SCIENTIFIC ABSTRACT STRELKOV, S.A. - STRELKOV, YU.A.
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SCIENTIFIC ABSTRACT
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STREUZOV, P.A.
Two principles of geomorphological mapping and the selection
of one of them for naking general geomorphological maps.
Geol. i geofiz. no-5:73-79 16o. (MIRA 13:9)
1. Institut geolo.-41 i geofiziki Sibirskago otdeleniya All SSSR.
(Geologr, S true tural-Haps )
~, STRFJA'OV, S.
Review of G.S.Gorelik's book "Oscillations and waves; introluction
to acoustics Iradiophysicea2d optics)". Usp.fiz.naul- 72 no.l:
157-158 S 60 (MIU 13 - 8)
(Wave;
) (Vibration) (Gorelik, G.S.)
STRELKOV, S.A.
Using the method of gonetically,homogeneous surfaced for the
comFilation of small-scale geomorphological maps. Timdv NIIGA
114:180-184 160. (" 1301)
(Geology, Structural--Maps)
STRELK07, S.A.
Some regular features of the formation and distribution of
glacial deposits in the northern part of the U.S.S.R. Dokl.AN
SSSR 1" no.2:1+27-430 My 162. (MIRA 15:5)
1. Inatitut geologii i geofiziki Sibirskogo otdeleniya AN SSSR.
Predstavleno akademikom A.L.Yanshinym.
(Russia, Northern-Geology, Stratigraphic)
~A4PWV, Si.A.
Z,)aIng of the northern part of Woutern Sib-,ria according to the
morphology and Cenesis of the glx;1,!r rellef in connection with
the dynamics of the Zyryanka glaoiation. Dokl.AII 666R 145
no.)z642--645 -Tl 162. (I-MiA 15:7)
1. fnatitut Leologii i goofizlki Sibirskogo otdeleniya All 366H.
Predst,avleno akademikom A.L.Yanshinym.
C-4est Siberian Plain -Zeomorphology)
I
STHLKU~o ,
Genesis of marginal formiltions and the glacial relief In the
northeastern part of Western Siberia. Tnidy Kom. chetv. per.
21:118-125 163. (PIRA 16.10)
1. Institut geologii ~ geofizJki Sibirskogo otApleniyu AN SSSR.
STPELKOV, 3.1',.
zyry~-,nkr --: -n ",'~ -~,: :(~ :,-~1'.7;;' '- - -rjttr,
I ' ". 11 - - - 1 ;4 IN ri D . c,, -,
j -f ;.,) ! k ~; ..
Plateau. Truriy -,ns- ,, I -- - - . - , i't -* -
5, In ' 6,~ - (YIRA j-7,12)
Lp
relief in S i be 1'~ a4r-d the FNjL rEast] Seve-,, Sibil'i
-1 'r T,'okva,
0~, 13 0
-11 f --oibirl i Da -, o Vc- t ka.
'Ta-.Aa, iL 33) i,. 1,,?,A
S,gji, (f-)r Saks).
CIJ-=n-kor t
STRELKOV, !~.A.
Ring tectonic structures in-the northern part of the Siberian Plat-form.
Dol:1. AN SSSR 162 no.5:1142-114"* Je f65. (MIRA l8s7)
1. Institut geologii i geofiziki Sibirskogo otdeleniya AN SSSR.
Submitted March 5, 1965.
STRELTOV, S. A.
-~ ar - -- 0
"main stace-s of e-iolution of relief' of *.r--ti,-- E-urasia in -uat rn ~j --i d and
6
their correiation with those of North Am e r i c- a. "
rf~jurt submitted for tile 7th Intl Cong, Intl Azsc)--- for Qi.-aternary Resear2h,
Boi-dder ~-. Do-tiver, Colorado, 30 Au~,--,; Sep 6~5.
ral-1. -
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So: Veterinniriya; 23; -1,; A r:Ll 1~Lc': ~,Ilcl.
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FONGf-AREV, B.V.; STRELKOV, S.N.; STARGHAKOVA, I.I., red.
[Nanual for accounting in state cormercel Spravochnik
po bukhgalterskomu uchetu v gosudarstvernoi tcirgovle.
Izd.3., perer. Mosk-va, Ekonomika, 1964. 687 p.
(MIIRA 17:6)
STRELKOV, S.P.
Daawnatr%tion of the role of the axes of "free revolution"
of.a bode. Usp. fiz. nauk 81 no.4:763 D 163. (MIRA 17:1)
~:t! i-I ro~.y I llvJ ov i .,;I! rnl:'ov i ": I 1 1, "( A I
T-ian
rubleim; in INSI'C3 ("OLin'x zadl~ich V-)
7~b-,hciiemu !u 'izllki. Nauka. [I.cchanicss,
-icify
e t' -.n i 1 '2 1 1 c he.- t vo 1
31') P.
P us(. -11vat
on o
lu er.
,"USSR/Electricity 194..,-
Amplifiers, Linear
Distortion
*General Theory of Linear Am~.Iiflers, 1,W S. P,
6tralkov, Sci Res Inst of Phys, Lab of Oscillation,,
koacaw State U, 12 pp
"Artmat I Telameldan"Vol IX, No
Attempts to give approximate value of distortion by
i4ew methods. Consists of two parts. Part I gives
general condItions, Indicates basic methods of
analysis, and reaches qualitative conclusions. Sub-~":
nitted 20 Apr 1948.
7&15
!~A%T15
STREIKU, S. P.
Strelkov, C. F. - "Reproduction of a linear syster," Vestnik Yosk, un-t--, 194F,
No. 11, p. 61-68
SO: UIL3566p 15 I-'arch 53, (Letopis 'Zhurnal Inykh Statey, No. 13, 10,49)
STRELKOV, S. P.
I i0wr:
Ti U. 3 1Thr, crimpleto vorkE on 'he
po ob3bahcmu. kurau fiziki.)
City, Moscow
Fubllehor; Stats Printing House of 'TechnicsLI --nd ~,.Iheoreticel Litemtvire
Date. 1949
Lvallable. Library of Congress
Sourcel Monthly List of Russian Accaseions, Vol. 4, No. 1, V. 21
0 0 9 0
I V It 21 Is JS A A6 JI U 11 M ii I- V
il It 14 11 14 if
D it
4 A L~~*W
A I L IL 1 1, 1 -J IL L O
r
Q~,TIF-4.A-,Osl
wory of Linear Amplifiers (original test in
Husslaw. S. P. Stralkol; Automatics & Tele harkici; (USSR)
eT
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In order to evaluate the quality of reproduction obtained with
oo
2linear amplifier. it was necessary to introduce into the prob-
I z
. the relAIjVV error of relirtdurtitm. The mrM%j fier the
j determinAtiapaUerrors of reproduction to described. 4nd
junflions are ex
sim
lained fur the eval
ati
f U
u
on o
ir mAgni -
p
plS,
3 the relative error. The problem is concerned with the
ItteraiLtiation of the most favorable disposition cd neutrals and
plux3es of a complex coefficlest o(amplification on the surface
of a complex frequency system (or in Russ" terminology. a
complex spectrum of a reproduction system). The evaluation
taken place from two points of view: (1) from the point of b#it
reproductions obtained through forced motians (oacillatiom)
at the discharge cl the amplifier applied to the mouth of the Zoo
Amplifier of 17116CUnn; AM J21 from the point of view of drerras-
t L
_ I w 8. A3 0
U VI A* 7 Og a -t
0 0 0 0 0
moment of activating the reaction. The determination Of the
Accompanying natural oscillations according to given formulas
00 facilitates considerably the selection of the best dispoq1tilm of
00 individual points of the spectrum and the f(diminit roncluxitm
t
l
1
t
i
00 4P
n c
oor
he twu
r4
can be drawn. It is desired to arrange
the region where the poles are distributed. The eliminatlim 4
00
go otutrals from the region of the poles tacressea the amplitude
00 of Uw natural owillatlows. Each terminal from a pair of rum- 00
plax-coupled terminals should. it possible. be removed from 00
04 each other. A removed terminal (or pair of terminalsi pre -
00
90 sonts; no danger alien the number of neutrals is considerably
00 smaller than the number of terminals. The cloarness of two 00
(or several) terminals to each other does not present any 00
90 greater danger it they art located far from the imAllinsfy
00 2XIS 00
so 00
00
96
00
00
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0 0 0 0 0 0 a 0 a 0 0 0 IF 0 0 0 0 0
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PHASE II TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 458 11
BOOK Call No.: QA935-S765
Authort STRELKOV, ~i ~ ~'.
