%; No.3 1.3%) and a decrease in the coke rate (No.1 - 6.5%; No.3 1.3%). As the works produce quality steel it was considered -necessary to check the possible effect of higher moisture in blast on the steel quality. It was found that with increasing moisture content in blast, the hydrogen content of pig iron increases but not Oardl/3 proportionally. However, the mean content of hydrogen in the  133-1-?/24 The Quality of Steel from Pig Iron Produced with a Constant Moisture Blast ASSOCIATION: Chelyabinsk Metallurgical Works (Chelyabinskiy metallurgicheskiy zavod) AVAILABLE: Library of Uongress card 3/3  -- OSTROUKHOV, M.Ta.; KHOLZAKOV, V.I.: POPOV, Tu.A. Large capacity blast furnace '6t~6-ra--t-io-ns--.-Ke--t-a-'Ilurg 5 no. 12:4-9 D '60. (MIRA 13:11) 1. Chelyabinekly metallurgicheskiy zavod I Nauchno-iseledovateliskiT institut matematiki. (Blast furnaces)  POPOV, Yuriy Afrikanovic - OSTROUKHOV, N,.Ya., kand.tekhn. nauk, .p red.; KOLBICREV, V.I., tekhn. red. [Making high-siJicon cast iror.] Vyplavka vysokokremnistykh chugunov. Pod red.M.IA.Ostroukhava. Cheliabinsk, Che- liabinBkoe knizhnoe izd-vo, 1961. 106 p. (MIRA 15!7) 1. Chelyabinskiy metaUurgicheskiy zavod (for POPOV). (Cast iron--Motallurgy)  KOCHINEV, Ye.V.; STARSHTNOV2 B.N.; KOIUU , V.K.; POPOV, Yu.A. Blowing-in of blaqt furnacen of a capacity of 1719 m3. Metallurg 6 no.6:3-7 Je 161. Nil 14:5) 1. Gipromezp; Ukrainskiy institut metallov; Nizhne-Tagillskiy metallurgicheskiy kambinat i Chelyabinskiy m6tallurgicheskiy zavod. (Blast furnaces-Design and construction)  LUXID, P-G-; POPOV, Yu.A.; SHAPOSHNI~OV, A.K. Making blast furnace ferrooilicon. Yetallurg 8 n0,41&12 Ap 16~. (MIRA 16:3) (Ferros~licon,-Fetallurgy)  JVYATKIAP N.B., inzh.; LUKIN, F.G., inzh.; POPOV,_Yu.A., inzh.; NEKIPELOV, S.P., inzh.; SHAPOSHNIKOV, A.K., inzh., PROXHOROV, V.N., inzh. Making pig iron with an oxygen~-enriched blow. Stall 23 no./,:A03-296 Ap 163. (~!IRA 16:4) (Cast iron-Metallurgy) (Oxygen--Industrial applications)  KHOU"OVY V.I.; BRATCHEMO, V.P.; OSTROUKHCJV, M.Ya.; LUKIN, P.G.; NEKIPFJOV, S.F.; _P9P.Ovy,~,0A.; GAVRILYUK, L.Ya. Investigating the processes in the stack and hearth of a blast furnace dwing smelting with sinter of Bakal and Sokolovka-Sarbay ores. &tall 23 no..4:297-300 AP 163. (KLU 16 -.4) 1. Ghelyabinakiy nauchno-issledovatellsl#y institut metallurgii i Chelyabinokiy metallurgicheskiy zavod. (Blast furnaces)  VYATLKIN, N.P.; 1.,TKIPELOV, S.P.; JOE(LI,~ YU GAVRILYUK, L.Ya.; FOEITALIN, V.N.; IGTKIN2 G.P.; OS=,%GUKHOV, M.Ya. I Experience of five years of operating a 1,719m3 capacity furnace. Stall 24 no.11:964-968 N 164. (14IRA 18:1)  BOLDAREVO A.M. (Novosibirsk); POPOV, Yu.A. (Novosibirsk) Motion of a liquid near a free surfact under the act-Ion of a shook wave. Nauch.-tekh. probl. gor. I vzryva no.W14-116 f65. (MIRA 180)  STARSHINOV, B.N.; OSTROUKHOV, M.Ya.; KOCHINEV, Te.V.; Prinimali uchastiye: TARASOV, D.A.; SOROKA, F.F.; KARACHENTSEV, M.D.; OSIKIN, V.T.; KORUVp V.K.,- Popov, ru.A.; DOU4ATGV, V.A.; ATUKOV, A.S. Blowing-in of large blast furnaces. Sbor.trud. UNIIM no.11:27-32 165, (MIFLA l8t11)  POPOV, Yu.A.; PROKHOROV, Ye-N. . ~n ~`e'dz. Deformation of .