SCIENTIFIC ABSTRACT PEREHAZY, K. - PEREKALIN, V.V.
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CIA-RDP86-00513R001240010001-2
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December 31, 1967
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SCIENTIFIC ABSTRACT
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Ab-
UVU
I
FERMWY , ERroly
our ]I" bUtorical mommarmo Elet tud 17 no.43:1347-1351
28 0 162.
RYW A SPJ"ICAL~PROB -~i-
YtLUA
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a Cal p"be iz~ hj~, presnurn plasm dis-
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014 141rdto I.e. In prActl" eprbl
i
7
7
1
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E
61: i dlacltarg&
th
im red w a
OWPILrlcon Willi the
th a
the mean rre pa lie particles
?Aory is made
lAugrnulr th
PVMj, L.
"A confereme on variable stars in Brno." P. 116. (Ri�_q IIvqzd, Vol. 34, no. 5, June 1953.
Praha.)
SO: Monthly List of East Suropear. Accessions Vol. 3, No. 2, Library of Congress, Feb. 1954,
uncl.
L.
C-)nfe-ence )n trie of -a*actic r-i~2arc, jr. St-)cklv,~' ,
Jure 3.,'-21, 1~?5-. p . 77.
Inst! t ,te - *~zechjs'.,,)v;Ak 6ca )t' i~7iei,ce) V,)] . - , 'I' ,. ~, I
3): Ninthly In,!tK of ---A--t )nS V,-Ill . ', I;r), ~ . jl~l r, -
?"n I BwK EXPLOITATION C21CRA216 \j
BudII, IVO. ad-
DO blizk6ho I vzjileniho wessfru (Into the Near and Distant universe)
prsgue. Orble, 1960. 10.000 copies Priated.
Authors' Mien Blaha. Doctor ofNatural Sciences. Candidate of
PhysIoL. and Rathecatles. Ond&j B"chta. Engine er . Jan
Profe:sor, D.C.A9., Viclav Dumbs. Doctor of Natural Sciences, Can-
didat of Physics ina-7'-aMe-=7EYcs. h1pn9k Ceplecha, Candidate of
ftysIcS and Mathematics. Jcaef Vvc k. 'NciEtor of KedIc1na.
VIEdImIr Guth, Docent. Doctoin-OfIRAtural Sciences, Corrsopondlm&\~-
Xember or the Slav" Academy of Sciences, ~oetor of. Physics and
mathematics *VAI Mecrek, Doctor of Natural Sciences. Candidate\
of Th3-100 ind Kiloslav Xopockt, Doctor of Natural
Sciences. Candidate of Physlo~-* '" Kathematics. I~UbA -,k,
Doctor of Natural Science Calldidat~- of
]UrOAZ!Lv Plsveq, Doctor 0;. K.turLl 3clencen, C&nd4dato or Physics
and Mathenatles. JA7,0312,v Ruprecht, Candidate Of Phyales and
Xathematles. Josei il;~R-.-Ladlslav Sehnal. Candidate of Physics
Ca3d 1741
,3
and Kathematles. Zden;k ivettk& Doctor of Natural Sciences.
Candidate or PqrlB VCIPUeY, D tor
Of Natural Sciences and V1a11=1r Vanjork, Doctor of Natui.l
Selene*$. Candidate of Pjj~Fnics and K2tfiqm&tIcs. Reap. Ej.,
Josef Sadil.
M?CSZ3 This book Is Intance! for the general reader Interested
I-n "trionomy, celestla.. m-f-nics, " astrophysics.
COVZRkaZj The book prvtentz in ropulAr language and In our-"ry
form the most Irportant achleve=enta of science to date in the
field of astronc-y, celestial mechanics, rnd astrOP!1751ro, and
notes the ixport~c* of continued pro&reas In these disciplines
for space travel to Um wc~cn and In our solar 9YOtez, W'd ulti-
mat*27 to the nearest sta" and galaxies. In the tection headed
6AbOut t2le Authorso the d&gre4s and titlen, &fflll&tlOnh 4u)d
scientific contrlbutlo" of each author are given. The text
In Accompanied by Ka.y dlagr~d, graphs, and tabalar d-ta. There
"ro 37 photographs of various celestial bodl-1. go personalities
Ca~~
are leentioned. n-re am 2Q references, all CZeeh joeviral
lational.
TAJ31Z OP CONT.NTS:
THE MM UNIVZRSE
1. Th. Moon - Th. Xe~rest Cos=lc Body 7
Size and density of the moori
Orbit of tkie moon arcund the eartr,
Phase@ os* tht. room 9
The ashen light of t2w noon 10
Does the moon have any kind of an at.aaph~r~? 11
Tett,eraturo on the 6ur~ace Cf the vo~n 13
Vhat dose the surface or thi ccnslat 0f7 14
Beginni ne.0 f ,-- =-r.l." 15
Is the moon radlometlve7 16
Surface of the mo~. tlL~.Ugh a tele~ccpc 16
Origin of the sees and cratero of the moon 17
Card
PEREK,
SCIENCE
Periodicals: BI:.~LLETEN AWROWTITCHrSKIKH JNST1TT-JT(V CHEX11OSL0VAKJ1.
BULLETIN nF TIF:. ASTR:-1Nr5-'.1CAL IN3T-TTTJTF3 OF CZ'KH~-)S1,A1AY,1A.
Vol. 10, no. 2, Mar. 1959
PEREK, L; RCkJS.,-,VA, n. Identificatiori charte nf selected areas 5,61, and
68. In English. p. 77.
Monthly List of 15ast European Azeessions (FhAl) LC, Vol. 8, Nc. 5,
May 1959, Unclass.
FEREK 1, L.
Planetary nebulae in the central region of the galaxy.
Diul astr Cz 14 no.6:201-218 163.
Note on tho distribution in space of planetary nebulae.
218-222.
1. Astronomical Institute of the Czechoslovak Academy of
Sciences, Prague.
AUTHOR PEREL V.I. PA - 2966
TITLE of the Drive Velocity of Ions in an electric
field i-,L owi gas. (Vychislenlye akorosti dreyfa ionov v,
alektricheakom pole Y sobstyennom gaze.- Rusfiian)
PERIODICAL Zhurnal Ekuperim. i Teoret, FizikI 19579 Vol 32, Nr 39
Pp. 526 - 533 (USSR).
Received.* 6,11957 Reviewed: 7/1957
ABSTRACT By means of the method of suooeasive approximations suggested
by this paper It is possible to solve the second kinetic part
of the problem of the drive velocity of ions on the bacis of
the model of "pure re-charge". This applies in th~- oase of any
-qtio between the operQtirn of the field along the
free length of path of the ion and the ayerave thermal energy
of the atoms of the gas. In the course of ti.ase oomputatione
the connentrati on of the charged particles is assured to be
so low t~%&t their interaction among one another and also the
influenae tzeroiaed by the funation-of velocity distribution
of the &'ors can be disregarded. Computation is earried out
on the a-tumption that the cross section of the re-ch&rges
does no' depend on velocity. However the method of
successive approximations suggested here applies also if the
cross section is not Qqpstant. First the kinetic equation for
CARD 113
PA - 2966
The Computation of the Drive Velooity of Ions in an electric
field in own Gas
the -.looity distributiors of the ions, which applies on the
aforementioned conditions, is written down.
The Method-'*64T~Successive Approximations for the Solution of the
kinetic equation: The differential equation derived is solved
by means of quadrature formulae of the Gauss type. This method
Is, above all, recommended by the fact that a clear physical
model corresponds to each mathematical approximation. The ease
of low field strength is the most unfavorable in the ease of
this method.
The approximation N - 2,11 Comparison with the Ex2eriment:
(Here N denotes the degree of the HERMITE polynomials
occurring in the Gauss quadrature formulae and M denotes the
degree of the Laguerre polynomials). The approximation mentioned
in the title is here closely investigated. In the case of all
gases investigated, with the exception of He, good agreement
between computed and experimental resultv is found. The model
of "pure re-chargell with a cross section that does not depend
on velocity is * Cood approximation for the description of the
Interaction between an ion and the atoms of the same Gas.
CARD 2/3
The Computation of the Drive Velocity of Ions in an
electric field in own Gas.
(With 3 illustrations)
ASSOCIATION: Rarelo-Finnish Pedagogioul Institute.
PRESENTED BY: -
SUBMITTED: 6. 2. 1956.
AVAILABLE: Library of Congress.
PA - 2966
CARD 3/3
PEREIASIOV, A.-
Granary made of riylon at the Kustanai elevator. p. 60.
TFOWIKA VYYUPU, MUMARSTV! A PIYARSTVI. (Mimist-rstvo potravinarskeho
prwVslu a vykupu zemedplBkych vyrobl,,u a Sdruzeni mj*mu a pekaren)
Praha, Czechoslovakia, Vol- 5, no. 2, Fpb. 195Q.