Full Title: INTRODUCTION TO THE THEORY OF OSCILLATION
Transliterated Title: Vvedeniye v teoriyu kolebaniy
PUBLISHING DATA
Originating Agency: None
Publishing House: State Publishing House of Technical and
Theoretical Literature
Date: 1950 No. pp.: 344 No. of copies: 10,000
Editorial Staff:
Others: Prof. K. F. Teodorchik and Prof. V. V. Migulin are thanked
for their valuable advice.
TEXT DATA
Coverage: This is a textbook on the general. theory of oscillation.
Taken under consideration are mechanical, electrical and electro-
mechanical oscillations with one, two and more degrees of freedom.
Diagrams and graphs.
Preface: The contents of this book correspond to a general course on
the theory of oscillation which was given by the author in the
Department of Physics of Moskva University in 1944-1949.
Introduction; Oscillations occur everywhere in the field of engineering
and physics at various occasions. The analy31S of these oscillations,
1/9
STRELKOVY S. P.
Vvedenie v teoriiu kolebanii. Dopushcheno v kachestve uchebnika
dlia vysshikh ucheb. zavedenii. Moskva, Gostekhizdat, 1950. 344 P*o
i1lus.
Bibliography: P. 340.
Title tr.: Introduction to the theory of oscillations. Approved
as a textbook for institutions of higher learning.
Reviewed by N. I. Esafov in Sovetskaia kniga, 1951, no. 2, P. 35-38.
TL71O.S9
SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of
Congress, 1955.
MIGULIN,V.V.; STRUKOV,S.P.; TIODORCHIK.K.F.
The work of Moscow University scholars in the fi~14 of physics
of vibrations and contemporary problems in the theory of vibration
Vest.Mosk. un. 10 no.45:125-132 Ap-* 155. NLRA 8:8
(Vibration)
STRELKOV, Sargay Pavlovich-, ALEKSEYEV, D.M.. redaktor; NBGRIMDVSKAYA, P.A..
tfikhnichmgkiy radaktor
[Gomeral course in physical Obahebti kurs fiziki. Moskva, Goo.
izd-vo takhniko-teoret. lit-rr. Tol.l. [Mechanics] Makhanika.
1956. 456 P. (MLRA 10:2)
(Mechanics)
SOV11 I Z-59 -1-1368
Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 1, p 188 (USSR)
AUTHOR: Strelkov, S. P. and Smyslov, V. 1.
TITLE: Electromechanical Model of a Flatter
PERIODICAL: V 9b.: Mezhvuz. konferentsiya po primeneniyu modelirovaniya v
elektrotek,b-nich. zadachakh i matem. modelirovaniya. M. , 1957, p 130
ABSTRACT: Bibliographic entry.
Card 1/1
1'-' '-~7)-JL~140
A`L'T1iUR,3-3'L-rel1-:ov S F and Yu,ov, V.A.
Ll,,,a--'jur,~ment of the Coefficient of Dry FrictiDn Durin-;
T1;--,,r.',ionic Oscillations (Izm,~-reniyc i-GsiYenta su:-'1lO.SO
treniya -Dri armonicheskikh kolebaniyL-~~h)
Pribory Tclduiika E-1-1speri--:1enta, 1~,,'5'7, Nr ;;-P,54-55
(USSR)
Ail aw-aratus is described which can be used to measure
U
the static coofficient of friction durin- the acti.-Dn of a
low frequency forcer (0 to 100 c/s). It is usually assum-ed
that the static coefficient of friction does not dei)end on
the nature of chan-es in the appli,~d force. It is now sui-,-,-
CD - L~ZD
ested that the limitinn:, value of tli~.- force of friction de-
Q.
o,Dnds on the nature and the sDeed of ohanL-,es in the applied
force, ExDerirtients were carried out in ;,-ffiich the limitinr,-
value of the frictional force was i:ioa,-,urcd with a sinus- Lj
oidal variatiDn in the applied force with the frequency of
0 to 100 c/s. The apparatus is sho-,:m dia-ro-matic ally in
The sDecimen is placed on a s.-nall table vi'hich exe-
f
c~~Ue3 sinusoidal oscillations in an I'loriz-ontal -;)le-ne. At
v-,%ry low amplitudes the specimen '-.1.ovos to;~3ethor with the
oscilla-in- table. As the am- _0
U I-) plitude increases beyond a
certain value the specimen moves relative to the table. At
-C LIS LU'(-,m,:~n L of the Coefficient of Dry lericbijr- Darin,--- lia.-onic
th-Ls -ioment the amplitude of the oscilIation is measured.
.oefficient of friction is then ;-iv(:!n by
11 c = aw21r7
w!iere ~tc is the static coefficient of friction, a is
the critical amplitude, w is the correspondinfl- frequency
U
and c, is tile acceleration due to gravity. Tile experimen,-
LD
u1 reSults shown in Fi-s.2 to 6 indicate that the static
0
coefficient of friction is a function of the fre~luency of
the a 11
pplied force. T'e coefficient of friction decreases
as tile frequency increases. Thero are 6 diar~ra:--,s, no tables,
an".. 6 ref-jronces, 5 Russian and 1 E-ic-lish.
A,~JjIA'OIJII: Depart-,'Ient of Physics of Moscow 6tate University imeni
j.'.V.Loiaonosov (Fizicheskiy fa~~:Ul'-et 7.GU i,,:i. 71.,.V.L .1
U ji-inosova)
jUB;-.IITT.L0- June 5, 19560,
AVAILABLE: Librarf of Con-ress.
1. Harmonic oscillators 2. Friction-Mea5urement-Analysis
STRNLKOV, S.P.
Applying Galerkin's method to self-oscillation problems. Vest.Mo9k.
un.Ser.matv,mekh.,astron.,f1z., khim. 12 no.3:51-55 '57.
(MIRA 11:3)
l.Kafedra kolebaniy Moskovskogo gosudaretvennogo univerniteta.
(Oscillations) (Mathematical physics)
(,6 ~ 1--,)4
SOW 14 1 -.1 6 - 2 8/ 2 8
AUTHORS: StrejXQy, ~. P. and Siltv, R A.
TITLE: Book Review
PERIODICAL: Izvestlya vysshikh uchebnykh zavedeniy, Radiofizika,
1958, Vol 1, Nr 5-6, pp 188 - 189 (USSR)
ABSTRACT: Review of the book by V.I. Kalinin and G.M. Gershteyn -
"Introdiietioft to Radiophysics". Gostelchizdat, 1957.
The book gives a short and systematic exposition of the
phenomena which take place during the reception, trans-
formation, transmission and generation of electromagnetic
vibrations. The book is intended for students who need an
introduction to radio. It is not suitable for universities
and schools of advanced technology, In spite of a number
of errors and misprints, it is suggested that the book
would be very useful and it is hoped that in the second
edition these errors will be rectified.
