SCIENTIFIC ABSTRACT PETIN, G.P. - PETINOV, N.S.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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D2S6/D308
AUTHORt Petin, G.P.
TITLE: In',restigation of a transverse current
tuDe employing a flat helix
PERIODICAL: Haiiotekhnika i elektronika, v- 7, no.
19S2, 1946 - 1952
TEXT. The purpose of th,- paler is to analyze theo-
retically the behavior of a transverse current tube first des-
cribed by D.A. Dunn et al. (Proc. IRE, 1956, v. 44, no. 7, 879).
The electron bean pasaos over the surface of a flat helix. The
circuit is skewed, i.e. there is an angle >. between the axis
(direction of the be&,a) and the turns. The analysis is based -
partly on the known properties of the propagation of slow waves
over a developed tape helix and partly on the equations of a
companion paper by the same author (Radiotekhnika i elektronika,
v- 7, no. 11, 1962, 1)41). both magnetic and electrostatic focus-
ing are tr&ated (the latter is solved ordy in the approximation
Card 1/2
S/11)9/62/007/011/006/012
Investigation of a ... D26,,/3308
without space charge f;_elcls) and it is s)io,,jn that the interaction
is of the same type in both cases but ap.)r,aciably larger for
electrostatic focusing. It is also shown tnat oscillation on the
forwitrd wiLve io poosib".e. :;iricu the diiip-trqion of the funaamental
forward wave of a helix is much lesq than that of the backwarci
space harmonics the frequency of occillati:)n is less dependent
on the d.(.,. voltage. The output power can also be expected to be
a slowly varying funct:Lon of Irequency o:.,i account of the smaller
change in voltage and of the saturation prDpertieo of the tube.
The stabilitzr of tne transverse current rackward wave amplifier
is better than that of the conventional )ne but care must be exer-
cised to prevent spurious oscillations on the forward wave. The
author claims that his method could be aAcceasfully applied to
the analyGiS of other 310W wave - transverse current interactions
provided that the role of the non-synchr)nous space harmonies can
be neglected.. There are 5 figures.
SUBMIM,Dt December 14, 1961
Card 2/2
PETINP "2.P.
Analysis of a self-matched soluti)n for a transverse-currezrit
tubs. Radiotekh. i elektron. 9 no,.6:1086-1087 Je 164.
(MIRA 17:7)
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tlektron
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7-4 ~y
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~Z__ Omos ctron nit -direction: ith ol,
i Ate',theoretically considered. The' .1
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XV
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BOCH&K, Aleksandr Pavlovich; GRIGOROYEV. Vissarion Visearionovich;
DUBININ. Aleks,3ndr Iosifovich; WWYM)XV, Vaeiliy Pedorovich;
FMOV. Mikhail Kliment'.revich Ee.eceasedj; TANKOVICH, Vladimir
Nik:olayevich; -PETIN, H.I., red.; TIKHONOVA, Ye.A., tekhn.red.
(Marine practice] Morskata praktika. Pod obahchei red.Y.N.
Unkovicha. Moskva. Izd-vo *Hornkai transport." Pt.2. 1959.
418 p. (MIRA 1):1)
(Navigation)
GOLOSSM, Anatoliy Dmitriyevich; PZMOT, Alsksay Ivnnovich; MIN. K.I.,
red.; TIXHWOVA. YB.A.. tekhn.red.
(Handbook for pilc)tsj Spravochnik lotsmana. MOSkVO, 12d-VO
OHorskol transport," 196o. 163 p. (MIRA 14:1)
(Pilots and pilotage)
GANOV, Anatoliy Grigorlyevich; AVIRBAM, Hikoley Vladimirovich;
HATSITTO, A.F., spetered.; MIN, red.; LAVRBNOVA,
:9.B.. tekhn.red.
r
Location by radar in navigation] Itipollzovania radiolo-
[
Imtsii v sudovozhdonii. Moskva. lud-vo *Horskoi transport,*
1960. 232 p. (MIRA 14:2)
(Radar in navigation)
GRIGORMY. N11colay Loontiovich; PLTIN. M.1., rod.; TIKIIDIIDVA. Yo.A..
takhm.red.
[ Hyd rau I I c 9] Gidravllka. Mosima, Ivl-vo "Mornkni trawiport,"
1958. 119 P. (WRA 12-2)
(Rydraulics)
MIRA""
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84-58-1-32/32
AUTHOR: None given
TITLE: flew Books (No-,rrje knigi)
PERIODICAL: Grazhdans-kaya av-iatsiya, 1958, Nr 1, --a 40 (USSR)
ABSTRACT: Five short revi,~ws of the followingbooks:
Gillyardi, 14., Ked morem studenym (Over Icy Sea3). A story about pilot Safonov.
Voyenizdat, 1957, 304 pp-
Gorin, B. Mi., rndikatorn,, dallnosti (Range Inlicators) (from the series "Radar
Engineering"). Voyenizdat, 1957, 87 PP.
Mlokanov, G. F. Uchet vetra v dallnikh poletz-11 (Wind Computation in long-
Distance FlJ'ghts~- Voyenizdat, 1957, 174 pp.
Pavskiy, A. G., Radiodeviatsiya (RrAio Deviattor.). A manual for navigators.
VoYeaizdat, 1957, 74 pi...
Pasha, P. S.;j!jtPaj. F._; Shcheglov, I. V.x Ispollzovaniye aerosaimkov
(Utilization of Aerial Photog:rsphs). A textbook. Voyenizdat, 1957, 2511 pp.