~Ionthly List if East European Acces-Aons W Vol. 0, no. 2.
Feb. 1960.
Uncl.
1. KRASOVITSKIY) B.11. I "EfUJASLOVA, D.G. L NOBYAK, N.K.
2. USaR (600)
4. Diphenic Acid
7. Investigation of the reduction product of 6-nitro- diphenic acid, B.".'. Krasovitskif,
D.G. Pereyaslova, N.K. hobiak, Uk.-.':him.zhur. 18 no. 1, 1952.
9. Monthl List of Russian Accessions, Library of Congress, A FRI L 1953, Unel.
T ERT-11- . J .
Fr) r , : ~, .-.1 , - ~- -- -, f7~ -- t'-*-vil~~eq of thf- -leat ,fte." +~-.e ti- i 'e'11;7 ' "
; F -9
the 0,-ntr..' '3-n- -* t t- ~-, +re 1 -; ' : ,i 1 t e-, i ',Zorke rv; F --t;,r . .. , . ( - -, ~ , L,
I -
. a - -1~- , ~, ~_, . I , -. ", . :,Ov 1 lr~'. P-";~.rld)
X
: 1", ~~!) *-I- I y LI'l t .-, r "TL, , -, . " : r ;2 F, j~ c - - - r ~ -.r! , ( 1 7 " ,". ., V,-) I ." , " '. -. -),: 1 , I . . - ..
-,:, 1 - - I ,
FEREK p J.
Initial conclusions on the evalwition of works on the 5--year
Plan. p. 1. GOSPODARM MIESNA. Warszawa Vol. 8., no. lip Apr. 1956.
SOURCE: East Ew-opean Acoessions List (EEAL) Library of Coniress
Vol. 5, no. 8j Auguet 1956
Depart.r.;unt ot' Ge, v:111; inucrillj-
A ~
1 Yin t ~ t u t e, V6kl a doI c i o 11:3 11 11
0 C'.', ri o
rtalnili No 1
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of t1)0 :Iltor Degree f.
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PFREKALIN, M.M.
Complex monenta and potontials with a repulsive core. vent. ILU
18 no.10:37-44 163. (MIRA 160)
(Angular momentum (NucleEx physics)) (Matrix mechanics)
FmXKALIN, S - - -
Jecisi7e link. Voen.znan. 31 no.7:22 J1 156. ~ ~-#L '--. I , ~ A I
(~dlitary education)
S. 4. Serfral,-ho,.,, 14-akcivskoy oblasti).
owmft
'n nce witt Lenin's egany. Voen. znan. 33 n- - - - ~7,
oidlif-ation) :-I~ : I j
FARNUMN, S.
If you like the work, everything to eaay! Kryl.rod. 11 no.3:6
Mr 16o. (MIU 13:5)
(Parachuting)
85-10-20/35
AUTHOR: Perekalin, S.
TITLE: For the Power of the Sovietsl (Za vlast' aovetovi)
PERIODWAL: Kryllya Rodiny, 1957, Nr 10, pp. 20-21 (USSR)
ABSTRACT: The author of this article describes the meeting of the
members of the Moskva aeroclub with the old communist
A.D. Blokhin, who related h.18 participation in the
October revolution forty years ago. After giving his
brief eye-witness account of the evcnts, which then took
place in Moskva, he took a bus ride with the aeroclub
members and showed them the places where the street and
house firhting occurred. The article Is Illustrated by
four photographs, showing some participants of this
meeting.
AVAILABLE: Library of Congress
Card 1/1
SOPOVA, A.S.; PEREEKALIN, V.V.;, LEEEDNOVA, V.M.
Interaction of 1-brcmo-l-nitro-l-pentene and R -brozo4-nitrrav,~-e-ne
with active cyclic mathylens components. Zhur4.ob.khim. 33. no.7:
214)-.2145 Jl 163. (MIRA 1618)
1. Leningradskiy pedagogichoskiy institut imeni A.l.Gartsena.
(Pentene) (Styrine) (~lethylena group)
SOPOIA, A.S.; PEREKALIN, V.V.; YURCHENKO, 0.1.
Interaction of 1-bromo-l-nitro-l-pentene and -bromo- -nitroBt;rrena
with somb compounds containing active methylene groups. Zhur.ob.khim.
33 no.7:2140-2143 Jl 163. (MIRA 16:4.)
1. Leningrad3kly gosudarstvennyy pedagogichaskiy institut imeni
A.I.Gertsena.
(Pentene) (Styrene) (Methylene group)
82565
,57,361o S/080/60/033/06/06/006
AVTHOP~: Zonis, E, Perekalin, V. V.
TrES: Synthesis of Dinitrodienesi
PERIODICAL: Zhurnal prikladnoy khimii, 1960, Vol. 33, No. 6, pp. 1427-1428
TEXT: The synthesi& of non-conMated dinitrodienes, in which the
nitrovInyl radicals are separated by methylene groups, was carried out by the
autfiors for the first time. The nondensation of 1,4-dinitrobutane with aromatic
aldehydes in the prepcnee of ethylenediamine or ammonium acetate In glacial
acetic acid led to the formation of various 1,6-diaryl-2,5-dinitrohexadienes-1.5.
To one of them sodiumdimethylmalonate was added with the formation of the
methyl ester of the pertaining dinitrotetracarboxylic acid. In the condensation
of the disodium Balt of 1,4-dinitrobutane with paraform, 2,5-dinitrohexadiol-
1,6 was separated which was converted by acetylation and subsequent deacetylation
into 2.5-dinitrohexadiene-1,5 with a m. p. of 79-81 (heptane). The structural
formulae of the substances synthesized, their melting points, yields and chemical
compositions are given. There is 1 table and 3 Soviet references.
SUEMITTED: February 10, 1960
Card 1/1
P1nKALINL.-X-Y,--
Characteristics of the distribution of Hercynian granitic
Intrusions in central Kazakhstan. Dokl.A21 SSSR 133 n0-1:
202-204 J1 160. (HIRL 13:7)
1. Loningradakiy goeudarstvannrl univeraltat imeni A.A.
Zhdanova. Predstavleno akademikom A.A.Folkaliovym.
(1az&-!ista,n-Gsology,. Structural)
111KR51. I j, T.S.; SOYWIV, D.F.
Qu5ntitat I v- evalvat icn n-Ir tlr- par t, Lor, t-A, 17.1 ,
llwlnlicUs tetrresLr~c Liniya (Lvinbricirlae, OligmNaeta), -ir, *, 11P
tamnsfcamat~cn of foreqt I'tter. Zool. zhur. 43
1625 '64. ( t., T RA 18 , ~, ~' "
1. LaboratT-.riya lerovpdnniya, -t-i-.Ir Uspcxvkoye
ob-I a alti .
L 1067-14k EVIT( 1)/EPF(n)~ -2/EWA(m)-2 IJP(C) ELAT
AM N1- AP502P23 SSDIW.CE COM IM/0057/65/0'-5/011/2069/2075
Perelo. V.I.
AUTHOR: &Can, Yu. K..
ORO: Leningrad State 'Univers!U Im. A.A. Zhdanov (Leningradskly gosudarstvennyy
universitet)
TITIA: an the tbeory of a spherical probe at medium and high.pressure
SOURCE: Zhurnal tekhnIcheskoy fiziki, v. 35, no. 21, 1965, 2069-2075
TOPIC TAGS: plasma diagnostics, plaoma probe, pressure effect, electron temperature,
spheric geometry
ABSTRACT: The electron current to a spherical probe at a negative potential is
calculated directly from the kinetic equation by methods previously employed by the
authors (ZhTF 24, 68D, 1954) to calculate the electron current to a spherical probe
hold at Zbe space potential. The result reduces to the usual formula when the
pressure is low, but the kiiietic treatment Is necessary at high pressures because
the diffusion equations are invalid, owing to the low energy transfer in collisions
between electrons and stoma. To facilltate the approximate solution of the kinetic
equation, the dIntributlan function lo-expressed as the sun of two terms .;representing
electrons moving In diffibrent directions. This procedureAs shown to give the
correct result In the limiting case of low pressures and-to :,provide a very good
approximation In the limiting case z~f high pressures; It In assumed, therefore, that
CaM 1/2 ?)DC 533.9.07
L 10671-66
ACC NRs AP5028323
the procedure will give a good approximation also at :intermediate pressures. It is
found that the electron curre~%t to the probe Increases less rapidly than exponentially
as the probe potential approaches the space potential an4that the deviation iron
exponential rise Is the greater, the higber the.pressure. The usual method of
determining the electron temperature from the slope of the upper part of the log4r-
probe characteristic, therefore, overestimates the temperature. The ex-
pressionAerived for.the probe current can be evaluated only when the velocity
dependence of the electron mean free path to known. Probe characteristics were
calculatea with the assumption that,the,electron mean free path in proportional
~to Vs. (v -is the electron velocity) got four different values7of the constant s
-between I an
d - 2, and the characteristics are presented grapbically. 'When the
oelectron temperature to determined from the derivative of. the probe characteristic
In the rianner proposed by Yu.M.Kagmaj, M.Perail, and POO.Pipattl (Vestnik LGTJ,
No.8,129,1955)0 the relative error Is (642ATe/26V at high pressures, where k is
Boltzmann X constant# T In the electroatemperature,, e Is the electron charge, and
V is the probe potent4f. At lower pressures the error Is smaller. Orig. art. has:
31 formulas an&l.flgure
OR.IQ REP: OD6 OiN REF:OOV~
BUD CWE: 20 SUBM DATE: 13Apr85/
CWd 2/p
1-0. S-11l'-YFV i N A . , ! r:- F. i ~- aT-,: '-I K V i~ , 1. . , , tr: .