9(6), 10(6)
AUTHORSt Ordanovich, A.Ye.,and Stralkov,S.P. SOV/155-58-2-39/47
TITLE: Electronic Model of the r&e-d Bending Vibrations of an Airplane
Wing (Elektronnaya moddl' izgibno-krutillnykh koleb&niy kryla
samoleta)
PERIODICAL: Nauchnyye doklady vysshey shkoly. Fiziko-matematioheskiye nauki,
1958, Nr 2, pp 181-186 (USSR)
ABSTRACT: At first a long straight wing is understood as a clamped beam.
Then the latter is decomposed into eight cells arranged with
respect to the length of the beam which are replaced by mechanic
models. The coordinates of the eight shifts and the eight angles
of twist are combined one with another by a system of differential
equations. Then an electronic model is proposed which corresponds
to this system of equations. The model consists of 32 integrators
and 48 summators, the basic scheme contains 288 tubes. The
experimental examination of the model yielded relatively good
agreement of the obtained results with well-known data for the
first and second harmonic of wing vibrations (error 2-3%). For the
third harmonic the error amounted up to 14%.
There are 7 references, 3 of which are Soviet, 3 American, and
I English.
STRELKOV, S.P.; KHARLAMV, A.A.
Studying the flutter of a wing with an aileron. Nauch.dokl.
vys.shkoly; fiz.-mat.nauki no-3:116-125 159.
(MIU 13:6)
1. Moakovskiy gosudaretvemW universitat imeni MeVeLomonoeOvg,
(Airfoils)
'(4)
'AUTJIOR3: flomL~no7skiy, Y:iz
(Moscow)
TITL8: On the Influence
Ela3tic Wings at
11'., Strelkov, 3, 1. 30/179-5Q-4 1/40
j
of Atmospheric Turbulence on an Airplane
Different Flying Speeds
PiMODICAL: Izvestiya Akademii nauk 833R., Otdeleniye tekhnicheskikh nauk.
Mekhanika i mashinostroyeniye, 1959,,, Nr 4, PP 3 - 10 (USSR)
ABI-TRACT: The restrained vibrations of the elastic wing of an airplane
under the influence of turbulence in dependence on the fl~,ing
speed are investigated here. The investigation refers to air-
planes with straight wings wlth a high wing aspect ratio at
subsonic flying speed. Therefore., the computation of aerodynamit
loads is based on the unst~3ady theory of motion of a wing wit
infinite wing aspect ratio in a plane current (Ref 1). With some
reotrictions, the external fluctuation effect on the wing of the
airplane can be regarded as a stea4ily normal random process
lependint- on time (Ref 2). For this reason, and aa the entire
sy3tem is assumed to be linear, I~he motion of this syste= ~an be
Jescribed on the basis of t!,e correlaticn theory, The equatiovns
'Lrd 14 of the syntem Lre inve.,3t'lgated b.1 the method of Bubnov and
On the Influence of Atmospheric Turbulence on an 307/179-53-4-1/40
Airplane With Elastic *Nings at Different Flying Speeds
Galerkin and a systeu of equations (1~8 ') is obtainedi the
snlution of which in a general form is not possible due to its
extent. A program was set up to solve this system. By means
of this program, the values required were obtained on the digital
Plectron computer of the "Strela" type. The formulas for the
statistic characteristics of restrained wing vibrations (i. e.
the statistic characteristics of the bending and torsional
moments of the :;ing) are indicated. The method described per-
mit3 these characteristics to be obtained in a sJmple way. By
means of them, vibrations of different degrees of freedom can be
taken into account. An increase in the number of degrees of
freedom by one causes an increase in the order of magnitude of
the system of algebraic equtit-ions by two orders. The program
muit only be modified inconsiderably. Accordinaly, the time
required for the computation increases multiply, A comparison
of statistic vibration characteristics on the same airplane
model 3hOW3 that the wing torsion may not be neglected at suf-
ficiently low frequenci,,s of the wing torsion near the critical
Card 2/3 velociti~~n of the rlutter, and th-t the joint bending- and
On the Influence of Atmospheric Turbulence on an SOV/179-59-4-1/40
AirDlane With Elastic 'tYinCs at Different Flying Speeds
torsional vibrations of the wing mu3t absolutely be taken into
account in the computation. V. A. Druzhinina and V. B. Glasko
compiled the program, and made the computations on the "Strela"
COMputer. There are 7 figures, 2 tables, and 10 references,
of -,vhich are Soviet.
ASSOCIAT1011: Fiziche3kiy fakulltet MGU (Department of PhY3iCS Of MOSCOW
State University)
SUBIMITTED: January 8, 1959
Card 3/3
84471
S/103/60/021/010/002/010
01 zoo B012/B063
AUTHORS: Landa, P. S., Strelkov,_ S. P. (""oscow)
TITLE: Stability~of the Aileron Control System in the Presence of
T_ur_b_`=en Disturbances %
PERIODICAL: Avtomatika i telemekhanika, 1960, Vol. 21, No. 10,
PP- 1352-1364
TEXT: The wings of a flying airplane form a complex system of irregular
vibrations with distributed parameters. Even modern computers are not
able to solve the mathematical problem of wing stabilization. A commonly
used method of approximation is that described in Ref. 1, which was devis-
ed by Rayleigh and Ritts, and was further developed by Bubnov and Galerkin.
In this method, the wing and the aileron, which are in a steady flow of
air, are regarded as a vibrating system with two degrees of freedom,
in which some parameters depend on the flow velocity. In the present
paper, the authors investigate the vibrations and stability of such a
system strongly influenced by non-linear elements and statistical actions
which are caused by t-he turbulence of the atmosphere. The statistical
Card 1/,#
3
BU71
Stability of the Aileron Control System in S/103/60/021/010/002/010
the Presence of Turbulent Disturbances B012/BO63
estimate of the probability that such vibrations occur during a given
time interval is described next. Since the calculations are very extensive
and time-consuming inspite of all the approximations made here, -the authors
first determine the limits of the possible modes of operation by using
the method of simulation. Then, they calculate the amplitudes of the
limiting cycles and the excitation probabilities for the parameter values
obtained. By using the Bubnov-Galerkin method, they write down equations
(1) for the bending vibrations of a wing with an aileron fixed on one side
(see Fic. 1), and derive the basic equations (2) for these bending vibra-
LI
tionS. Then, they study the basic formulas for the bending vibrations
of a wing with a hydraulically controlled aileron. The principle of such
a control system is shown in Fig. 2 and explained. Formula (3) expresses
the vibrations occurring in the hydraulic system shown in Fig. 2. "Text,
the authors describe the determination of the stability range of an air-
plane wing for thE case in which there are no non-linear eloments in the
control system of the aileron.Rdsis done on an electric simul,~tor. The
measurement of the probability that the system is excited in tll~,Ie presence
of turbulent disturbances is described. Then, the authors Eive a theoreti-
cal calculation of the stability of airplane wirgs in the presence of
Card 21A
1
7
Stabili-.Y of the _.'aileron Control Syste= -in iD~ ~6~0/021/-~10//OD2/010
the Presence of Turbulent Disturbances 7012/B063
turbulent disturbances by using the Krylov - Bogolyubov method (harmonic
linearization). In conclusion, they note that the existence of a parasitic
positive feedback in the control system leads to an extension of the range
of instability. Due to a strono excitation of vibrations during the
flight through a turbulent atmosphere, the vibrations of the wings may
incroase. The probability that this occurs within a certain time inter-
val depends on the intensity of fluctuations caused by the turbulent
disturbance of the vertical component of flying speed. This probability
decreases considerably with decreasing intensity. The principal part
in the excitation of the system is played by the spectral components of
turbulent disturbances near the frequency of the characteristic bending
vibrations of the winC. The time of excitation of dangerous vibrations
of wings may be statistically estimated as a function of the flying
speed and the eigenfrequency of the aileron by using the above-described
theoretical methods combined with investigations of the system on a
simulator. The authors thank R. L. Stratonovich for his valuable
advice. There are 8 figures, 2 tables, and 12 references: 8 Soviet.