AVAILAME: Library of Congn!as
1. Ll tera ture - USSR 2.
'Card 1/1
AoronautJcs bibliography - USSR
11 - I'I'll 1; 11
PISHA, P.S., polkovnik; _12RIUr-H.Y., podpolkovnik; sHCM1A)V, I.V., polkovnik;
KW)RYAVTSEV. M.K., general-leytenant te-khnicheakikh voyek, red.;
DUI:ACHEV, M.P., podpolkoynik, red.; 15010MONET, R.L., tekhu.red.
[Ue,e of serial photographs for military purposes, a textbook]
Ispollsovante aeroanimkov v voiskakh; uchebnoe posobie. Moskva,
Voen.1zd-vo H-va obor.SSSR, 1957. 2511 P. (MIRA 10:12)
(Photography, Aerial) (Photographic interpretation (Military science))
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S/139/61/000/002/014/ol8
(3,00S. //.3 E032/E414
AUTHOR: -Pe-tin. G.P.
TITLE: On the Theory of Ferroelectrics of the Barium
Titanate Type
PERIODICAL: Izvestiya' vysshikh uchgbnykh zavedeniy, Fizik~i,
isift, No.2, pp.125-131
TEXT: The present author discuss s the properties of ferro-
electrics of the barium titanate tkpe using a model in .-rhich it is
assumed that the number of covaleni bonds between th(- titanium ion
and the O:Kygen ions may vary from zero to 2 and 'the number of
covalent coordinational bonds may vary between zero and 6. Eacl-.,
elementary cell is assumed to be cubic and indepen,'ent of its
neighbours and all the dipoles are looked upon n- rigid. The
energy of a dipole in the internal field is tak-n in the form
U -PP (1)
and the internal field is assumed to be of the form
P OP + YE (2)
Card 1/9
!5/139/61/000/002/014/018
On the Theory of Ferroelectrics :"032/E4i4
where P is the dipole polarization due to the preferred
orientaTion of covalent bonds, E is th, average macroscopic
field, and 0 and y are constant!,,. -able 1 shows the various
possible states of the lattice. The symbols used in this table
are defitaed by
P
KT
KT
pF.
xT
T
mT
where y is the energy necessary to change the ionic bonding
into covalent bonding. Assuming that the distribution over the
Card 2/1) 1
S/139/6i/600/002/014/018
On the Theory of Ferroelectrics E032/E414
states is described by the Boltzmann law, it is found that
2 e0 A t4- (4 ch 71+6 Ci A E
PX =: JVP (7)
3+e"4-(cht+ch-q-~ch~)e,0+4(ch~~ch7)-f-chteliC ~ ch-qcK)
Pv=Np - 2e* shq 1. 4 (cht-Fch Ci sh 71 - (8)
3 1- e1--1- ((:hE+chj+cK)e*+ 4 (ChP ch7i I CM 04 rchl~ c14)
2e* sh C + 4 (ch E+ch -rj) sh C
P, Np
3+e2*+(chE+ch-q f-chC)eO-1-4(clilch7i-FchZchc-~-CI)7~(.;I:) (9)
where N is the number of elementary cells per unit volume.
It follows from Eq.(2) - (9) that
Card 3/9
21519
5/139/61/000/002/014/ol8
On the Theory of Ferroelectrics E032/E414
KT
E- T
,vp2p Np~
2 e0 sti E1- 4 Why, i OC) shE
3 1 eI* -HOR I. clij I chC) e* I- 4(c)iE cliri cjE clit cil n CIIC)' (10)
xT
Npp -Y
2e*sh-n + 4(chE+chC)sh7j
3~-e2*-F2(chE-I-,--fi-ii-chC)e*1-4 (cIi'ccIiq+chE cIiC+cb-qchU'
NpIp N
pp
2e* sK+4(chE-j- chi)) M
3+e"-f- 2(cht+chj-j chOeO i-4(cliEcti-q-1-chEchC~-cli-qcttl.)'
S/139/61/000/002/014/018
On the Theory of Ferroelectrics R032/E4i4
where N is the numbor of elementary cells per unit volume.
Eq.(7) - (12) determine all the dielectric properties of the
ferroalectric. They can be used to obtain the spontaneous
polarization and the Aielectric constant in the case of it ferro-
eleciric spontanepusly polarized along three, two or one axes.
They can also be used to determine the dielectric constant above
the Curie point. Consider the last two cases in greater detail.
On substituting n 0, sh chl 1, we have (I=p& 0)
KT T SK
)
(13
1
Npl~ NPA A+04
I
'CT 2e*+4 (1 +04)
- t. (14)
NpIP NpP (2e*j-8)(A-!-chQ
SK
P, = Np (15)
A+chC
2e*+4(1+chQ
P, NP
OrO + 8) (A + c h
3+ (e0-1-2)2
Card 5/9 A=
(17)
*
2
.
e
+8
21519
'3/139/61/000/002/014/018
On the Theory of Ferroelectrics E032/E414
From these equations one can obtain,tho spontaneous polarization
PZ as a function of temperature by putting EZ W 0. To obtain
the dielectric constant one uses Eq.(2) and Eq.(13) (16) and
also
dA,
(20)
dE
P. = PC + 1.). (21)
PO=aF (22)
from which
KT (A+chQ('2e*+8) (23)
Np2p 2e*-t.-4(1-j-chQ
KT (A+002 (24)
Np2P I+Acb~~
Card 6/9
21519
S/139/61/000/002/014/oi8
On the Theory of Ferroelectrics ... E032/E414
where PO is the "nondipole" polarization and c0 = I + Wray is
the dielectric constant at absolute zero. Fig.2 and 3 show the
spontaneatis polarization and dielectric constants as functions of
temperntUre for barium titanate. The points are experi-ntal
and the curves theoretical. As can be seen, reasonablc
agreement is obtained.. Similar agreement is found to obtain in
the case of the coercive force and the infrared absorption
spectra. The properties of other ferroelectrics of this type can
be described by choosing different values of 0, y, n and tp.