I . .
I I J st~7--,T- co - c -.- - , , . -r.!. " . ~ - _,, --, n -~ - - " . ,
dent.bt.~;se~-,,' a , .! ' -. -~, V 1: - -
t.qir,I'Ji-UiU5tChIM-' ~~e,7T ... ! 7 a,!!-* . YA ~, v , -' -) .
( v - " -, ~*
PERBLIMIJI. A.L. doktor gool.-minoml.muk ()4onkvtx)
--------
Sampleo of tho popularization of scienco. Prirocia 49 no.5:
11&119 Aor 160. Mlut 13:5)
(Geophys ics )
BRELIHAP, F.M.; ZVMYKIN, A.Ya.g GAICA, L.B.
Degree of polymerization of sodium metaphosphate at varl"s tr=pera-
tures. Izv. All SSSR. Neorg. mat. 1 n,).5:725-729 My 165. (MIRA 18:10)
1. Institut obLhchey i neorganicheskoy khlmil Imeni Kurnakova AN
SSSR.
PEimll-wi, F.?4.
Properties of componerits and the nature of their intA~raction.
Zhur.neorg.kliir.-. 10 tio.11:2522-2526 N 165.
(MIRA 18:12)
1. Institut obsi~chey _i neorganicheskoy Ichimii imerii N.S.
Kurnakova All SSSR. Submitt.ed September 28, 1963.
PEREL'MAN, 1.111.
Near-wall "slippage" of blood in capillaries. Koll.zhur. 27
tio.3:422-424 W-Je 165. (MIRA 18:1,2)
1. Respublikanskkva boltnitsa Kabardino-Balkarskcy AS-IR,
Nevrologicheskoye otdeleniye, NaltclLik. Submitted June 30,
1963-
PERELIMAN, L,M,, prof.
Construction of Poadbed8 for railroads acrons forest swamps.
Traasp. stroi. 15 no.3:7-10 Yx 165. (MIRA lgill)
PERELIMANp Tsi,,M,
Tct,enti=etris titration of plp-typhyllime hydrotartrate in
!Lquevus and r-,,naq-ueuus solutions. Apt. dela 14 no.lt44-49
Ja-F 165. (MTRA 18:10)
1. laningradskly kbJm!kcfa--=tsevtJ.cheskiy institut.
t
-2
-t 41910-66
ACC.NIL- AP6001261 SOURCE C 3/050
ODE: UR/Oppl/65/002/003/053
clql ey
-AUTHOA: Parelainw. A. P49 V. A.
vo E astal'Physica. )ft" tat teor a48
OR G.- hobb&AA Theoretled xPerim
_I
TITIE: Uhltu~r andA*Lamted of SU(6) mipermultIplets
SOURCE: Ya4ernaya flzft, v. 2, ,to. 3, 1965, 533-542
TOPIC TAGS on
particle Interacti elementary particle,
AWTRACT: A method has been developed which-makes it possible to find the content of
unitary multiplets of a given spin In the supermultiplet of group SU(6). An expansion table
y Young's schemes with a
has been coi6piled for all the representations of SU(6) given b
toW number of bells f - 39 6,: and 9. - The sup6rinultiplet of BU(6) has been expanded into
f
Wigner supermultiplets with a fixed value of the hypercharge and spin oquarks.
Also-given Is a table for the expansion of the Kronecker pro-
ductof the simplest represonMons. of group SU(6). Orig. art, has; I figure, 2 tables,
aM 18 formulas.
20 DATE*
SUB CODE: WpM OTH HEF.- 012
I J L IUZL4-Z!~b
055- -URAM-616 5/0DQ/O i0-/0-1-5 276 1-5
ACC NR3 026542 SOURCE CODE:
AVMMSs atrammot M. F.; savothal 00 10 PoEg)ftM. Go A.; P&r*&_mq*Yg Yu. N
IWftv, N.
CRGS none
TrMI A machine for building I,-Rvess along alluvial plains and. for forming land alopem
~Clftss 84t, No. 175997 Lamomeed by besign and Construction Buren Of
Olavatroymekbani2atmiya of the State Production Committee on the Transport Constructior
(Proyektno-konstruktorsk.Dye by"o glavetroymekbnizateii gosudarstiennogo a,
pmisvoastvemogo konitets po transportnomu stroitel'stva SSSR27
SOURCRa Iyalleten' isobroteniy i tovarrqkh makovq no. 20j 19659 1512
201C TACSs excavating machinery, constniotion machinery
ABST-RACT aThis Author Certificate presenis a machine for building levees on alluvial
plains and. for formIng land slopes. The machine contains a working member with
numerous buckets for transverse excavations (see Fig* 1). This manber is supported b.*
a bearing-turning platform. To assure the possibility of levee building and slope
formliu9j, as wall as trench excavating# -the working memk)er is placed on the turning
p4tform oactentrically in renpect to ite axle of rotation. The rear part of the
3madh1he contains &- transverse carrier and a desiountable stopping baffle fixed to the
trans of the working nealoer. The body of Ptah bucket my be open at the bottomp While
Card 1
Fig. 1. 1 Working useber -with i for tr&neverse
eupporting-turning platform;3 carrier; 4 -
excavation; 2
frame of the working amber; 5 - buikei; 6 - open bDdy; 7 - blade.
a blade is fixed in its foremost part, Origs arto bass I figure*
so Coal MW DMil OMA4
cWd V2,
.9 Y F."t E I y C, 1. N 0- v .11
V rl -~.J E e
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a v . m,
ys, uc tie b,7
i4 lz
k y 4a f f z
PERNMIN, V.L. )mnd.GeI'ekokhoz.nauk
Economde effectiveness inthe cultivation of essential oil-
bearing plants in the Krasnodar Terr1tor7. Meal.-zhir.prom.
21, no.12:4-5 '59. (MIRA 13:4)
1. Vaesoywnyy nauchno-iseledovatellskiv Institut manlichtykh i
ofiromaglichixvkh kulltur.
(Krasnodar T,erritory-Oilseeda)
PEMLETCHIKOVA. Te.M.; ITLIS, V.S.; KAUTGIII, A.A.
qwntitative determination of ethyl cellosolve and of water,
ethanol, and ethylene glycol present in it. Zav.lab. 26 no.2:
154-156 '60. (MIru 13:5)
(Ethanol) (Ethylene glycol)
ANTIPOV, K.r., inzh.; BALAKSH0, B.S., prof., doktor tekhr..rwuk; BARYLOV,
G.I.. inzh.; BRYMMIMAN, R.D., inzh.; BERDICM!XIT, Ta.G., inzh.;
BOBKOv-. A.A., inzh.: KALININ, H.A., kand.tekhL,.nauk; KOVAN, V.H.,
prof., doktor teklin.neuk; KORS&OV, V.S., doktor tekhn.nauk;
KOSILOVA, A.G., kand.tekhn.nauk; KUDRYAVTSEV, N.T., prof., doktor
kh1m.nauk; KUPTSHNVA, Te.S., inzh.; LAKHTIN, Yu.M., prof., doktor
tekhn.nauk; NATHRMAN, H.S., inzh.; NOVIKOV, M.P., kand.tek-hn.nauk;
PARIMIT, H.S., inzh.; inzh.; POPILOV, L.Ts.,
inzh.; POPOV, V.A., kand.tekhn.nauk; SAVERIN, M.M., prof., doktor
tekhn.nauk; SASOV, V.V., k-qnd.takhn.nauk; SATIMI, B.A., prof..
doktor tekhn.nnuk; SOKOLOVSKIT, A.P., prof.. doktor tekhn.nauk
(deceased]; STA11EIVIC4. V.G., inzh.; FRMAIN, Tu.L., inzh.; KHRAMOY,
M.I., inzh.; TSETTLIN, L.B., inzh.-, SHUKHOV, Yuj., knnd.tekhn.nauk;
MARKUS, K.Te., inzh., red. (deceased]; GRANOVSKIT, G.I., red.;
DEMIYANYTIK. F.S., red.; ZUBOK, V.S., red.; KALOV, A.N., red.; NOVI-
KOV, M.P., red.; CHAIUIKO, D.V., red.; KARGANOV, V.G., inzh., red.
graficheskikh rabot; SOKOLOVA, T.F., tekhn.red.