Card 3/4
3
ROMANOVSKIY, YU.M.; STRELKOVI S.F.
.L
Effect of atmospheric tubulence on an airplane with4glAfttla
wings. Trudy Inst.fiz.atm. no.4:257-266 162. (MIRA 15:12)
(Atmospheric turbulence) (Aerodynamics)
LANDA., P.S. (1-bskva);, STI&ILKOV S.F. (Moskva)
.... ..
Wing flutter caused by nonlinear aerodynam-ic forces. Izv.AN SSOR.Otd.
tekh.nauk.14ekh.i mashinostr. no.5:1-11-117 5-0 162. (MIRA 15:10)
(Flutter (Aerodynamics))
, , " ., T - , ,,'J .--, - P~.r
-.: 1-0, " 1. . ; ~ I . Ilt 4 S.;,. (1-110scow)
1--
117-1--c"ron5~chiaLic-I =Iol:~ of flutter"
Pe-ort -rescnted nt the 2nd Ul-Union Congress on Theoret--cal -and Applied
M.O~Iian-ics, Yoscow 2'." Jan - 5 :Pe'n 64.
ACC NRi -A+t4C4
AKI('02473
Strelkov, Sergey Pavlovich
Monograph
UR/
Introduction to the theory of oscillations (Vvedeniye v teoriyu kolebaniy) 2d ed.
rev. Moscow, Izd-vo "Nauka", 64. 0437 p. Illus., biblio., index. 20, 000
copies printed
TOPIC TAGS: oscillation, oscillator theoryq linear system, resonance theory
PURPOSE AND COVERAGE: The material presented in this book which is intended
for students of physics at the university level, is based on a series of lectures
given by the author at Moscow University (Physics Department) on the theory of
oscillations. For the purpose of discussion, in this book oscillations (periodic,
nonperiodic, and quasiperiodic) are divided into: 1) oscillations with one, and
2) oscillations with many degrees of freedom. Each of these is further sub-
divided into: 1) natural oscillations, 2) forced oscillations, 3) parametric
oscillations, and 4) "auto" oscillations -the latter ar6 defined as periodic
motions arising within the system in the absence of external periodic etimulation
Card 113 UDC: 534. 0 (07 5. 8)
NR:
A117GO21,73
Furthermore, oscillations are considered as either linear or nonlinear. The
author emphasizes that his approach to the subject is physical rather than
mathematical. Gratitude is expressed to R. A. Silin and N. K. Miheyeva for
their assistance in preparing the present edition.
TABLE OF CONTENT [abridged):
Foreword -- 7
Introduction -- 9
Part 1. Oscillations in systems with one degree of freedom
Ch. 1. Natural oscillations in linear systems with one degree of freedom -- 13
Ch. 2. Natural oscillations of a nonlinear conservative system -- 44
Ch. 3. Forced oscillations in a linear system (oscillations induced b
an
external force) -- 53
Ch. 4. Elements in the theory of recording instruments 95
Ch. 5. Spectral methods -- 111
Ch. 6. Applications of the theoryof resonance to radio technology 142
Cord 2 3
ACC NRz _"5P~A_9_
3,-
AM7002471
Ch. 7. Forced oscillations in simplest systems with nonlinear elements -- 156
Ch. 8. Parametric oscillations - 172
Ch. 9. Auto -oscillations -- 187
Part 11. Oscillations in linear systems with several degrees of freedom
Ch. 1. Oscillations in systems with two degrees of freedom -- 233
Ch. 2- Oscillations in linear systems with several degrees of freedom -- 294
Ch. 3. Application of matrices to the theory of oscillations in systems with
several degrees of freedom -- 358
Ch. 4. Oscillation systems with distributed parameters -- 379
Recommended reading -- 430
Alphabetical index -- 431
SUB CODE: 20/ SUBM DATE: 020ct64/ ORIG REF: 012
Card 3 / 3
S a' f~-711?: -"I IV, ; Se-g a y I I &v I -,v i ~~h - R AYSKIZZ A, 1; . ~ . , .
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,.u~Aiani-z;B j Mekhanika. Mn3lcva, Naukra, 19f ~5. 5 ~" ~, p .
(MIRA
STREL'KOVp S. YA. D3CEASED 1962/6
C' 1957
SEE IIL
"ED IC M
STRELKOV,T.
Distribution of tritium in 4-octene prepared by- catalytic
hydrogenation; abstract. Glas Hem dr 27 no.9/102516 26-1,
1. The Ruder Boskovic, Institute, ZELgreb.
STRELKOV, V1.
The Lavrovskiy generator. Ilauka i tekii irdadezh 16 no.10:
16-18 164.
STRELKOV, V.
Wind in the service of man. NTO 4 no.10s60-61 0 162.
(MM 15:9)
1. Akademiya pedagogicheskikh nauk.
(Wind power)
EED(b)-3/EhT(1)/ENP(j )/EWT(m)/T Pc-4/Pae-2 UP 007/0032/oo36
Acci;s3iw iiR. AP5003788 S/002 Mc A
AUTHUR5: Zakharov, V , Korop. P., Skryagin, L . Fedchenko, Vv~ Win, D,;
Massayev, K ; S~tralkav, V.
35
TITLF: From aqualung to sport su;;;~arine ;Z J/
S)W46- Tokhnika - molodezIA, no- 7, 1964, 32-36 16
TOPIC TAGS.11'submarDie photography, aqualung, swimming, underwater equipment
AMMiM Underwater sporting equipment which can be handcrafted is reported on
in this collection of articles. To record underwater scones, a metal waterproof
case I-ms boon designed, intended for use with the motion picture camors "Kiev-16."
A waterproof flash lamp "EV-511 has been developed which is effective under water up
to distance* of 0.5 m. It uses two flashlight batteries and has a power of 40 w.
Several units can be linked by a synchronizing circuit which fires all lamps when
the first lamp flashes. To assist in underwater navigation, a "submerged pilot"
has been developed which contains a compass and a log. The log is a four-bladed
aluminum 120-mm diameter propeller which turns 300-400 rev in 100 m of path. The
blades are set at - 450 to the direction or motion and can bo twisted slightly
Card 113
L 25613-65
ACC&SZION UR: A?5003768
for precise calibration of the instrument. Since a swimmer cannot travel much
faster than 2.8 km/h. submerged transportation has been developed. The simplest
device for underwater travel is a sled towed by a launch, providp
,0 with hand
controls for depth regulations. A new underwater plastic iderNith narrow
wings measures 3.5 x 2.14 x 0.6 m. It reaches a speed of 1> km/h when towed, is
controll,xi by horizontal rudders and heeling rudders, and is steered by a rudder on
tiio kool. A device called an aquaped carries bicycle-type pedal esar which t%irns a
screw propeller. The driver, strapped to a saddle, can reach a speed of 5.2 km/h.
A more elaborate device called a "submarine scooter," is strapped to the back of a
swimiier woaring an aqualung, or is held before him by hand grips. The body is made
in two plastic sections covered by thin layers of wood and iron. One compartment
contains a 72-amp-hj 24-v storage battery. The other compartment contains the
small 350-700--,r electric motor and reducing gears. A shaft leads from the rear of
tiiis comdartment to the screw which can drive it at 10 km/h. The most sophisticat-
ed device Is the sporting submarine, either the "dry" or the "wet" type. In the
"wet" type the submarine is flooded, and the sportsman wear aqualungs. A one- or
two-man type, with an airplane-like c bin, is powered by either a bicycle-type
pedal (one man - 5.5 km/h, two man - ; km/h) or by a 1-hp electric utotor (15 km/h).