There are 3 figures, I table and 5 references: 3 Soviet and
2 non-Soviet.
ASSOCIATION: Rostovsk,.y-na-Donu gosuniversitet
(Rostov-on-Don State University)
SUBMITTED: April 11, 1960
Card 7/9
PITIE, G,F.
Missaring countIng-rate ratloo Frlb.1 tekh.ekspe nc-1;4a-5v0
ja-P l6o. (MIU 1316)
1, lostovokly-na-Donu gosudarstvemyv universitet.
(Naclear counters)
83153
S/106/60/01 5/009//'00:~/O'D a
B002/BO67
AUTHOR; Petia. G. P1, Yember of the Society
TITLE, -cascade Amplifier With an Increased kmplification
PERIODICAL: Radiotekhnika, 1960, Vol 1), No,, 9, P.. 54-56
TEXT, The au",hor demonstratos that the amplifi~-.ation coefficient of a
cascade amplifier can be increased by 2-4 times by applying an addition,11
anode load (R..,) to V, provided the anode load of V 2 is much higher than
its internal resistanre. Thecretically, the fc1lowing amplification
coefficients were obtainedi
Y
K +~12) R V 3
R R R 1+42 V2
.(1"' +(1 4p, 4 R
al Ra2 2) a2 a2) K
Here, 410 P21 F: 1 and Ri2 are the static amplifica- ~Ij 4-
tion coefficients and the intErnal resistances of
Card 1/3 1
.fF
83153
Cascade Amplifier With an Inzreaijed 3/1 08/6o/O 1 '-,/Oo/C)o"'/OUf1
Amplifiefition B002/BO67
the first an([ the second tr-ode The band-width may be calculated from
the following expression. Ril RK
f I I + - 1+ Hal
C R R
+ R
R i2* + ~12 )Ri 41) 24 Ra'
Here, C denotes the total shunting zapacitance at the V2 anode. In order
to obtain a maximum amplification, the following conditions hold for a
given band-width. 1) Ra2 shoild be as large as possible. 2) R,,, should te
large; however? it should not considerably in--rease Ril in order to avoid
a decrease in the anode curront, This may be attained by applying the
operating point at the beginning of the decrease in the anode characteris-
tics of the triode and by us.-ng a small grid bias in V, (ug = -0,5-1 0 V)
3) Ri2 should be aS small as possible to keep the g-rid bias small for a
given Ra2, 4) RK must be as small as possible. Figs. 4 and 5 show the
results of measurements in aL ordinary cascade amplifier, a pentode
amplifier, and a two-cascade amplifier with a double triode, It was
experimentally observed that, compared rith an ordinary cascade amplifier,
Card 2/3
83153
Coacade Amplifier With an Inoroased S'/10
Amplificatioi.,i B002YB067
the set noise level decreased by about 2 decibels, whereas the
amplification coefficient rose by 7.2 decibels (by about 2-3 times). The
fundamental shortcoming of cascade amplifier with an increased amplifica-
tion coeffic~Lent is that the undistorted output voltage is only low:
For the circuit diagram shown on Fig. 3, which was used for the
measurements,, it is 10-20 v. There are 5 figures and 3 references: 2
Soviet and I US.
SUBMITTEM January 20, 1958 initially)
April 1, 1959 rafter reviijion)
Card 3/3
AUTHDRs Patin, G.F. , Flember of the Asecclation JOY/ 108-113-7
TITLE: Relaimtion Generators and Rela~mtion Relays Using the Circuit
of a Pilo-, Relay (Relaksatsionnyye generatory i relak-3atrillonnyye
rele s ispol'zovaniyem skheRy sledyashchego rele)
PERIODICAL, Radiotekhnika, 1958, Vol. 13, Nr 7, pp. 43-46 (USSR)
ABSTRACTi The particular features of the circuit of a pilot relay are well
described (Refs i and 2). The circuit-.state Is a function of the
voltage U at the grid of the first tube. In the concrete circuit
of a pilot relay there are two threshold 1ralues of this voltage
Ul and U2; in the case of U > U, the first tube conducts and the
second is barred. With U< U2 the first tube is barred and the
second conducts. With U2 -,- U < IJI the aircuit has two stable
states: either the first tube conducts and the second is barred,
or vice ve-sa. If the latter condition is satisfied, the given
state of the circuit is retained. The circuit can be com-eyed
from one state to another by an external impulsa from the tube
Ll to the anode. - The relaxation generators vilth rectangular
Card 1/2 and linear sawtooth-like voltage are, investigated. By varying the
Plelaxation GeneraLtors and Relaxation Relays
When Using the Circuit of a Pilot Relay
amount of one of the circuit resistances these generators assume
the properties of a relaxation relay with stable state and
generate rectangular pulses ancl/or pulses of the linearly de-
creasing voltage. There are 12 figures, and 2 references
which are Soviet.