[Manual of a machinery designer and constructor; in two volumes]
Spravochnik telzhnologa-maahinostroitelia; v dvukh tomijkli. Glfiv.
red. V.H.Kovan. Chleny red.soveta B.S.Balakshin i dr. Moskva,
Gos.nauchno-tekhn.1zd-vo mashinostrcit.lit-ry. Vol.l. Poe red.
A.G.Kosilovoi. 1958. 660 p. (MIRA 13:1)
(Mechanical engineering--Handbooka, manuals, etc.)
PSHESUNIKO. D.I., Inzh.
Peculiarities of draining certain sulfur deposits in Central
Asia. Izv.vys.ucheb.zav.; gor.shur. no.lOtIB-23 '59.
(MIU 13:5)
1. Hoskovskly gorny7 institut.
(Asia, Central-Sulfur mines and mining)
(Mine drainace)
S, V. B. ---
Perform'&nee of electric drives on SX-3 excavators with 5 cu.n.
buckets. Trudy Gor.-geol.inst.UFAN SSSR no.41:189-198 '59.
OURA 13:5)
(Excavating, machinery-Blectric driving)
PAVLOY. V.A.; GAYDUK07, M.G.; DATSKO. 0.1.; NOSKOYA,
I.A.
Effect of structural characteristics on metal behavior at
hie temperatures-Isel-Po zharopr.splav. 4:26-35 159.
(MIRA 13:5)
(Nickel-copper alloys--Metallography)
IFZRIKALIN, M.A., prof.; TATUR, T.A., kand.tekhn.nauk, dots.
Heating of steel beams in the field of powerful current con-
ductors In power plants. Izv. vys. ucheb. zav.; energ. no.3:40-45
W 158. (MIRA 11:5)
I.Rookovekly ordena Lenina energeticheakly institut.
(Electric power plants)
(Induction heating)
8(3) SOV/112-59-1-553
TranBlation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 1, p 72 (USSR)
AUTHOR: Perekalin, M. A., and Tatur, T. A.
TITLE: Heating of Steel Beams in the Field of Heavy-Current Conductors at
Electric Stations
PERIODICAL: Izv. vyssh. uchet.n. zavedeniy. Energetika, 1958, Nr 3, pp 40-45
ABSTRACT: Temperature rise of steel beams due to eddy currents in them has
been investigated depending an two parameters: distance to the current-
carrying conductors and the phase-to-phase spacing. A heat-balance
differential equation has been set up and solved. From the expressions
obtained, the beam maximum -ternperatur e Gmax curves have beer. plotted as a
function of the ratio of beam perimeter to its cross-section FIS for d-iffe-rent
values of parameters and a current of 11,000 amp. Gmax increases with
increasing FIS, with decreasing the beam-conductor dista.,ace "a, " and with
increasing the phase-to-pbaae spacing T . For a 3-phase lire with the wires
Card I /Z
SOVI 112-59-1-553
Heating of Steel Beams in the Field of Heavy-Current Conductors at Electric
in one plane and with F/S = 4, a a 30 cm, and 'C = 100 =, the temperature
emax = 4200C.
V. V. M.
Card Z/2
PAUKALIN,-H.A., professor, aoktor tekhn.nauk
Active resistace of conductors in the presence of skin effect.
Izv. vy's. ucheb. zav.; elektromekh. no.1:135-141 158. (MIRA 11:6)
1.Moskovskly energeticheekiy Institut.
(Blectric resistance)
prof.; TAMM, T.A., kand. takhn. nauk, dots.
floating of ooncrote rainforcomeut in the field of elactrio
conduotors. Isv. vys. achob, ZAT.; onorg. uo.4:54-60 AP 158.
(KM IIt6)
1. Moskovskly ordena lanina a-aergettaheskly Inetitut.
(luftation heating)
PHASE I BOOK EXPLOITATION 805
Kasatkin, Aleksandr Sergeyevich and Perekalin, Mikhail Aleksandrovich
Elektrotekhnika (Electrical Engineering) 7th ed., rev. Moscow,
Gosenergolzdat, 1958. 464 P. 50,000 copies printed.
Ed.: Den1cov, Ye.D.; Tech. Ed.: Fridkin, A.M.
PURPOSE: This book has been approved by the Ministry of Higher
Education of the USSR as a textbook in electrical engineering
for students of vtuzes.
COVERAGE: The book contains basic infomation on d-c circuit design,
magnetic circuits, inductance, capacitance and the insulation of
electrical installations. It treats the theory of alternating
current and discusses electrical measuring instruments, trans-
formers, d-c and a-c electric machines, electronic and ionic
devices and equipment, semiconductor devices and equipment,
electric devices, electrical apparatus, lighting, electric power
Card 1/20
Electrical Engineering
805
stations, substations and networks. For this seventh edition
of the book, the course material has been substantially revised
and brought up to date. In conformity with the desire of
Gosenergoizdat, descriptions of pertinent laboratory work
have been given at the end of certain chapters. These descriptions
are far from including all the laboratory course material. For
example, there are no descriptions of laboratory work in
magnetic circuits, transient processes, electrical measuring
instruments, synchronous machines, electronics, etc. In their
present form, the descriptions of laboratory work are only
Intended as a guide to laboratory practice for 50 class hours
in a modestly eguipped laboratory. With the exceptions of
sections 1-3,2- 3-4,7-12,7-25,7-26,7-27,7-28,8-9,9-5 and
10-12p Chapters one to eleven were written by M.A. Perekalin.
The introduction and the rest of the book were written by
A.S. Kasatkin. No personalities are mentioned. There are
no references.
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Electrical Engineering 805
TABLE OF CONTENTS:
Preface 3
Introduction 9
Ch. 1, D-C Circuits
1. The electric circuit and Its parameters 12
2. Conducting materials 15
3. Semiconductors 16
4. Primary cells and batteries 18
5. Work and power of electric current 22
6. Series connection of source and rece.Lver of
electrical energy 24
7. Voltage losses In conductors 25
8. Design of conduct.-ra for heat 26
9. Safety Ifuses 27
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Electrical Engineering 805
Ch. 2. Methods of D-C Circuit Calculation
1. Application of Kirchhoff's law to the calculation of
complex electric circuits 29
2. Se-ies-parallel calculation 31
3. Conversion of a delta to an equivalent star circuit
and vice versa 33
4. Parallel connection of power supplies 35
5. Nodal voltage method 36
6. Method of circuit currents 37
7. Method of superposition 39
8. Laboratory work. Complex d-c circuit 40
Ch. 3. Nonlinear D-C Circuits
1. Nonlinear components of electric circuit 41
2. Graphical calculation of single-loop circuit with
one nonlinear resistance 112
3. Graphical calculation of multiloop circuit with a
single power supply 42
4. Analytical calculation of nonlinear circuits 43
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Electrical Engineering 805
Ch. 4. Electromagnets and Permanent Magnets
1. Magnetic field 46
2. Magnetic properties of ferromagnetic materials 49
3. Calculation of magnetic circuit 52
4. Reluctance 54
5. Permanent magnets 54
Ch. 5. Electromechanical Interactions and Inductance of
Electrical Apparatus
1. A current-carrying conductor in
2. Interaction of current-carrying
3. Electromagnetic induction
4. Inductance
5, Mutual inductance
6. Calculation of electromagnetic
Connection and short-circuiting
containing inductance
a magnetic field 56
conductors 58
59
62
64
rorces 65
of circuits
67
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Electrical Engineering 805
Ch. 6. Capacitance In Electrical Apparatus and Problems of
Insulation
1. Electric field 69
2. Electric properties of insulating materials 70
Capacitance and capacitors 72
. Flat capacitors 74
i
5: Charging and discharge currents 75
6. Energy of electric field 77
Ch. 7. S-'nusoidal A-C Circuit
1. Generation of alternating current 77
2. Sinusoidal current 79
3. Average values of current and voltage 8o
4. Effective values of current and voltage 80
5. Vector diagram of alternating current 81
6. Alternating current in a dircult without inductance
and capacitance 83
7. Alternating current in a circuit with Inductance 84
8. Skin effect and proximity effect 86.
9. Series connection of resistances and Inductive
reactances 87
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805
10. Alternating current in a circuit with capacitance 88
11. Series connection of resistance, Inductive and
capacitive reactance go
12. Resonance phenomena in a-c circuits 92
13. Voltage resonance 94
14. Instantaneous and average power of alternating
current 95
1~. Reactive power and apparent power 99
1 . Conductance, admittance and susceptance 101
17. Parallel connection of impedances 102
18. Current resonance 103
19. Phase shift compensation 105
20. Synbolic method io6
21. Ohm's law in symbolic form 107
22. Kirchhoff's laws in symbolic form lo8
23. Quadripoles log
24. Laboratory experiment. Series connection of resistance
and inductance
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Electrical Engineering
805
25. Laboratory experiment. Ohm's law for series connection
of capacitance and resistance 113
26. Laboratory experiment. Voltage resonance 114
27. Labcratory experiment. Parallel connection of
alternating current loads 115
28. Laboratory experiment. Phase shift compensation n6
Ch. 8. Three-phase Current
1. Multiphase circuit and multiphase system 117
2. Three-phase system n8
3. Star connection 120
4. Delta connection 122
5. Power of a symmetrical three-phase circuit 124
6. Unbalanced phase load in a star connection 125
7. Unbalanced phase load In a delta connection 128
8. Rotating magnetic field 128
9. Laboratory experiment. Delta and star connection
of a three-phase circuit 131
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Electrical Engineering 805
Ch. 9. Nonsinusoidal Periodic Currents
1, Onset of nonsinusoidal currents 133
2. Construction of current curve from a given voltage curve 134
3. Effective values of nonsinusoidal currents and voltages 136
4. Active power of a nonsinusoidal current 137
5. Effect of inductance and capacitance on the shape
of current curve 138
Ch. 10. Nonlinear A-C Circuits
1. Nonlinear components in an a-c circuit. 139
2. Magnetic flux and emf of coil with steel core 140
3. Magnetizing current curve 141
4. Effect of hysteresis and eddy currents 142
5. Vector diagram and equivalent circuit of coil with
steel core 144
6. Series connection of steel-cored col! and capacitor :L46
7. Magnetic amplifiers 147
8. Half-wave rectification 149
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Electrical Engineering
805
9. Full-wave rectification 151
10- MUItiphase rectification 152
11. Ripple filters
12. Laboratory experiment. Characteristics of voltage
ferroresonance circuit and the ferroresonant voltage
stabilizer 154
Ch. 11. Transients in Electrical Devices
1. Law of commutation 155
2. Applying a sinusoidal voltage to a circuit with
resistance and inductance 156
3. Equations of an oscillatory circuit 157
4. Oscillatory discharge of a capacitor into a circuit
with resistance and inductance 158
Ch. 12. Electrical Measurements
1. General information i6l
2. Classification of electrical measuring instruments 162
3. Mechanical design of instruments 163
4. Ratiometers 160'
5. Shunts and instrument multipliers 167
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Electrical Engineering
805
6. Systems of direct-reading electrical measuring
instruments
7. klattmeters
8. Methods of measuring power and energy
current
9. Watt-hour meturs
10. Ohmmeters and testing of insulation
11, Frequency meters and phase meters
12. Oscillographs
13. Principles of electrical measurement
quantities
Ch. 13. Transformers
1. Basic definitions
2. Operating principle of a transformer
3. No-load transformer operation
of three-phase
of nonelectrical
169
180
182
185
lub
Igo
191
192
196
198
199
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805
4. Currents in windings of a loaded transformer 201
5. Secondary voltage and secondary magnetic leakage 202
6. Vector diagram of a loaded transformer 203
7. Reduced transformer 204
8. Equivalent eirrult of a transformer 205
9, Short-circuit test 207
10. Change of secondary voltage of transformer under load 208
11. Efficiency C-10
12. Three-phase transfonners 210
13. Winding connections 212
14. Auto-transf ormer 213
15. Three-winding transformers 214
16. Parallel operation of transformers 215
11. Core and winding design 216
1 . Heating conditions and transformer power 217
19. Transfomer cooling 218
20. Instrument transformers 220
21. Laboratory experiment. SIngle-phese transformer 225
22. Laboratory experiment. Three-phase transformer 227
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Electrical Engineering 805
Ch. 14. Induction Machines
1. Induction machine design 229
2. Rotating stator field 231
3. Design of stator and rotor windings 233
4. Concept of electrical degrees. Winding factor 235
5. Electromotive forces of stator and rotor 236
6. Magnetic fluxes of an induction machine 237
7. Rotor current 239
8. Vector diagram of an induction motor 239
9. Transformer equivalent to an operating induction motor 241
10. Electrical energy balance 242
11. Torque 243
12. Equivalent circuit of an induction motor 244
13. Mechanical characteristic of Induction motor 245
14. Slip-ring induction motor (with wound rotor motor) 248
15. Motors with skin effect 250
16. Methods of reducing starting current of squirrel-cage
motor 251
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Electrical Engineering
805
17. Speed control 253
18. Power factor 255
19. Losses and efficiency 256
20. Induction motor operating as an electromagnetic
brake, induction controller ai,d phase shifter 256
21. Induction generators 258
22. Single-phase induction motors 258
23. Laboratory experiment. Analysis of a squirrel-
cage induction motor 261
24. Laboratory experiment. Analysis of a wound-rotor
induction motor 264
Ch. 15. Synchronous Machines
1. Basic defInItIons 266
2. No-load generator operation 271
3. Armature reaction 273
4. Vector diagram of a synchronous generator 275
5. Generator losses and efficiency 276
6. Generator connection for parallel operation r
7. Starting a synchronous motor 278
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Electrical Engineering 805
8. Electromagnetic moment of a synchronous machine 279
9. Synchronizing power and moment 282
10. Effect of excitation change 283
11. Synchronous motor characteristic 286
Ch. 16. Comutating Machines
1. Importance of the commutator 288
2. Basic parts of d-c machines 288
3. Operating principle of the commutator 290
4. Drum amature, lap and wave windings 291
5. Electromotive force of armature 292
6. Braking moment and torque 293
7. Armature reaction 293
8. Commutation 296
9, Classification of d-c machines according to method
of excitation 2019
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Electrical Engineering
805
10. Separately excited generator 301
11. Shunt-wound generator 303
12. Series-wound generator 305
13. Compound-would generator 306
14. Parallel operation of generators 306
15. D-c motors 308
16. Shunt-wound motor 310
17. Series-wound motor 313
18. Compound-wound motor 314
19. Motor-generator for converting alternating current
to direct current 315
20. Rotating regulators (amplidyne) 316
21. Rotary converters 321
22. A-c commutator motors 323
23. Laboratory experiment. Shunt and aeparately excited
generators 327
24. Laboratory experiment. Analysis of a shunt motor 329
25. Laboratory experiment. Analysis of a series motor 331
26. Laboratory experiment. Amplidyne analysis 332
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Electrical Engineering 805
Ch. 17. Electronic and Ionic Devices
1. Development of electronics 333
2. Classification of electronic and ionic devices 335
3. Thermionic cathode 336
4. Two-electrode tube (diode) 337
5. Diode parameters 340
6. Tri-electrode tube (triode) 341
7. Triode parameters 345
8. Multi-electrode tubes 346
9. The cathode-ray tube 348
10. The phanotron 351
11. The thyratron ASA
12. Operating principle of the mercury rectifier BS
13. Ignition and exaltation of the mercury rectifier 354
14. Multiphase rectifiers 355
15. The metallic mercury rectifier 356
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Electrical Engineering 805
16. The Ignitron 359
1
. SemiconducV6r diodes 360
4
1 . The semicopductor triode (transistor) 366
19. Semiconductor triode parameters 368
20. Photocells 370
Ch. 18. Electronic and Ionic Equipment
1. General concepts 375
2. Electronic amplifiers 375
3. Vacuum-t~ibe generators 380
4. Triode transistor amplifiers 382
5. The photo relay 385
6. -ray oscilloscope
Cathode 3
Ch. 19. Electric Drives
1. Development of the electrJc drive 388
2. Classification of electric drive operating conditions 390
3. Selecting motor capacity 392
4. Selection of current and motor type 395
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Electrical Eng~.neering 805
Ch. 20. Electrical Equipment
1. Electric-arc quenching 397
2. Automatoic circuit breakers 397
3. ControllerB 1QQ
'
'
4. Contactors ~0
0
5. High-voltage circiAt breakers 401
6. Relays and relay protection 4o6
Ch. 21. Electric Lighting
1. Develqument of electric lighting 4og
2. Wantities and units used in lighting engineering 411
3. Sources of electric light 414
4. Illuminating devices 421
5. Ba31c requirements of artificial 1.4 gting 424
6. Distribution of 11.ZhUng 427
7, Methods of calculating 3-luminanae 428
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Electrical Engineering 805
Ch. 22. Generation, Transmission and Distribution of Electric
Powqr
1. Construction of ele,,tric power stations in the USSR 432
2. Voltage in power station networks 436
3. Electric power station loads 437
4. Classification of electric power stations 438
5. Electric power systems 444
6. The atomic electric power stations 445
T. Classification of electrical networks 448
8. Calculation of electrical loads on conductors 450
9. Design of 8-c conductors for voltage loss 451
10. Design of three-phase current lines 452
11. Selectionof conductor cross-section for heating and
selection of safety fuse links 454
12. Materiala and structural components of retworks 455
13. Transformer substations 461
Alphabetical index
AVAILABLE: Librar-j of Congress
Card 20/20
JP/jmr
11P_7/58
ANDREYEV, Georgiy Favlovich; ANDREYEV, Sergey flikolayevich;
BOODLYUBCIV, Valentin 7evgenlyevichi BURDAK, Nadezhda
Mironovna; ZHUKHOVITSKIY, Boris Yakovlevich; ZENEKE,
Georgiy Vasillyevich; KARAM, Ruben Iosifovich; LEVITAN
Semen Arkad'yevich; MMIN, Aleksandr Andreyevich;-
NEGNEVITSKIY, Ics:Lf Borii3ovich;,.EI=ALINy4likha-1-1-----
_Ajokaundr-aviobi-POLIVANOVp Konstantin Mikhaylovich, prof.,
doktor tekhn.nauk; FRIDKIN, L.M., tokhn. red.