Such a submarine may operate at depths ot up to 50 m. A model of the "dry" type
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ACCESSION NR- AP5W3788
(hermetically sealed) called the "Hermaid,* is still in tha "dream" stage. It
would have a steel hull h.6 m lone and 1-5 m wide and would weigh 1225 kg.A
glass conning tower would provide 360-degree visibility. Speeds of 12 km/h would
be possible from a 2-hp electric motor supplied by lead storage batteries. The
Mormaid could make 24-km trips, and its air supply would be sufficient for 24
hours. The craft would be weU supplied with safety features (including coiVressed
&as for emergency surfacing) and with provisions for the sportsman to be able to
abandon a disabled submarine. Orig. art. hass 11 figures.
ASSIOGIATIONs none
SUBMTEDs 00 =Lt 00 SUB GODEs P11, 95
'10 HEY SOV S 000
OTHERt 000
CoN 313
MALINICHEV) G.D.; STRELKOVP V.A.
Turbines from Reva banks. Standartizataiia 29 no-5928-29
My 165. (WRA 19: 1)
1. Spetsiallnyye korrespondenty zhurnala "Standartisatsiya".
SMOLINAP N.I.; SHGMiBATENKO) V.V.; STRELKOV, V.A.
Industrial testing of the method of briquet rusk manufacture.
Trudy TSHIDW no.8:89 160. CMLIRA 15:8)
(Baking)
.1 - ... :., - - j , . . ,
. . .. , :. !? ..: : '.,- , '- - I . I I . I '. 1 1-5 .
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. i ?, : 'I ~
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I ---,- ~-~-reen finds tto- standard, StandarLizatsiia 29 no.B~
1 6~ 5, . (MIRA 18:10:
L 05257-67 4R.,J/EEC (k) -2/owr,(c )AwPffi) /OR (d)/r, B01r, 3,54 !Jr-~c) Da'rTT
ACC NR, AM6018825 Monograph UR/
Zikhanov. Konstantin Ivanovich; Strej~~y,_Vijtqr Grigo 'yevich
4,
Remote control of rockets (Teleupravleniye raket) Moscow, Voyenizdat M-va obor. SSSR,
1~6. no P - irlius - 13,000 copies printed. Series note: za voyenno-tekhnicheskiye
znaniya.
TOPIC TAGS: guided missile engineering, missile guidance equipment, missile guidan
radio guidance, active missile guidance, guidance communication, guidance system,
command guidance system, antimissile missile, missile control
PURPOSE AND COVERAGE: This booklet is intended for enlisted men in the military
services, cadets in military schools, and for wide circle of readers interested
in problems of missile engineering. It may also be used by officers in the missile
forces as a guide for preparing the training program for their units. The prin-
ciples of building remote control guidance systems, the elements of these systems,
and their interaction are presented. Problems which may be solved by means of re-
mote control systems are also covered. Basic methods of missile target guidance
using remote control systems are explained as well as methods of making the neces-
sary commands and transmitting them to the missiles. Much of the material is
based on foreign open sources and the Nike-Zeus and Nike-X antimissile missile sys-
tems are described.
Card 1/2
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ACC NRs AM6018825
TABLE OF CONTENTS:
Introduction -- 3
Ch. I. General information on remote control -- 5
1. Classification of remote control systems -- 7
2. Problems solved by remote control systems -- 15
Ch. II. Methods of guiding remote controlled missiles-- 20
1. Direct guidance or the "three-point" method -- 23
2. Guidance with a constant lead coefficient - 26
3. Parallel approach method -- 27
4. Half-alignment method -- 31
5. Peculiarities of antimissile missile guidance -- 32
6. Combined guidance methods -- 33
Ch. III. Principles of designing remote control systems -- 36
1. Make-up and interconnection of remote control system components 36
2. Sights and missiles -- 42
3. Computers -- 56
Ch. IV. Methods and equipment for transmitting commands -- 71
1. Methods-of generating and transmitting continuous commands -- 72
2. Methods of generating and transmitting discrete commands -- 86
Ch. V. Nike-Zeus and Nike-X antimissile missile guidance systems -- 106
SUB CODE: 09/ SUBM DATE: 02Nov65/
2/2
ACC NR; A13,700-1865 SOURCE CODE: UR/0137166/000/010/IO48/IO48
AUTHOR: Strelkov V. I.
TITLE: Investigation of the nature of microcracks in Aluminum-alloy products
SOURCE: Ref. zh. Metallurgiya, Abs. 101315
REF SOURCE: Sb. Proiz-vo stali i splavov i vliyaniye obrabotki na ikh 6voystva.
Tula, 1965, 76-79
TOPIC TAGS: aluminum alloy, microcrack, hot forging, metal stamping,
electron microscope
ABSTRACT: Electron microscopic examination of metal zones adjacent to
microcracks formed during hot forging and metal stamping showed micropores
disperse to the right and to the left of microcracks. Zones 0. 1-1 rrim wide,
above and below the microcracks, are free of micropores. A layer (_10-5 mm)
of the brittle phase was detected on the surface of microcracks. This phase
separates along the boundaries of micropores and obstructs welding. P. Novik.
[Translation of abstract] NYr
SlfB CODE: 1l/
'-Card UDC: 539. 4.011:669. 715
STSPUNIN, S.Ye., inzh.; STREIZOV, V.M., inzh.; TSAM, M.I., inzh.;
T-SAR V, M.I.*,--&-n-d.tekbn.nauk
Improvement of three-phase automatic reclosing svatems.
Blek.sta. 31 no.5:69-74 * 16o. (MIRL 13:8)
(Alectric switchgear) (Blectric lines)
SOV-1127-56-10-10/29
A UT110H.; j Glazunov , V ..M. , Smalfin , V, A . iind S trelkov , V N.
'"ITLE:
An AnaIY3iS of the Rotary-Percussion Drilling of Blast
Holes in Hard Rocks (Issledovaniye vrashchatelino-udar.-
nogo bureniya shpurov v krepkikh porodakh)
PERIODICALs Gornyy zhurnal, 1958, Nr 10, PP 32-38 (USSR)
xiB;iTRACT; The authors compared the efficiency of drilling blast holes
in hard rocks with the rotary-percussion drilling machines
built by the German firms Nusse and Grefer; Salzgitter and
Hausher, with the efficiency of drilling with perforators
M M-47 PRS-3m and F M -508. The authors give a detailed
description of the German machines and their performances.
They found that the speed of drilling under favorable con-
ditions was much higher than with perforators, but this
difference decreased in hard rock drilling operations.
Special rotary-percussion drilling machines with increased
percu3sion power must be built for hard rocks. The tested
machines can be used for drilling in rocks of a hardness
Card 112
SOV-127-58-10--10/29
An Analysis of the Rotary-Percussion Drilling of Blast Holes in Hard Rocks
coefficient riot higher than 10-12. There are 2 photos, 4
t;raphs, 3 tables, 1 diagram and 4 references, 1 of which
is Soviet, 2 German and 1 American.
1- MinIng industry--USSR 2. Drilling machines--Applications
3. Drilling machines-Performance
Card 212
F3FIlLi,I---%NFF0V, N. i*,. ; :7MELKOV, V. P.; LIN'KOV, V. P.
"The Production of Platinum Resistance Thermometers," Zhurnal Tekh Fiz, 20, 3,
1950.
U-1763, 17 Mar 52
STRELKOV IiI - ener.
Using the ray-of-light method for markings at the "Krasnoe Sor"vo"
Plant. Sudostraente 23 no.6:26-28 Je '57. (MLRA 10:?)
(Gorkiy-Shipbuilding)
DOBROKHOTVP E. I., IVAINW, D. F., "'UMMOVATOV., V. S., =ILLOV., V. D.J1
PETROV, D. P., RAMMOVA, K. A., STREMOV , V. S.Y SHEPELEV, M. N. and YAVLIMKIYI
N. A.
"lnteattp-ntlon of Plaams Heating in Toroidal Chambers."
paper to be presented at the 2nd Ulf Intl. Conf. on the peaceful uses of Atomic
Energy, Genevu, 1 - 13 SOP 58.