SUBMITTED: Ootober 4, 1956
ISSOCIATION: Vaeso)uznoye nauchno-tekhnichesko-.ye obBhchestvo radiotekhniki i
elektroavyas! im. A.S. Popova (Al-l-Union Scientific-technical
Association for Radio Engineering and Electrical Communications
im. A.3. Popov)
1. Relays--Circuits 2. Relays--Performance 3. Wavef'orm
generators--Performance
Card 2,/2
I
PEIV I Nt P.
Relaxation oscilIntore rini rplaxaticri rplays utillzir.- th ir
4
of follow-tip rqlbys. Radiotnkhiiika 11 io. 7:43-46 J: '58.
( Imu :
1. DiystvItqI'ny3, chlon Vutvrcyu-,noro !ii~ticfino-tnkhnic-ho~nl',opo
obshch.!5stx,n radictnkhniki i elFktro9vy;3Ei im. A.S.Pooova.
(Oscillators, 2ae.~fron-tube)
AUTHOR: Petin, G.P.
TITLE: A Stabl
'--~-EY-ectrc,nic Ti,~,,~- Relq,7 (01~,~bi I'noye el(.-~tror.:~oye
rele vrereni)
PE RIG DICA.L-. Pribory i TEkhnika Eksperimenta, 101;'/, 11o.41
p.100 (USSR).
ABSTRACT: Electronic tine relays described in literature (Ref.1)
have an instability of the same orcile.- as the changes in the
supply voltage. Inprovement of ti-eir .,iorking by stabilisi.-IF, the
charging voltage leads to complic&.ted circuits. T1.e searcl , for
a simr-ler solution to this --,robler. led to the desi n Df a new
circuit using the -ropertie's of a SclLmidt tri6jer Npfs. ~ 7).
The operational threshold voltaCe V C of the Schinidt trigEer
is, to the first approximation, prcportional to the supply
voltage Vc = kVo I and tLerefore the circuit oX the electronic
relay designed froz the Sch.Eidt trigter (FiC.1) will mark off
time intervals which are prPctical ly 4 ndependent of the suPP1Y
voltage Vo I since T = RC 1n V o/ V -V - RC In(l
0 c
Ap7mximate calculation Shov:s Uat:
Cardl/3
A Stable Electronic Time Relay
R2 R
k
R 1+ R 2 + Ro
where 11 is the amplification factor of tie valve. This
e%-pression can 11-e ised for calculation of ti-,e value of RC
v:'.,-ich is necessary for obta4n*n,: a :iven tiLle interval T.
u - aiff~rin~--- fro:-, the ex7-ciimmenta.l
Emd (2) Give a res lt
by not more than 10 - 1%. U~i" ,
jeor normal viorkinE of the Schmidt trig',l-,erl it is 'is -1 -LY
sufficient to put R 1 2R 2 )R3 ~ R45 Rl >> R3 ' T!.e val'!es
of the resistors R 3' R4, R, were chosen dependin,:- on the
oiDerating current of the electromagnetic relay- It car, 1-
s~-own that the current flo,.,Jnf- h-rDuCh the of the relay
is) V7ith sufficient accuracy, deternined by:
V R-
0 7
CDrd2/3 R 5 Rl + R 2
A Stptle Electronic Tim- Relay.
The va-lue of the resistor R must be such tl~&,t f31- a iver,
anode current, the anode volta.~e -of --fte valve JI p en-=~re6
that the valve will work with a si-,all grid bias. A-risin,,, from
these premises, its value can be chosen by usin.:-_- tl.e valve sn,--de
characteristic.
The tf-me interval chan,e r,~Iative to tl.e cl.,ince of tl,e su-,rly
voltatl,e (FiE7.2) was used for cleci-in,- the s~al,illty ~f "he de,,I-
cribed electronic time relay: Rhen the sup7ly vD.'ta-.e chanc-es
I - - e s by � 4~6 .TI-e circuit ves
,y + 20%, the time interval cl.ano
b 0
tire intervals in the ranE-e from 0.-, sec. to several
This is a complete translation.
There are 2 figures and 3 Slavic references.
A,3SOCIATION: Rostov-or;-Don State Univci-sity irien'L V.I. Mol-,tov.
(Rostovskiy-.ia-Donu osud!IrL-tvei-uay~i ui.iversitet im.
V.M. Molotova)
SUBYITTED: Fpbruary 2'1, 195~-
AVAILABLE-. Ubr~-ry of Con~_ress
uard 3/3
69076
530o S/12o/6o/ooo/ol/oll/051
AUTHOR: E192/E382
TITLE: Measurement of the Ratio of the Counting Rates
PERIODICAL: Pribory i tekhnika eksperimenta, .1960, Nr 1,
pp 48 - 50 (USSR)
ABSTRACT: The I''ollowing device is proposed. A circuit with two
stable states is actuated by the pulses from two sources
and has the property that it can be returned from the
second stable state to the first one only by means of a
pulsis from the first source; on the other hhnd, only
a pulse frow. the second source can throw over thg circuit
from the first to the second state. Consequently,
whenever a pulse from one of the sources is followed by
a pulse from the other source, the circuit will change
over from one stable state to the second one. If a pube
from the first source has thrown the circuit over into
the first stable state, the circuit will-persist in thi-q
state until n pulse appears from the second source. Thf!