[Problems of theoretical principles of electrical engineering;
theox-I of networks)Zadachnik po teoreticheskim osnovam eliktro-
tekhnik; teoriia tsepei. (By]G.P.Andreev i dr. Moskva, Gos-
energoizdat, 1962- 159 (MIRA 15:12)
(ilectric engineering~* (Electric networks)
KASATM., Aleksandr Sergeyevich;.PERrbX&LB,-1413Lba4I Alf.-kiqvwdrnyjqb._
[deceased); BULGAKOV~ V.A., red.; DORMOV, II.I., tekhn. red.
[Electric encineerincl Blektrotekhnika. lzd.S.~ perer. Iv4skva,
Gose onerg, izd-,ro 1961, 459 p, (MIRA 14:9)
(Electric engineering)
( e00, 'zn A ~-j /'~') . /)
NASATKIN, Aleksandr Sorgeyevich; PERMLINg
DSWOV. Ye.D., red.,- FRIDKM. A.M., takhn.red.
(Electric engineering] Ilektrotekhniks. Izd- 7., perer. Moskva.
Gos.energ.izd-vo, 1958. 464 p. (MIRA 11:7)
(Electric engineering)
S/O 54/61/000,/001/0021(':;08
BI 17/B203
AUTHORS: Mityureva, 1. A., Perekalin, M. M., Terentlyev, 1. A.
TITLE: Two-nucleon problems withsomiphenomenological meson
potential
PERIODICAL: Vestnik Leningradakogo universiteta. Seriya fiziki i
khimii, no. 1, 1961, 19-24
TEXTs In the present paper, the authors discussed the two-nucleon
potential obtained by Yu. V. Novozhilov and I. A. Terentlyev !Ref. 3t
ZhETF, 36, 129, 1959). This potential was modified by using ;he Lorentz
trantformation instead of the Galilean transformation. The authors
attempted to compare the theoretical conclusions with the experimental
data. The potential was tabulated, and the-proton-proton scattering as
well as corrections with respect to the magnetic moment of the deuteron
were calculated. The calculated values were compared with experimentel
data. A consideration of the formulas for the potential showed that they
were very extensive. The integration in finite form cannot be made.
Numerical computations are necessary. Such computations were made with a
Card 1/3
Slor 61/000/010-1/D02/005
Two-nucleon problems with ... B117-,YB203
,lCTPEAA1# (Strela) computer, and potential tables were compiled. The
formula for the 6 33 phase written down by Anderson (Ref. 6: H. Anderson.
Proc. of the Sixth Annual Rochester Cooference, Intersci. Publ. N. Y.
1956) was used for computations. On the basis of these computations, it
is possible to compare the relative notential contribution due to the
exchange of a meson with the potent'.al contribution due to the exchange of
two mesons. The minimum value for R in the tables was 0.4. In most cases,
the main ;ontribution to the potential is supplied in the initial region
by the tfrms dependent on the cross section of thelrNscattering (usually,
W is pirticularly large). For spin orbit forces, for instance, WL
6o L 60
(isotop.1c triplet) and W 6 (isotopic singulet) are particularly large.
The spir irbit potential is the fa3test-dropping part; for R >2.5, it plays
the role of a very slight correction. It had been shown earlier that an
aoymptotio Integration wita poaaible in the formula for the LS potential.
This may also be applied to thi statio part. Calculationa ohowod that tin
asymptotic expansion for R >2.1. was justified. 19he proton-proton scattering
was chosen fo.- checking the theory, since a great number of accurate
Card 2/3
3/054/61/000/001/002/008
Two-nucleon problems with... B117/B203
experimental data were available for this case. A comparison of
calculated and experimental data showed good agreement with the theory
for energies of 18 and 4G Hev. As was expected, the agreement deteriorated
at higher energies. Finally, the authors investigated the LS forces und
the magnetic moment of the deuteron. When calculating (AA)LS' they
neglected the contribution of the wave function of the D state& a pheno-
menological wave function with the following parameters was taken for the
S statet probability of the D state, 4%; effective deuteron radius,
1.704-10 -13 cm; radius of the nuclear core, 0.5610-10-13 am. This gives
a minor positive correction (&P")LS - 0.00207 nuclear magnatons. Thus,
the probability of the D state increases by 36 %. The authors thank
Yu. V. Novc?hilov for conducting the work, and I. V. Mukhina for making
a number of computations. There are I table and 16 refere*cest
2 Soviet-bloc and 14 non-Soviet-bloo.
Card 3/3
MITYUPM-40 I.A.;_FmK&mv H.M.; TERDWIEVP I.A.
Two-nucleon problaw wIth a endphenomenological moon potential.
Irest IAU 16 nooO-19-24 161. (MIRA 14:3)
(Nuelsona) (Protone-Scattgring
AUTHOR: Perekalin, S. (Kiyev) 85-58-7-8/45
TITLE: His~ozr,~scaol~Duzty (Yego K,-)ns,-)n,::;l'Fjkiy dolg)
PERIODICAL: Irz?yllya rodiryo 1958, Nr 7, PP 8-) (TJSSR)
ABSTRACT: The a,-,tho):- repoz,".'s on the record by
Korzf;omol r-ember Anatoliy Che.-~r~ysh:vv as ptkblie
parachute jumping and glid!j).g,, who alse. .:-:?ks in "s- fittIng
shop at the Darnitakiy vagonoremr-n-Lnyy zav. (Darnilsa Locorict-1--
Repair Placnt-). Pere fnna lit 4-6 s Mx~zv;,-i--nad in,:l"-,;."-: the M--mb-- z-,q c f
Z,. . , , I - ? lf.n~
the DOSAAF plant cncmenitt~~-esMikhai" Mazover, public
radio operating; and N. Bogodellnik, M. Fasvwk, G. Za-zenk-,v. and
I. Lyakhovskiv. There a)'a 5 photographs.
Card 1/1 1. Parachute jumping-U,56R 2. Gliders-Pe--formance
PEPMALIN, S.Wyev)
Eonorable title* Kryl.rod. 13 no.7:2n 162. (MIU 16:2)
(Kiev-Aeronautica-Societtes, ate*)
PERIOCALIP't.-S.- .. -
I
They are meeting the requirements for the nodal "Rea4y for
antiaircraft defense." Voen.snan. 35 no.1:30-31 Ja '59.
(MRA 12:5)
(Air defenses)
PBREKALIN, S.
For the rule of the Sovietel Visiting sites of the October
battles in Moscow. Kryl.rod. 8 no.10:20-21 0 '57. (MIRL 10:10)
(Moscow--Revolution, 1917~49211~
FIRMALIN, S.
Rural defense groups need practical help. V,)en.znan. 34 no.11-25
N 158. (MIRA 12:1)
(Air defenses)
Tireless propagator of aviation. Kryl.rod. 8 no.1:8 J& '57.
(KM 10:5
(Aeronautical societies)
FIRMLIN, S. (UMPgrad).
The,
glory of those dpve will not cease. Kryl.rod.7 no.11:3-4 N 156.
(KLRA 10:1)
(Rusmin-Revolution, 1917-1921)
PARIDIalf S.