--.etal - -- -L ":j!. ~ - - L If: -, Trudy I~EI -',3--3'. 165. ,- 4  Yu A. AIEKSEYEV, Yu.V. -*-1- - "Reaction zone" on the surface of a partially im--ersed electrode in a concentrated solution. Elektrokhimiia 1 no.4:422-426 Ap 165. (MIRA 18: 6) 1. Nauchno-issledovatel'skiy fiziko-khimicheskiy institut imeni Karpova, Moskva.  AMSEYEV, Yu.V.; P.OPOV,,Yu.A. Motion of a three-component gas mixture in a capillary adjoining the sur- face of electrochemical reaction. Elaktrokhimiia 1 no.6002-706 Je 165. (MIRA 18:7) 1. Fiziko-khimicheskiy institut imeni Karpova, Moskva.  KULKBAKIN, VIktojr Sergeyevich; ITAGORSKIY, Valentin Dmitriyovich- POPOV -hn.nauk, doteent, retspnzent; L Yu.A. imnd,tek ARIONOV --p-ro-f.. retsenzent; SIRM-EVICH, A.M.. doteent, Imnd.tekhn.nauk, red.; TUBTANSKAYA. F.G.. Wat. red.; ROZIIIII. V.P., tekhn.rod. Cglectric drives for airplane power unit's and mechanism$) Blektro- priyod samoletnykh agregatov i mokhanismov. Moskva, Gen. izd-vo obor.-Pronyahl.. 195a. 386 p. (MIRA 12:1) 1. Zaveau7ushchiy kafedroy aviatelonnogo ele)ctrooborudovaniya 14oakovskogo aviatsionnogo institute, imeni Ordzhonikidze (for Popov). 2. Chlen-korrespondent AN SSSR. Zaveduyushchiy kafedroy eleir-tro- oboradovanlya samoletov i avtomobiley Moskovskogo onargetichaskogo institute. (for Larionov). (Electric drive) (Airplanes--Electric equipment)  SOV/26-59-12-31/45 AUTHOR: Popov, Yu.A. (Irkutsk) -7777-7- TITLE: B-11 Lightning Discharge on the Fuselage of an Aircraft PERIODICAL: Priroda, 1959, Nr 12, pp 111-112 (USSR) ABSTRACT: The author refers to an article on a similar subject -which appeared in "Priroda" 1957, Nr 6, written by G.I. Kogan-Beletskiy, Candidate of Technical Sciences. The present article is an account of how the aircraft was struck*by a ball. of fire while flying throuCh a stormicloud. Some ri-vets on the fuse;age .riere melted and there was an arrar of Lip to 100 in the readinGs of the magnetic COMDass. There is I dis- gram. %Jard 1/1  GUTOVSKIY, Mikhail Vasillyevich; ANDREYEV, V.V.., kand.tekbn. nauk, dots., retsenzent; DEKATOV, V.11., kand.tekhn.nauk, dots., retsenzent; POEgV,Th-A-,--prof.., red.; GRIGOIMF, K.I., red.izd-va; INQVIK, A.Ta., tighd. red. [Manual forthe design of components and systems of aeronautical. electric equipment] Posobie po proektirovaniiu i raschetu elementov i sistem aviatsionnogo elektrooborudovaniia. Moskva, Gos.nsuchno-tekhn. .1. r izd-vo Oborongiz. No LElectric circuits for airplanes] Samoletnye elektroseti. Pod red. IU.A.Popova. 1961. 136 p. (MIRA 14:11) (Airplanes-Electric equJpment)  POPOVO Yu.A.; LOSKUTOV, Yu.M. Theory of unit-opin polarized particles. Izv.vys.uchebezav.; fiz. no,3:20-27 161. (HIRA 14:8) 1. Nbskovskiy gosuniversitet im. M.V.Lomanosova. (Nuclear spin)  S/188/61/000/002/005/010 Bil B203 AUTHORi. Popov, Yi;~.A. '0 TITLEz Polarization of spin-I particles.on elaotic scattering PERIODICALt Vestnik Moskovskogo universiteta. Seriya 3, fizika, astronomiya, no. 2, 1961, 26 - 33 