average value of this time interval is IV, I ' The
Cardl/4 average value of the time during which the circuit is
69076
s/i2o/6o/ooo/oi/oil/05l
fIR2/E389
Measurement of the Ratio of the Counting Ra e
in the second state of c~quilibrium is -IOP2 The probability
of the circuit being in the first stable state is expressed
by:
P (-t + Y-2
while its probability of being in the second state is;
P2 = 12/ Or, + t2 ) (2) -
Now if the anode current of the first tube of the circuit
in the stable state is 1 01 and the anode current of the
second tube in the second stable state is 102 , the
average anode currents can be expressed by:
II PI1 01
Card2/4
12 P2102
(3)
(4)
69076
S/12o/6o/ooo/ol/oll/051
E122/E382
Measurement of the Ratio of the Counting Ra 8
If the pulses are statistically distributed, the average
currents can be expressed by Eqs (5) and (6), from which
it is seen that they are dependent on the ratio of the
counting rates of the first and the second source. Since
ilt is more convenient to measure the voltages rather than
currents, Eqs (5) and (6) can be written as:
U1 U01 /(l + n2/nI)
U2 U02 PI + nI/n2)
(7)
(8)
A simple circuit based on the above theoretical
considerations was constructed. This consists of three
SAimitt trigger circuits and two germanium diodes. The
circuit is illustrated in Figure 1. The first two
Sdimitt triggers are connected to the pulse sources
()11and n2) and act as pulse shapers. Sharp rectangular
pulses are obtained at their outputs. The third trigger
Card3/4 I
69076
SA206o/ooo/oi/oil/051
fl22/E582
Measurement of the Ratio of the Counting Ra e
circuit behaves as a system vrith two stable states.
The above circuit was tested experimentally and its
results were compared with thoae o4tained with two different
computing circuit5. The pulse sources in this investi-
gation were obtained from two Geiger-MUller counters
operating at the rate of 12-240 pulses/sec. The results
are shown in the table on P 50. It is seen that the
a-ccuracy of the device of Figure I is of the order of I
to 21%. There are I figure, I table and 2 Soviet
references, one of which is translated from English.
ASSOCIATION: Rostovskiy-na-Donu gosudarstvennyy universitet
(Rostov-on-Dgn State 11nivi-r-Rityl
SUBMITTED: November 21, 1958
Card 4/4
4/029
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element, ~- a~pl.-Led field, 't vector -'r~.wn
arnit.-LLry poirt to e :)oi z-.t of obs,~--v~,tion. As~;*,=.in,
in ti.e form
-t
j (wt-j(
n '7
e
a.-, _4 sub s t t i ,-,I,:- i t i n0 -`0 . th,2 f 0 110 V1 I nc, c I-,-_ C t r C,
equa-.ion, is
2
v
(w - k
v
w
(W 2
+ j
)(W + 2
w ~.j
r 0 en M n 0
where w redL~ced plas;--ia frcquency Civon by the
e n
cyclotron frequency. The triv-~al sol.;.ticr. w - knvo 0 de-.Urn:inin6;
i.,.e synchronous .,iaves occurs only W;'er %,n s nerrien., 4 c-,~'- ar tc
i
Tn the
In r-eneral, Eq 1 et'
_q,--n be solved by xr-merical L,
sDecial ca, kn-L ]T, B = 0, however, analytical soluticns
cies
Card 2/4
D2 6 6/:-) 32
cc-n 'I-e cb-.ai-ed. T"ie pLra-..e,:er s freql,~Onc:y :'z.c-
~0-) is t`.e ai6 of electrostatics
U-V
sheet beL::-. ir, :-.~Iee sT~ace
2 -knb
Sn = I - U 9
(2b is lllc viidt~, of b c, a::', a bear: but'..,cen
clDr.ductors.
-1: b
S- e e (22
(2a e v; t; n e s
or a -ua.:-, of
s S e un 0 0 n I f in f r S t r o:, i 10 1'.
.%.en a-nd subs i d in-.c (2'5), -,-e o b a e d E_
t.',I.a-. of P. ParZE!n. There are 0' references: 3 SovieT-bloc ar,4 3 non-
Soviet-bloc. i:he reierences to -Lhe Lit lish-l-onguaFe -juc_:ca-,_,_ns
r'ard 3/4
.;LLVU S r. ellectror. flow
.read as f o.L I o v,, s : D a, i n e I
Sic- J.
Phy s 2. 2 2, 215.
U 3 1.'- 1 T , TD June 14, 1961
S/10-
L 2 6 2
I
r z
Card 4/4
VEY frNER-DUBb.0VIN , L.A.; 072IFTSOV, F.F.; ~Tlrll;, 1,M.; TIKHOV11COV,
L.P.; GULEVICH, I.D., red.; CUPAYEVA, R.I., tekhn. red.
[Military sports contests in w-iits and subunits] V0,31mo-
sportiviVe sostiazaniia v liodrazd9leniiakh i chasti; me-
todicheskoe posobie. [By] L.A.Veidner-Dubrovin I dr. Mo-
skva, Voenizdat, 1963. 133 p. (1-111RA 17:2)
7.UBXOV, Aleksandr Yenellyanovich.; F%TIN. V.).. red.: LAVFX!ioVI, U.B., teldal.
red.