------
Pars,chate tower Instructor. Kryl.rod. 7 nvAtI4 Ap 056. (NW 9:7)
(Parachutists)
Subject : USSR/Propaganda
Card 1/1 Pub. 58 - 5/2o
Author Perekalin. S.
AID P - 5546
Title : An untiring propagandist of aviation
Periodical : Kryl. rod., 1, 8, Ja 1957
Abstract : The article extolls the role of the Central Home of
Aviation and Anti-Aircraft Defense im. Frunze, Moscow,
in stimulating the interest of the Soviet people in
aviation sports. 1 photo.
Institution : None
Submitted No date
Subject USSR/Aeronautics - Parachutism
Card 1/1 Pub. 58 - 8/14
AID P - 4682
Author Perekalin, S.
Title Parachute tower instructor
Periodical : Kryl. rod., 4, 14, Ap 1956
Abstract : The article describes the propaganda effects of properly
operating parachute tower located in a public park at
Dnepropetrovsk (Dnepropetrovskaya Oblast', RSFSR). No
factual data of interest. I photo.
Institution : None
Submitted : No date
Perekalin, S., (Lt Col) - Author of article, "On Innovatore and Conservers from
Glavvoyenstroy," criticizing the Main IdmWstration for Filitary Construction
(G.lavvoyenstroy) for shortcomings In Its program for exploitin.-, inventions and
Innovations. (Krasnaya Zvezda, 14oscowp 18 Apr 54).
-
-
-
0=
0
00
1
11 W is '4 it 0 PP& ilia Djan minna.m; ji U it W As ft v is 30 a 43 41
If Lt-A-3-1, 00 441 CC VP 0 4 1 f-t 4
mil thawlal Primp"O" of 00 "66raimm-
.
f "O
f th
f
l
d
A
"
i
1k
o
s
i
o
MM "
y" o
p
f1
l
V
Il
l
ft
d V
k
li
A
r
K
-
.
cir
.
.
ova
ol
s an
.
s
n
i
-
401 IMT),.-A, -
W. (U. S. S. R.) 4. M5 -00
in IbW ol Ger. Pals. &W 210.10117 ww
tioetl In the pirnin. of 6 rorw corArnmetion lotinhict% In the
40 flulwww wits of the poweal txy RiMCollo Clli~Csllj-
.00
00 NUR t1a - 2.1-nsphikinak- (1). arill (Ili
"
106 '.
arki ArCHCO~Rt (111)). To this ew, 0.01 n%A.,4 j'
i
V
7
-00
00 diantl
ttioduaremit (I
-dkx=bwAvoftuxw (V) and
). 2.
2.7-diamiDCADDrecol (VI) Witm ntu" with 1MV "WA. "99
of tbr wid &M 50% caceso PCI6 in 25 S. p-C.ILCh -n =90
mob"t For the coodcaution of IV with M 65 cc.
~
(W
h
l
IV
d 1
$
A
d
0 . w
lk.
r3w
vrot was ow
.
t
em evicripi
an
.
vy
'
"
1
irr,
(7b-#X) vicid) IV and 11, in. 2
appircis 21011
0`144
l 1
V
R)
,
aro
, mi. oppins
,
,
0
P
i
)
(20.5
vn. U
,
ld VS &W 1, m. app,
m
4
Cottoo mat"'a improx"Ated with tinar cvmpdt. &M
n a**
a Id v*h the u%W diatiotimed amims, (up to 17 *to
cocipoomis xv. tested) Pvc various sh%&$ of ClAors
r*vXi4g firom yeDow tkyoush nd to dark blue, Tbrw
il compas. TXM ix ftbormiltrity and lbrif dytinp ill the 0
~~texmftyo hanew to light and other dnk*blr propertielt
Ntip;.~,-nl AS &W its dffiv*. 71w tiartmW ropertin zoo
of kbir;~ conipda, diviint firtim the IV to VI with the V
j "Vs. acrupying The Inteffnediatt polition. Approx.
5 10cftntes. Chas. IDIAW -
00
.
I L 6 017 -1,01KAL
00
In L
a If it tx
ej
to 4D
000 0 9 00 00 so 0 0 0 P 0 0 0 0 0
0 0 0 0 0,0 0 0 * 0 0 0 0 0 0
PMEKALDI V V. V.
"On Azo-Dyes fl-om 1.5-kft6rjaphthdl and some Of its Derivatives. I. Yono-Azo.-Dyes n-=,.
125-Aminonplithol." Porajy-Koacjjjtz,, A. Eet PoraV--Koachitz,~ B. A.* and Porokalin, V.__V.
(p - 446)
SO: Jowmal of Gen-eral ChemiqtU (Zlmmal. Obshchei, Khimii) 1945.. Volluae 15, no. 6.
and a= dyn d the bapbownO VDVP, V. V.
pereb4i" and M. V.Savuel'ya"Ova. 1wjj,A*"..1Vaak.
S-S S.R.. Srr, Pos. 12, W-01(1948).-Atourpt ion spectra
of ii vapblbskme cmpds. (of whkh M aso dyes are n*.,j
s)mtbrlk products) were measured with a ?Wktran
WtImplolovorter. 71W dyts Indicated In the paper we:
2- and 4-pbtIlylARO-1-
rapbtW; 2-. #j-, and
2. and ackl:
2-and &61;
wid. All the
products *bow the abort-wavt mulmi of the tuphthatent
Mol. One shart-wave am. Is owst.; another shifts as a
function4anbstilationVoups. Thereisa"maln' '22'
in $be vWbk re&-~)v it the dyn. "finj its position _;.Mhti-
.f pli
RIM The poitimou oil this am. is buiependrnt I
ortblydrozycimspb. 116"nWn"max.isnotcharac.
lerblic low the *a* poup but Is dot loan interarlitmol the
Met) lp"ap with tbr naphlbakne suckus awl wMe Sr,jup;,
futheNOTCOM-4y"a It handmAy-e%itt. S. 1,4k%Wrr
PEREKALIN, V- V.
"Certnin Anom"lous Cases of the Reactio.% ~3etweeh Amino Naphthol 5ulfoacids and Dia~o
Compoupds.,' Thesis for degree of Dr. Chemical Sci. k%b. 24 -Yeb l9L:q, Inst of Organic
Chenittry, Acad Set USSR.
Su=ary 82, 18 Due 52, Dissertations Pregented For Degrees in Science and Engintering in
Moscow in 1949. From Vechernyays. Moskva, Jan-I;c-1-949
j
Ck
ik4.lw.--Lm
-,
~11
, 1. -
tswoodr.
a
bsuds 2 Wx
~~Z* an sbwt
'1 18.1
210 00 "a 9j~-~
N.... IL, the 24
w 2 new
:=-- I is b"&
we 3eD a
423msdwomps-~',
1140
Dol,mminstiom Cd LobiLmtdvtww b~~" btod. V. V,
"rickaliu (Imn%ovet Techuol. limt 011ISFA), /4m,.
ob,h,krl Whim. (3, Gvw Client.) 21,
Litrtatuir renew of lake /wmaheis in 4tdvijtic
tv"Is. Actual of poteutiA off troups (15 trIctearm). It is
tvocludrd that ability to form intiallic lakes in the f4mily
of 110(or num vAMy ainino)compis. havinjr in the oFtboor
1101i puaAkm. Umbe virctrillhilic oup (CO. '%*:N', etc.)
(It III AillhAtk COSUIXIS. hAV1011 06UCV foupt Its the
flous, jituves thAj the 1(rt coullmls. III 1114-or 1*111111CI haVV 14 11
bond wilhin Me mo).; the lake formallart thus Is a qU41. felt
gar 11 bonds. NI, 90alamoly
;Gillet) its
h-aluillullailAA ind
Ato dyos hom 11
jvqives. 1. Azil n Phthol, V V.
r .." 1-1 1 1
.111if N
.11c! h in 'ell. Cliclu
21, Mir 1. C..I 42, of 12.25 g. I
linml. 2-a i it I folla I'll I hi 1clic lis the Na Wl to US g.
it) 0- So' yields I
Ktill .it 1 -,19)1 and ftv~imi for 74truitt. at 27
i
ultrt ustrai treatillf lit '10%
11
I;j inin. if 10 1,?' %%!ill 100 ml. 11.1 W PhX.Cl; run
)pt. formut,' lit I hr.. Ust after 24 lirs. 0.1 g. fivv- plit. wash
I 'rom (be AvOlf M-N.
ft)rjacd itleatleal with that Isclatt-d fly
Ihi,4, j
difil. with 1120 UlA mutralization with I(ItzeN
after tr4uralion Ailh 110% 'Nuoll, '0111, ill 10%.11C. NuOll'!
rtrid zicidiflealloti. m. 176' (front PK!, - 1010; tile dye tornis!