A. 1. STREUMV, V. S. and YAVLINSIM, 11. A.
--Elec triAe less Discharge with High Current in a Toroidal Clamber vith- a L-,ng'-
tuJinal 1,hgnotic Field." (Work carried out in 1956-57); PD. 116-133.
"Tno Physicz of Plasmas; Peo'blems of Controlled nermonuclear React-icns." VOI. IV.
publlshcCl by Inst. Atcmic Energy, Acad. Sci. USS2.
re-,-p. ed. M. A. L--ontovich, editarial wol.',,, V. 1. Kcgan.
Available In Library.
'7,f th-2 9adiaTi-,-)r, --f an Electrf-deless Dischar-e in D,::uterim."
(Wo:-k carricl nut in 1958) PP. 156-169.
1he Physics of Plasma; Prololems of Controlled Thermonuclear Reactions." Vol. IV.
pulnlishleCi Ly Inst. Atomic Energy, Acad. ScJ . USSR.
resp. 11.1. A. Lc--)nt-,--,v!-ch, editorial work V. I. K-ogan.
Available in Libvai,y.
-7~- 1~ -7
L D
UL tile Fourt,ii Intt--mationaL
JAI 1 33 1
I
I!j
ills
San
3
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ass,
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Al
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511
mt
lall
It
CkIL'~U11OVY Ye.P.; DOLGOV-SAVFLIYLV, G.G.; I IjKFOVATOV, V.S.;
STRELKOV) V.S.; YOL11,SM, N.A.
[Studying a toroid,,.!l discharge ip a strorr ragnetic lield)
Issledovanie toroidallnogo razriada v sillnor. magnitnom
pole. Moskva, In-t atoranoi energii ir-.. I.V.Kurchatova, 1960
23 P. (I-IIHA 16;12)
(Electric discharges through gases)
(Magretic fields)
VAS1LIYEVSHY, V.S.; I.IUKHOVATOV, V.S.; .-,1'RELKOV, V.S.; YAVLINSKIY,
14. A. 1.- .1
[The "Tokomak-211 toroidal vlant, with a high magnetic field]
Toroidalinaia ustanovka s sillpym magnitnym polem
"Tokomak-211. Voskva, In-t atomnoi energii AN SSSR, 1960.
17 p. (MIRA 17:1)
8022
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/J 0 0 BO13/BO63
9. -0~ /0 0
AUTHORS,, Vasillyevskiy, V,, 3,, Mukhovatov, V, S_ Strelkov., V_ S_,_
Yavlinskiy, N. A.
TITLE- "ToKr4mSK-211 (Tokamak-2 - a Toroidal Apparatus With a
Strong Magnetic Field C'6 II
PERIODICALz Zhurnal tekhnicheakoy fiziki. 1960. Vol, 30., No 10,
pp 1137-1144
TEXT; As deuterium impurities and the heavy atoms struck out of the
chamber walls by plasma lead to considerable energy losses of a deuterium
plasma and, thus, prevent an increase of temperature, studies on plasma
of the highest possible degree of purity are of particular significance,
For this purpose, a special toroidal pulsed high-vacuum chamber was
developed. which is described in the present paper- The experimental
apparatus "Tokamak-.2" was designed for investigating the Joulean heating
of plasma in a strong, longitudinal magnetic field- The following factors
were taken into account by the designers: 1) The areas of the discharge
chamber facing the plasma must be subjected to a careful heat treatment.
Card 113
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"ToK,nmPt< -211 (Tokamak-2) - a Toroidal Apparatus 5/057/60/0-,40/010/001/019
With a Strong Magnetic Field ED13/B063
2) The vacuum pump and the design of the chamber must guarantee a vacuum
of up to 10'8 10-9 mm Hg, 3) The dimensions of the apparatus must
correspond to those of "Tokamak-l" The apparatus is schematically
represented in Fig 1. Fig. 2 is a general view of the internal chamber.
The basic circuit diagram of the aqaratus is reproduced in Fig, 3. Two
units of the type JBA05~2 (VA05-2) re used for producing a high vacuum in
the internal chamber, The highest maximum attained after degassing by
heating to 4500C amounted to 5,10-10 mm Hg. The entire vacuum system of the
internal chamber is connected by metal seals, so that it may be degassed
by heating up to 400-4500C, Two types of seals are used (see Fig, 4)
Fig 5 shows the sealing and insulation of the joints of the external
chamber The tubes of the water-cooling installation were laid on the
outer side of the copper chamber (Fig 1) The internal chamber is
electrically insulated from the external chamber and separated from it by
a vacuum (Fig 6)_ Fig 7 illustrates the pressure change prevailing inside
the internal chamber during heat treatment The plasma properties were
studied with the above-described apparatus under two different conditions:
In one case, the entire system was cooled after a continuous heat treat-
mpnt ~ ",:r)ld chamber"; in the second case, the internal chamber was kept
Card 21.3
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"TOKAMPII -2"(Tokamak-2) - a Toroidal Apparatus S/057/6o/o-~to/o1o/ooi/o19
With a Strong Magnetic Field B013/BO63
at a temperature of 400-4500C, whereas the vacuum unit and the traps
remained cold, - "hot chamber"., Data ascertained under equal conditions
are given in Ref.. 3., The introduction of observation windows and of the
measuring apparatus is described (see Figs., 8 and 9), Since the apparatus
serves a double purpose in that it should produce the highest vacuum
possible and purify the walls of the discharge chamber, its design is
rather complicated. As was shown by measurements, this is fully justified,
since otherwise the discharge would be considerably affected by impurities
The character of the process is considerably changed by a long heat treat-
ment (Ref, 3). Nonetheless, it is not possible to produce a perfectly pure
deuterium plasma. There are 9 figures and 3 Soviet references-
SUBMITTEDi April 23, 1960
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a
1-9 61 aill . . 1 B015/B063
AUTHORS- Gorbunov. Ye, Doleov-Savellyev. G Mukhovatoy V S
Strelkov, V, S., Yavlinskiy. N A
TITLE. Investigation of a Toroidal Dischar e in a Strong Magnetic
Field ~11
PERIODICAL. Zhurnal tekhnicheskoy fiziki, 1960, Vol 30, No- 10.
Pp, 1152-1164
TEXT4 The authors describe investigations on the heating and stability
of a plasma column in a strong, longitudinal magnetic field (Figs 1-11).
The experiments were carried out on the toroidal apparatus "Tokamak-21,
(for details see Ref. 2) under different conditions of the chamber walls:
1) cold, not degassed walls - "contaminated" chamber; 2) cold walls,
which. prior to the experiment, had been heated at 400-4500C for several
hours - "pure" chamber; 3) hot walls at temperatures from 4000 to 4500C
"pure" chamber The pressure of the residual gases was 1 10-6 mm Hg in
the first and the third case, and I jo-7 mm Hg in the second case It was
found that the character of the process was changed by the degassing of
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Investigation of a Toroidal Discharge in S/057/60/030/010/003/019
a Strong Magnetic Field BOi3 Bo63
the walls: a) The conductivity of the plasma increases; b) oscillations
occur in the heated plasma; c) the current attains a second maximum at
zero voltage, the conductivity of the plasma reaching considerable values-
Pictures taken with a time-lapse camera show that at high values of k
(coefficient of stability), the discharge column is bounded by the
diaphragm slits, Thus, hydromagnetic stability may be observed under these
conditions. The presence of accelerated electrons having energies of 1-2yev
is indicative of a good particle retaining. The extinction of X-radiation
is probably due to the occurrence of oscillations The successive
appearance of spectral lines of different excitation energies can be
explained by the rise of the electron temperature An increase of the
magnetic field strength increases the conductivity of the plasma at the
first current maximum. and improves the conditions of retaining Table 1
gives data on the instant of time at which ionization in discharges with
different electric field strengths is perfect. These data are specified
for three values of the initial deuterium pressure The electron con-
centration is assumed to increase in the course of time, Table 2 gives
data on the electron temperature for two values of the magnetic field. The
authors thank L.-A Artsimovich and M A Leontovich for their interest in
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a Strong Magnetic Field B013/BO63
the work, as well as N. V.. Krasnov, G. A.. Yegorenkov Yu A. Gusev,
A. V Glukhov, and G, N Ploskirey for their assistance There are
Ti -figures, 2 tables, and 6 references- 5 Soviet,
SUBMITTEDi April 23, 1960
Card 3/3
DOLGOV-SAVELIYEEV, G.G.; NUKHOVATOV, V.S.; STRELKOV, V.S.; SHEPELEV, M.N.;
YAVLINSKIY, N.A.