[Yorechating the veather at sen -,n thr, tinfila 6f loct.1 ftlgno) Prf,,i-
sk.A2nrile pogody na more po mest%yz priinakam. Hookys,. ltd-vo
'Flonkol transport." 1958. 85 P. (MIRA 11:8)
(Weather forecAsting)
1. rOW~MIK, M. ~;.: L-VTNA, 7ETV!, N.11,
2. USSR (600)
"The Question of the Passiveness of Iron - I. The Kinetics of the Dissolution of
Iron in Nitric Acid. Zhur. Fiz, Khim; 13, No. 3, 1939; Lab. of Chem. Kinetics,
Moscow State Un1v,; Rcd Y Ju1Y 1938 11 'j.-
9. 4W Report U-1613, 3 Jan. 1952
1. A1ITSHULER, O.V.: ?:O?*.OVALOVA, B.A.: PETIN NA',
2. USSR (600)
"The Heterogenous Catal.ysis of H202 by Means of Compoitnds of Manganes," Zhur.Fiz.Khim.,
13, No. 7, 1939. IIGU, Lab of Kinetics and Catalysts. Received 2 Noveinber 193'-".
9. M Report U-1.615, 3 Jan. 1952
U~
"The Question of Me of i,irt 11. ";eric);lic
lhenomena on the Pounclar., (granitse) of Iron -- `Lt.ric Aci~, .,olut,lonr,."
zhur. Fiz. Ellb-, 701. 14, 110.
00:
sea
-Pod" 4i
--mAtiaw 0. r. I. rkyl. Ck-.
~U-~kgVftj AC 70-7(19W); d. C. A. ON SM.-TIM
suls. of ft to HN% Of vwwm =,s==aa. tht
mm kupb cl IM pilft'lon MOKMO.
gym 7.6 to IOA N. but I. ZF46 .9makm
vwiw from 10 "1 vals. at a 0 at 10 M. I hkkw
flab an tm F*41N(h bouad" ant O-Un al G.U.
-0.14M at 7A. -0.1111 al 8.0 and +0.M at L2.A N.
p%_rmwgwm b dm to the comprillim "I H ard 0 for
If.
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lp a p 0 a a Tll-T
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PIK
Oz
Y i_-;
At softie sylvass-i-
-00
lee
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Pei)
woo)
met)
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00, lb
we 0
Use
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Old IL V.
goo am
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('Arms Hall.. 1941.3AN-N7 LAN& t4oatt, wlarch
'M '
Will oral 11,0. anti the electric conductivity of the co-existing
lavers.. &IV "Wexur"I The intrelarial imsion I.wturen the layers
Increases with the cmits. of Na cleate althomlih the Intwit4lity
int trAor* a. well 1. 1 it
If-0, -06 0 0- 0-4-4-e-0 0 0 0 0 41 0 0 41 0 0 0 0
cm 'T
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at 1.4 qrspu vim
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gin" tv" P""w"
4m wmw2 to Owtu of
mm" "Wkq
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FETV) 1~1. .!.
*A contribution W the problem oil the (,ffect of several catalysts u-.on T..*--
in homogeneous medium. H. Catalysis of hydropen peroxide In the simultanrou.,; prer-ence
of sodiwa molybdate and wolframate.11 DoEdanow, G. A., rz.nd Pptin. 'I. if. (P. 390)
SO: Journal of General Chemistr (Zhurnal Obshchei Khiraii) 1942, Vol 12, I!o 7-;--'.
0,1111 1111 04 a so 0 *too
610 *--
jp; P 0
A J L L, 0 0 A A No 44 ud to 11, 1.,
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00
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lnilw-&Iytican-empa..It.ctxtlpfI Inthept ~
t-I C-506 sio" NftMo% the" w, Mmlly IJot.,j -00
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J 111AN1144-AWPIPM. by C119% Wood Natmoo., 1,11 b
UP to tl.(JIXM .%'. C
a Z=b julm 6.00
wIV to 6 In 00.0a4
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ft .
of rola ly small "m tomemstra.
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,"bto dism. 110, 0
% " comen. Tu ro-liomi mt# is inflipmeva by japlial
fifth cmm. MA bYcoams-Olfbetwoc'W"D. Tit", 190
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NS'UuO- MA I*() with CWSCki in I be pt,%,,
stok ((W 4-pn. All of tbrw p"AucjsUvy to fors~tit see
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"a"-:004 Lnd %S-,,under con,;it4ons of a rel:~tivel~r 10~~ ronce-ltr;t
BcCdanow, C. A., ;r,,,-; Lttln, 1. :,. " ;, . ', 17 )
SO: Journal of General Che-iistry (Zliirn-d Flhirlli,' 1-1,-2, 7,-):
III en Ildv
of a
VW, wo CA watIM117 Dfcompwaft of
t VIM,
an clum D-1 . 'onovalovA.
""1-2 A~2!
-Pah-gisplayl N . N. Ancurtava an . N, F. Pro 19.
".. ~U,.P 0
Filpf. R1.10 S. S. U.) I ;it; VMICM; cf. C. A,
:bcr Cu nnr W salts alont exert catalytic
effects on tht tk-compn. of 11102, flitir Tnixts. bavi; a strong
C-ffcct but only vrhen one -,%It 1% first uctel upon by the
IIA [;fore the other Is addcd. The rractiim velocity is:
linrar function of acidity. Since lite Cu qalt shows
max. effect nt 0.12 runle/l. for Wh the HA demnpn.
as well as the (Iccompla. of pertungstotc. it Is quImMed
that the mcchnnisin of miction Is, repmented by the
equatiom for a catrflyfic renction: 2N1a1WO4 + IIA -
NasWA + 2NnOII, 2NnsWtOa 4- 21130 4- (CuSO~) -
2Na,WO, + 211,NVOi + Ot + (CuSOj) t,nd CuSO, +
(Nn,WO,) -2r-uSOj
4- 2140 + Ot + (NaiWO4). It. it. R.