structiurt: ii
Riv" red-hrml it V.)III,
(, i.q. XaOll,
F:,Ip;l hol (if) in,n), fit
ill ale. N.1011 alift gIvel) hIlle ill ~'ollcd. I Redurtinn of
-lit the prrmltl(:t tvith
tile flyc will) zil-liezM! nud freatnit
pliet1withrenequilmlic and NOISO. gar.-, 8-hydroxy,
Yellow, n), Xxi* (front I'llcl).
ifil siot Ile diazotii~-fl tior did it react with pit-
The ilve co,
halic 'uuhYdrid: on ~aincltitisr. Whr:i I was coupled with
I'll NXI al lit I ' 5 (1070 1 M I ~tnd I lie preAlucts wt-te It i-ited
v; aLm)vc, there was Z4)taitv~-tl !67,p 11, while the alkalitm
ltratt - lot Wt 10(~
oil dculifivatt. I IV) 0AcOlt gave 44c, 5-
rl. 17,1* Yrom,61m, (in)
lit,'hell entip1mg was run at pil A.5 In Nu0Ac-I0% _11cl
- 73"a 1~1 w= Miami. At pli It In 10% NiOlbthei
k-o4iing fc-ti to 8150 dye, iwNtrif byarldific"tion with 10% 1
AcCA i, which after purification gave 50% pure In, whfle,'
ejpol. fraedoll. After ferllt". gave a Small Rtrimlill of
I I.
.
0: front fill
willi IM, I.
'tri,ent of %( , 0
japhlbill, 111, ~ I ... 1. .00 1
_,,jtN0, I' -n 4-be mu. flea 30-1 -1 -1 .ttter.ne
-oupling with, I
, or ITI'i;i lict milli L 01n .0 .5-hrtrunt
tiol- . II - I. II , '~. I
%vith M'DAC, give 144'-ft'll
Jill, (rLd Iii 1 0 i9l-
t lit 1,.f,l 'W(l. It -re
< ), TO,vInle
glecu it, cl)"Cal. liw(
-ith ttlulmolar al"Ott"t 0
usloi of It, j,.jrVxy_:-na1,1jAY1-j
brom, it' AcOll). P
phtildic nby(JljjIc. gilve -bell Ill Wm
- -rtxl. , Ill: 0-i' .%% .
l1aillif arid, 11rown j)ver 2
PhOl, -Ith I,hN:C.l at P11,11 it, i,!i()II
).1plell vi .[or llictl 71
C(' stirrilliz) fliere tilts
at G-50, and 4 firs.
%\"tell Ill was cutilik(l 91111ilaril,
ated I-ttlicillioll. Pill, filtrate glivc 'Jill
I,
It-$ lohNiel, acidirict,timl (If
2 WO i.%olated AtttlapteA
trat.!e 1 111, while 28 71% IV
It PhNjCI it, rtjOll lit it,, 116ellce
colutiling of 11 wit alill 11 wits recovered; the Ita"le re
O.Nn save no reactiOll Tile unusitm
5A kcl. Pyrid"le.
it wait obtained
f 11 " -%ell bli, ? 11 bonds sitilizing t 1e s".
sit . - nil
properties 0 c L Ind N ittoll's Of the 1170 grolll)-
stainit of Off i1nd Nil' C%f jtj~,.. Ni-1011 wit
irnn, of 11 iq tile mme lit MIA Or I
lit blimis ab%, tillx- ut tlok
t ititatit 6W in), ''Itax. fit
iar~e 'It %. a IV gives
1' ' and b20 nit' ill 91 K
r~oLjtjojpialln Etoll and MO nip. in M011-NaO
A** 4y" ham 11,414WA~PbIW and ib dorips"Voit.
I A*&4 :.04ndop"Ipbl" V, ~',AlvuWlbrr
&Vol N X, ml=vkhava (Ixnw,wirf lliof~~hlul , oxil.
. C", Irssm. it, 10MOM(IOINII
t ).-,Set C.A. 45. gr74f. 11. 204911M
"Wook A" of loamlbablph6w UM #We em-
pawds. V. V. IspirkAfin Awl L, N. Kfwxmma. fbid.
I 2M, 0$7 - v--r t* A 45. 10,W)l It R,
mpbod"O Mies. V. V.
0!, LI-0-ft Twbw. lost.. ad I, -Mr-
(JI. *,bm
1031); c1.
_CW11mb-
WA"kumb ex tbr MMA"ty so tbr 11
mum gi I $Io --)I, in tbk ortims,
P" to The 110 symp dropo" Its, " bond
Ya" d"s of Ibr bapbIbblew
MUM" fampy. Tibr
of a rep-hic-44. wo Ibr
60m'i* Imb- Of Am and *am, d6aftV.
"'Ofth-SOl'b" 6 X IP-Al amt 1.4 X w0
2 ' In'", 1-ftwbtba
X I"'* &md g X lo,#
mew XA X 10-m
2 X ()-@SOYA 2.., X
wM &II&SM 90' m-I 2 X So-)-; 64.11,M1,
iseMona_4 10-*ood 7.4 X IW 94; "Almir aMY^U* 2 X
10, &W f X I0- Km 2 x
to -s siv.1 4.7 x to-
x 10-1 mut 9 X AW"i
watlonk mW 4 X 10-13, and 3.3 X 10-~'; &vhmrWv-I,b.
mW 2 X 10-0 &W 1.2 X I0-
um 2A x 10-11
UM 1.6 X 10-11 " 4 X 10-10;
ek " 2.5 X 10 A X III d-
mftuv -0 stud
ac4d 4 5C fit-"
ArA 3 x lvt
AbLid JA x 10-4 md 1.4 x 10-11.
will 1.3 X 16- muil 2 X 111-; 2,&
It U61 b x 10-1
acl~.J 1k 10-0~ ancl
IA x 10-0 wo
Amv ve I"= JA*Uwft*m~*O me am~ so Im doo
dpop B."m W &,k wiftel 2 W M!
AM "Wrombb. V. V. I PAAW immw xamo.
KhAm. ( J. Gtm. Cbrm,) It. I ~IWIUSO, cg C A 4S
W74/.-A"S.d to 14
11,N), WA Itkyw 4 bm gave 651" so-dmi*06
Njpljpv~r OIW. Which h powly Sol % illo, &n4
00
the S-WIVOU tuij Obaln. Wvbtrd as t1w Se Mb, )y
ad A the who lkw. Wonalion at 2114D,
sad 33%. ". Heat tbe 54mma with 2D%
a st"m brab 211 bro. IPMAnnimormphibol. thus
abe anucum; the 74mumm h stalik ianda shot.
ism. comp"s of the 5, 6, Mo 7-Saverar W14b
dam &I vw~m PH Web: 2.5-8.0, 4.8-5.0. 8.2-
12D. &M4 I coupring of at
3.4. 114-
"n '.-
PH 2." "ZIN p'. 9% )-(Lnwwsv)-
6" 6 a Ocii. a* amm fm=ing in 83%
an gwopling at pil 44-60. dw ptvd-1. a dark brona
"ibi wbob abs. mu. &I Aw amp. In the biter caw f0mi
a)M with a ka mol,
", vbtx~md ho &I% *)a io coupling at PH 12; This ma-
%mrW bu ibc abs.'smax. at BID pro. Ndiber could be con-
w" to a 46mm d~T. The 1-bammucam desiv. afteff I*.
dorlive wkb-Zu dr" 4" OtORMm"
PW 1~000 Will w1111 FAMAU 94 pil a gave
With Sba.. am. at 4w No. &VA 11% b" ad T
&Wb. JXW, Wkb SbL SMAX. -M SOD -0- Rfd-
JW- Wkb h"
ONK GM& wAb
Addn- of PbNa to 11 at pil 12 bsyr
eftiom W-3-vaVook ski In 45 ykid; abs. on. not
dttd. owtht= soy. M also P. a" cou 0114.
oWfonk at th IbNsO at It 12 in 87 yk-02d does
so mop)c with a wcmd :z .1 Pb%," C.Plial IT
k ocW with VbNjO &I PH 6 wavt 46% 1 bommaimpt
mOrt abl. in en-91. wft &be. Imal. 49D mo. aml 13%
54MWSIM *?*-. With Vb*- VAN- OW VAP- The latter
torn" In 7" YkW 04 C,=P%nX at PH 12. wbDe reductiom
of She formw Moord by tmtj t with pbrmwllxt=
I'ZCmouppb%= =tbe I * ask W-7-val
artly. with PhN 1 .61 Oll 12 pvt
swimvm~)xWA4-7-sm1fpmk *M. in 71
bmsene:m d"Iv. (&Wd to cml>lr al
vullomic " eiv" breal" 113.4
sivn Wr&U st 5.7 =91.
xvmw):,8-
wbik the b-
ration of 141-
10.9: the 7.
bl.