Investigating a toroidal discharge in a strong magnetic field. Zhur.
eksp.i teor.fiz. 38 no.2:394-403 F 160. (MIRA 14:5)
(Plasma (Ionized gases)) (Magnetic fields)
L 11364-65 EWT(l),/Et,Gf,k)/FtYr(m)/EPA(spl-2APA(w)-,2/E-PC/,t)/EEC(b)-2,1.-/E;VAIM)-2
TZ--:~/-po,-4/Pab--1Q/Pi--4 - IJP,~--~/SSD49~~-r/-ASDkp~-3/AFETR/AEDckb~)ASD(-t)*--AT---
S/0089/64/01T/003/0170/OIT6
!ACCESSIO14 NR: AP4045327
AUTHOR: Artsimovich, L. A.; Mirnov, S. V.-. Strelkov
4TITLE: Investigation of _plasma ohmic heating on a "Tokamak-3"
toroidal machine
SOURCE: Atomnaya energiya, Y.. 17, no. 3, 1964, 170-176
~
I'TOPIC TAGS:' plasma heating, plasz~a pinch,.plasma'conductivity,
plasma pinch instability* Tokamak 3 machine, controlled fusion
Ireaction, controlled thermonuclear reaction
ABSTRACT: Experiments were performed on a "Tokamak-3" machine to In-
ivestigate'the heating of plasma by means of a current passing through
it in the presence of a strong longitudinal magnetic field, used to
~prevent the moot dangerous forms of magnatohydrodynamic instability
of the plasma pinch. It was found that the correction of the magnetic-
field substantially changes the discharge characteristics. Measure-
ments of the main dischdrge characteristics show that even the very
:small transverse components of the stabilizing magnetic field, sp-
Pearing as a result of a nonideal magnatic..fieldl strongly affect the,
i Card
L 1-1364-65
IACCESSION HR: Ap4o45327
67j
behavior or the plasma pinch in the toroidal chamber. The compensa-~,71-E"."
tion of the stationary component of the transverse field on the
"Tokamak-3" considerably improves the discharge characteristics and
particularly increases the conductivity of the plasma pinch. When
the stabilizing field is very strong and the equilibrium position
of the plasma pinch is such that the axial line of the pinch passes
through the center of the opening of the limiting diaphragm# then
the average electric conductivity over t,he plasma cross section
reaches (1-2) X 1016 CGS units. During the process the plasma pinch-
is gradually displaced in the direction of the chamber outer wall.
If'the longitudinal magnetic field is not too strong and the initial.
gas pressure in the chamber is not too low, then at some moments the
movement towards the outer wall is interrupted, and the plasma, pinch
returns to the inner wall!. 'Discontinuities on the potential oscillo-
grams correspond to this'intermittent motion' and shar) pdaka cor-
respond to it on currant 6scillograms, Orkg,."art., has:,.,.6,figures
and 1 formulas
ol
ASSOCIATIONS"' none:'.
..Card Io- 2,
1-4 1 P
PZ-6/pa-Vpah-10/p j (C)
ACce 7-'3703 ;,,?t Ar;C)lf 410 w/3i36/64/ooq/68h/0001/005h
L. A.; Gorburay, Te. P.; Vtirnoy, S. V.; Yukhovatoy, Y.
11wV'*nL1f"11J')t1 or (Ainte heRtirr
of a plar-% In toroidal Tokamak Installations
T--~Itl)k rtt~-rrri rii-r!7il. Doklady, no. 664, 1964. Isaledoyan1ye
wi;~rcvnnlyri V toroldal'iVkh uvtnnoYkrLkb Tokamak, 1-54
TOPIC TAGS I plrtri,-% equilibrium, pl&mn cinch, plasma stability,
pl'tvma dingnootics, contrLITIM!:nt/ ToYjlmnk
A P,-, TRA C T iThe authors reporL the results of a theoretical analysis of the plasma
h ... itlng procc:;a and of the cenditiona for the equilibrium Instability of a plasma
loop In toruidrLl insLn,11atlons of the Tok,,,ink type. The construction of the Instal-
IaLlonr Is described and the diagdontic mcthods are explained. The measurement re-
wilts shav thrit the macroscopic cbrracteriatica of the diachnxge depend essentle,13,Y
an the control1inj-1 trnunversa mngnntic field and on the magnitude of the longitu-
dinal aarn.Alc field. Under optimal discharge conditions, they obtained a sLagneta-
1rfdrodjrnumIc&l# stable planna pinch vitb electric conductivity r*achlAg 2 X 10AD
!Card 112
L
ACCE~',-37011 1IRt AT' )01043
gn eno (electron terjTvernture ~ 150 eV). The experlment&lly obtained lifetime of
the chrkrge wtrtlclets in rv..-pnr,d with the vrilue expected In the presence of Bohm or
clanni-I dtHur-lorl. 'il;r, i,ront)eCta or utiing the ohmic M.!thod of plasma heating In
Tohrir~~k cyi-tivnit are "Ilia authors thank 0. G. Dolgoy-Gavel'yev and V.
1). for a din,w;nion of the experimental results and procedures, D., L. GQ--'.--
V. r tnltr~ i - jor partic1pnILIng vith the experiments on the plasma ener-
f-3y bnI.,ince, for help with the optical nensurements, and the Tokaswak
crou." 10 formulas, amd 1 table.
AaOCIATIGli none
a= InTO t 00 ENCLt 00 M CM1 ME
WR FZF OOVt 009 MU 1 005
kl:?T~' I IIEVI'Chy L. A.; W'LNJV~ S.V, ; STRELKOV, V.S.
Uge of the "Tckamak-3" toroidal setup in studyirg chrJc
heating of a plasma. Atom. energ. 17 no.3:170-176 S 164.
(MMA 17,~9)
L 22411-66 E.VT(1)/E PFn)-2/VMG(m) IJP(c) AT
ACC NR: AP6007952 SOURCE CODE: UR/0089/66/020/002/0146/ol48
AUTHORS: Bazhanova, A. Ye Strelkov, V. 5..; Ohafranov, V. D.
ORG: none
TITLE: Effect of the finite electric conductivity of the jacket on
the equilibrium of the plasma pinch in the 'Tok-a-m-ak' installation
-1' '4 T 77'
SOURCE: Atomnaya energlya, v. 20, no .2., 1566, 146-148
TOPIC TAGS: electric conductivity, plasma generator, plasma, pinch,
plasma temperature, magnetic trap, plasma diffusiorj"JMk=Wv-
AB,5TRACT: The authors refine the previously derived formulas
(Vopros teoril plazmy [Problems in Plasma Theory), No. 2, 1963,
page 92~ for the radius and the temperature of the plasma pinch pro-
duced in the Tokamak system, by taking into account the finite elec-
tric conductivity of the jacket, which In the earlier calculations
was assumed to be infinite. The calculations show that allowance for
the finite conductivity does not change the form of the equation for
the displacement of the plasma pinch inside the conducting jacket,
Card --- 1/2______UDC:__-533.9
L 22411-66
ACC NR: AP6007952
'but changes the value of the perpendicular component of the magnetic
:field, which must now be determined from the diffusion equation-for
'Ube dipole component of the magnetic field on the walls of the jacket.