MIN, V.
.- -- Bloctric forge. WS 18 no.8:45-46 Ar, '58
(Solder and solderins) (MIRA 11:9)
PERGAMENSHCHIKOV,
A pair of laminating linear surfaces. Trudy TA 160:558-(~!,
~1"-?-A 1711:1)
L 12986-6 EW(l)/JWP(q)/E~T(m)/BDS AFFTC/ASD V'/JD
ACCIMSMU SM 9,13002991 Sj2927/62/MO/=/OI 1810121
-nko, S. I., Yjarkova, V. W.
AUMOR: Ge,.iLsi=. Petin, Yu. A.
MTIZ:
DiMLsior, of all from In into evaporating silicon [Reportof
ain f I IMS
the AnAlnimi Cortference on Semiconductor Dev'Res beld in TaBbk-e-nT Tram 2 to 7
Octo'ber 196117-
SaMCE: E1eItromno-dy*rocb=y*ye perekhody* Y poluprovodnike.%h. Tashken-It, Izd-Iro
TJzSSRj 19% 118-121
ITOPIC TAGS: :silicon p-n junctions., silicon mIumbium-diffusion
y the diffas method has been
ABSTI.RACT: PrDaucing p-n junctions in z:Uicon b.
tecbnologicalLy difficult because both accWto= und-d"o-n-or-s-Ra7ve low diffusion
coef;!ici6nts. An investigation is described of a new method of diffusion of A3
Ix~tvo n-type BI eIrIM
porating In vacuum, Al-sprayed Si ssrTles vere heated in a
Lite cb=l)er up to a difTusion te=_Oratwo. 3t '~= Tound that the surface
conce.,ntration'of Al vaa frm 1.5 x 10 sup 17 4x 1.0 :c 10 sup 18 per cubic am and-,
the 3ste of SIL evitporation. vas O.SS Angstra" per sec al. 12=. The diffusion-
v=eeled 61 =Lrples Imd a specular clean surface. It is claimed that the
-diffmIon-q3rocess Raraneters can be easily estinated. and that the process in
readily con*AW518.
qdi)ry of Sciences 55SR
-*sp; I.nsltv of Automt AC,
M Tashkent St. Un
Acade7v of Sciences TJze'3R.,.,
rM
ORZHESHKOVSKIY,- V.V.; PETINA, L.A. _
Combination of rheumatoid arthritis with silicosis (Colinet-Zaplan
syndrome). Sov.med. 26 no.6:126-127 Je 162. (MIPA 15:11)
1. Iz lochinskogo nauchno-issledovatellskogo instituta kurortologii
(dir. - zasluahennyy deyatell nauki prof. M.M.Shikhov).
(ARTHRITIS, RHEUMATOID)
(LUNGS-DUST DISEASES)
AKHYMMIXOV, Yunus Akhmetzyanovich; E~fjNjk, L.V., red.; SOKOLOVA,
A.V., red.; RAFIKOV, M., red.; VIADDURTSEV, V., red.;
TROFMATA, A., teklm. red.
[Tatar cookery]Tatarskie bliuda. Kaziml, Tatarskoe knizhnoe
i:5d-vo, 1961. 127 p. WIRA 15:12)
L Chlen TSentrallnogo kul-inarnogo so-;eta pri VinisterstvE,
torgovli RSFSR (for Akhxwtzyanov).
(Cookery, Tatar)
PARRA, I.E:.;; PETINA') N.V.
Au-.omated cathodic .protection staticn. Gas. pr.-cu. 7 no.3:46--49
16;!. (MIRA l7s8)
--nT.I.NA, N.- T. ---
HiDthod of calculating a satu nealing process
table reactor for the an.
controller on a drawing mill. Avtomat:Am no.4:32-36 160.
- (MIRA 13:11)
1. Institut alektrotekhniki AN USSR.
(Magnetic amplifiers) (Wire drawing) (Automatic control)
f)I-/I ~j ~,# f/ , ~t 1, 1
WINAP N.V..
- - - - - - -
Automtic current regulator for a copper wire annealing plant [with
mtrma7 in DnglIsh]. Aytomtyka no,4:13-20 157. (MMA 1l:,. )
1. Institut. elektrotekhniki All URSR.
(Electric controllers) (Copper industry)
V
8(2) FflM I BOOK H)UWITATION SOV1395
Ivakhaeakot Aleksey GrIgorlyevich and Nina Vladimirovna Fetina
Stabilizatoinj napryazheniya a kombinirovannym upravleniyem (Voltage Regulators
With Cozq)lex Control) Kiyev, Izd-vo AN UknLinskoy SSR, 1958. 243 p. 3,000
copies printed.
Sponsoring Agency: Akademiya nauk Ukrainskoy 13SII. Institut elektrotekhniki.
Deep. Ed.: Chumakov, N.M., Candidate of Tecbxiieal Sciences, Ed. of Ptiblishiag
House: Yjkzant.sev,, B.A.; Tech. Ed.: Sivacheako, Ye.K.
PURPOSE: Tbe book is intended for scientists, engimers and technicians, in
particular for specialists in automatic regulation and those concerned vith t)ie
applications of magnetic amplifiers.