TEXTt The polarization properties of free particle3 of spin 's are deter- mined by two quantities: the angle 6~ between the component3 of in the s i plane perpendicular to the momentum k, for which Eq. (6) cos. 2 1+82 I sin's holds, and the angle U between s and ~, for which 2 21 8 +S 2V Eq. (7) tan holds. The energy U of the elastic interaction of 3 particles with an immovable center is given by Eq. (8) U -~-V(r). To ob- Card 1/10  16 S/1 88/61 /000/002/005/010 Polarization of spin-1 ... B113/B203 1 tain a scalar U, the matrices 7,, must be properly chosent S_ rs. TI.LV NP6L is a tensor of the second rank, and the unit matrix is a scalar. Pseudovector and psoudoscalar are obtaincr-I from Eq. (16) and Eq. (17) Se - p4v- N T 1f 3 +P? St.Ay +rjv Sv IJ& . TekLp is an antisymmetrical tensor of the third rank. The components of the pseudo- vector A are determined from Eq. (18). A A, = T..-' P, (ISA) + POO,, A. - T.,. p. (iSj + p.p',,j A~ iS3).+ PIPIP2, A. T,. Card 2/10  S/18 61/000/002/005/010 Polarization of spin-I B113YB203 PaeudoBcalar P mutit vatitify the conditionti of Eq. (19) `- 4 SX1 Then, the pseudoscalar is formed as follow' ,Y,zIIX9yjz=P. 3: P147 P25- P36- 11 P41= P52- P63- -'- All the other matrix elements are zero. When considering the'behavior of the spin of bosons on elastic scattering, the author restricted himself to deal with.the scattering of longitudinally polarized particles, where the spin lay in the direction of the momentum ~ before scattering. He determined the angleW* between the spin s of the scattered particle and its new momentum ~. When considering the time component of the pseudovector interaction time A A 3 3 P2 and the spatial part of the vector interaction 13 3 space_ 'he V (!In , the component of 'he polarization vector 1~2=0 -as in all other interactions considered. Ther,3fore, the spin will always lie in the plane of the vectors and k . For tan ry-' and so Card 3/10  S/liea/61/000/002/005/010 ~' 1 JfB203 Polarization of spin-1 ... Eq.(21) tg + 'K (g0 2 2 AQ 2 - - n2 SinI 0 +.-LO (I + COS'O)" 2 2 JKI 4 ko + (n2 + nI) + sin, 01 J Cos is obtained, n being a three-dimensional unit vector, and 9 the angle be--*.- -A time tween the vectors k and k'. For S-type interactions and V oil Card 4/10  S/188/61/000/002/()05/010 Polarization of spin-1 B113/B203 Eq. (22) _L2 + , sin Cos + k; K2 sin' 0+- +Cos (j),+-, 0 - cos fj)'-, (22), 2 4 1($ 4 K2 tgm,=- 1+ tg fi, and Eq. (23) 4 JK' KI s; + cos'O) + sin 02 2 are obtained, respectively. In the non-relativistic case, both variants Card 5/10  2161o S/188/61/000/002/005/010 Polarization-of spin-1 ... 3113/3203 offer the same result: tan rA' tan Q. In nonrelativistic approximation, the spin maintains its original direction. When considering the pseudo- scalar interaction, Eq. (24) tg CL, + Ctg JK3 2 I k2 sin' 0 + 4 0) 2 K~ + I k0' (rj'2 ++ Cos 0)" + n.2 Cos fj) (24~ 2 is obtainedg where nx-nY-0, n z.1. In the case of 3mk type interaction,  Polarization of spin-1 C A.V.LU S/188/61/000/002/005/010 B113/B203 n2 1 _~ ko sin 0 + (n2 + n2 COS 0 2( 1