The effect of the finite conductivity on the equilibrium of the plasmas
,is evaluated and It Is shown that In the case of plasmas of approxi-
mately 20 msec duration the correction necessitated by its inclusion
~is small and Increases with increasing plasma confinement time..
:Orig. art. has: 3 figures and 19 formulas.
)SUB CODE: 20/ SUBM DATE: 17Aug65/ ORIG REF: 004/
Cara 2/2xO_..~,J
STRELKQ'Lt--YB-.I.
Ecology of the hazel hen In the taige zone of Tomsk Province.
Uch. zap. TGPI 20:26-30 161. (MIRA 15:7)
(Tomsk Province-Grouse)
STRELKOV, Yu.
Position of Axine belongs in the system of monogenatic trematoda.
Trudy Zool.inst. 13:145-154 153. (MLRA 7:5)
(Trematoda) (FarasiteB--GarpikeB)
'~'l ~ i~ 1", 'Ill. A.
FtTr-11F~7'l, Yu . A. -- "--n~- tic ';"5T- s -j' Cce;rin 7-- :-1 h ir, -rn
- h a t,',. - . 1, 1!,- :!-. Zc)ol(),-ical Irc.t. zq Tau-'$
(TYFo~~il,.;Aion Cor tl.,- Deires~ o~' In ;,iolorica` -c'-nce~
1 '~ I Q C:~-
:~C,, : 'r j Z I I r)-j-',3 T ~ fr-, T)j ,fr.
I - I-
STilLIEW) TU. A. and SHITLIM~11, 03. 3.
"Parasite Infestation of Fish in the Projected Lake-Gonstruction
Area of the Amur ~dver Basin."
Tenth Gonference on Parasitological Problems and Eisea.--.es with Natural
i(eservoiri, 22-PO, October 10,59, Vol. IT, Publishing House of Academy of
Sciences, USSR, Moscow-Leningrad, 1959.
Institute of Lake and idver iiMing and the Zoological Institute of the
US311 Academy of Sciences, Lenint:rad
BAUER, O.H.; STIUMKOV, Yu.A.
Diseases of the young of Baltic salmon under conditions of arti-
ficial rearing. Trudy nav.lkht.kom. no.9:136-90 '59.
(MIRA 13:5)
1. Vst3soy-uznyy neuchno-iseledovatellakly institut ozernogo i
rechnoga rybnogo khozvaystva.
(Russia. Northwestern--Salmon--Disoasee and posts)
ZHUKOV, Yf),V.; STIOMKOV, YU.A.
Parasites of fishes in the Par Bastern naus. Trud.v sov.Ikht.
kom. no.9:188-191 159. (91RA 13:5)
1. Zoologicheskiv institut AkRdemli nauk SSSR.
(Sovist Far Bast--Parasites)
(Parasites--Fishen)
'17('15)
AUTHORS: Gusev, A. V., Zhukov, Ye. V., -L!,-A. SOV/20-125-5-60/61
TITLE: On the Degree of Infestatioi, of juntay (Theragra Chalcoggra=a Pal,)
With Parasites and Its Use in Fishery (0 zarazhenncsti mintaya
parazitami i yego promyslovom ispol'zovanii)
PERIODICAL: Doklady Akademii nauk SSSR,'1959, Vol '125, 1,;r 5, PP 1174-1176
(USSR)
ABSTRACT: The natural sources should be opened up to -the highest possible
extent and an abundant supply of food should be established.
Theragra chalcogramma belongs to the hitherto not sufficiently
known fish species of the Far East. Uany fish species of better
taste occur in the Far East, and-the afore-said species is,
moreover, not liked because of its infestation by parasites. This
infestation renders the fish species unappetizing for the consumer
and leads to misunderstandings and to the fact that the fish finds
no sale. The authors tried to answer the following questions: 1) Is
flesh of Theragra chalcogramma infected with parasitic worms?; if
this is the case ' how far? 2) Are among the parasites of Theragra
chalcogra,mma any species which are harmful to man? 3) Which
Card 1/3 investigations are to be carried out in order to decide definitely
0
On the Degree of Infestation of 311intay (Therzgra Chalcogrpa-la SOV/20-1~5-5-60/61
Pal.) With Parasites and Its Use in Fishery
the problem of the uze of TharEgra chalcogramma? - Table IL shows the
results of the sections in-1951-55 in the region of the zaliv Petra
Velikogo ( Petz VeIiXly Bay ), Avachinskaya bukhta (Avachinskaya
Bay), Kamchatskiy zaliv (Kamchatka Bay), and Kronotskiy Bay. None of
the Imown parasites of Theragra chalcogramma is harmful to man.
There is no reason for disqualifying entire catches or fiahery
regions because of infestation of the flesh. Careful sanitary oontrol,
the elimination of highly infected fish, furthermore, the removal of
infected intestines may easily eliminate parasites in fish for sale.
The working process is to be chosen according to the kind of
infestation (salting, freezing, hashing, etc.). In order to find out
the best time and the beat regions for catch, investigations of the
age- and seasoiial dynamics of parasites have to be carried out. '~.Iaere
is assumed that the frequently voiced alarming news from the
(Soviet) Par East are not fully justifie- It is I table.
ASSOCIATICE: Zoologicheskiy institut Akade=11 nauk 33SR (Zoological Institute
of the Academy of Science~ USSR)
Card 2/3
STREMOV. Yu. A.
lhdo]~~rasitlc worms from marine fishes of eastern Kamchatka. Trudy
Zool. inst. 28:147-196 160. OGRA 13:12)
(Kamchatka-Worms, rntestinal and parasitic) '
(Farasites'_-Fishes)
GUSXV, A.V.; STRMOV, Yu-A.
Ancylodiscoides (Monogenoidea) parasitIc In catfishes (Silurus and
Parasilurus) of the Par East-, arialyslo of the morphology and evolu-
tion of the group. Trudy Zool. inst. 282197-255 160. (MIRA 13t12)
(Far East--Tremtoda) (Parasites--CatfiBhes)
S 1.
. P.,
(I
STRELKOV, Yu.A.
On a new species of monogenetic trematodes, Acolpenteron petru-
schewskyip ftdapt~ed to habitation in the excretory system of
bitterlings. Dokl. AIN SSSR 1/+7 no-521253-1255 D 162. (MM 16:2)
Im
1. Casudarstvenn-yy nauchno-issledovatiallskiy institut oze ogo
i reahnogo rybnogo khozyaystva. Predstavleno akademikom Ye.NO
Pavlovskim.
(Zeya River-Parasites-Bitterling)
(Zeya River-Trematoda)
A n~ w '1.-z ',rL!_1
E f n -a s av S 0 f a
L rje
fj 5f,. 4.~ rl'
rr~ ljl~ tlqi - !;n,,,
SMIRN(A,'jk I- -, - STPELKOV) TD.A.; TiF~OFIEYEV, V-~-; 3-pl-
t . , 0 9
I . ':" Z fr~ ' -
Nabal Cavitj~-,, of b,,,ny f JVM"' 81 a 'J")' 4~ht ()f' Pa"%~?j ~"
7,1,,ur. 43 1 6t,. . om,-~w, 18'.11)
1. 7" _ ;p , _,_4 , _AN SSSR, jejjj!;gT,,qd.
_.)O.Lr r,~. "I t,
'giCile -Y U.-