COVERAM: Tbe book briefly describes the theory of automatic regulation
complex6culti -loop) systems (regulation being triggered not only by deviation
of the controlled variable from Its nominal value, but also by the primary
disturbaace and its derivatives).
Card l/ 7
Voltage 1:1egraators With Complex Control SOV/1395
The inveatigation of transient operating conditions made earlier by A.G.
Ivakhnenho (taking into account nonlinearities of the amplifier) permitted
the general conclusion that in complex systems activated by disturbances and
their derivatives, the transient and steady-state errors may be entirely elim.-
inated if the system accelerations do not exceed a certain value. Another prr-
reqaisit4t for the complete elimin tion of error consists In the recurrence of
the saw form of the transient. The eystem ahould be such that the same dis-
turbance under the same Initial conditions will always produce the amw trano-
ient wit:h respect to shape and amplitude. Otherwise, regulation with inputs
consisting of disturbance functions and their derivatives will in one procees
diminish the error and in another increase it or even change its sign. Basic
theoretical notions on steady-state conditioas of complex systems were em-
ployed in the calculation of magnetic amplifier parameters. The authors
describe various types of voltage regulators currently used by consumers of
electric power. The advantages of complex automatic control systems are pre-
sented In the works of Academician V.S. Kulebakin, B.N. Petrov, G.M. Ulanov,
and other specialists. Two booko by A.G. Ivakhnenko are devoted to this sub-
ject. 9he present book covers the problems of practical application of these
systems to&-evoltage regulation for maintaining a stabilized voltage at the
point of delivery. According to N.M. Chumakov, editor of the book, the authors
obtained new results both in the theory of complex systems as well as In the
Card 2/ 7
Voltage ILeg%lators With Complex Control SOV/1395
development and practical application of new types of voltage rego-lators. 'Ibere
are 68 references, of which 63 are Soviet and 5 Fxglish.
TABLE OF CONTENTS:
Foreword 3
Introduction 5
Ch. I. New 14ethods of Calculating Parameters of' Complex Control Systems
Containing Magnetic Amplifiers 7
1. Brief information on the theory of complf!x control systems 7
2. Limitations in existing methods of calculation 21
3. Special features of the new method 2L,
4. Selection of limiting conditions 217'
5. Simplified method of calculation with a 31Dgle-locip eyatem of'
equetions, 30
6. Simplified method of calculation with a double-loop system of
eque.tions 34
7. Procedure for calculating the parameters of a ccmplex system
(methods of adjustment) 5~5
Card 3/7
Voltage 11egulators With Complex Control SOV/1395
8. Examples of calculating the parameters of autccatic ct-ntrrol SYStA-MS 79
9. Method of precise calculation with a do,ibLe-loap system of equatior-s 46
10. The most accurate and objective method of calcrlatlDg parameters
with a multi-loop system of equations 48
11. Calculation for maxim= power amplification with constant load re-
sistance 50
12. Combined application of the simplified and precise methods of cal-
culation ~_T
13. Procedure for design of systems with an Intermediate magnetic
amplifier 62
14. Procedure for calculating parameters of systems with a transformer-
type amplifier 64
15- Plotting characteristics of a choke-type magnetic amplifier 79
16. Plotting characteristics of a transformer-type magnetic amplifier BO
17. EvaluatIng the results of calculation from the standpoint of the "sta-
tism coefficient" and weight. Problem of system selection 8o
18. Experimental method of determining rated values of voltage and
load of magnetic amplifiers (no-load and rmyinrm saturation method) 81
Card 4/ 7
Voltage Regulators With Complex Control SOV/1395
Ch. ZI. Voltage Regulators of Bwartional PasWw Action Withimt Servomotor 86
le 'Desigmatiod 4nd bri6f clabsification ofa-.e~ voltage regulators 86
2. Mme basic methods of connecting a mgnetic amplifier to the load 88
3. Voliage regulators vith a magnetic amplifier connected to a power
transformer 90
4. Calculation of parameters of a regulating sys-wm for basic variants
of the measuring part of the system 102
5- VolIAW zvgulators with booster transfonners in which the prtmary
winding I.s fed through a magnetic amplifler 120
6. VollUW jvgulators with preliminary Btepping-up of voltage 131
7. RegiLlators in which the primary circuit is fed from a stabilized
voltage source 144
8. Flegalators with parallel connection of magnetic amplifier and
tmasfonoer 11P1
9. flegalators with shunting of magnetic flux 145
10. Voltage deviation measuring unit with frequency tripler for three-
phase regu.Lators 147
11. Basic c3miracteristics of complex control regulators under steady-
state conditions 153
12. Stability and high-speed action of regulators with complex control 157
Card 5/7
Voltage Regulators With Complex Control SOV/1395
Ch. ITI. Proportional and Relay Voltage Regu.1rtors With Servomotors 1.62
1. Voltage n!gulators of proportional-position action with a servomotor ).62
2. Autonatic current regulator used in annealing of copper wire a.65
3. Basic properties of proportional-action regulators with servo-
motors and trends of their future development 173
4. ApplLcation of regulation based on derivatives of primary disturbances 1.74
5. RegulAtion based on derivatives of primary disturbances together
with a forcing circuit 1.82
6. Calculating characteristics of phased amplifiers 1.87
7. Calculating amplification characteristic of a cathode follower 1.92
8. Relay-action voltage regulators with servomotors 1.95
Ch. IV. Relay Voltage Regulators Without Servomotors 207
1. Relay regulators without servomotors 207
2. Autanatic relay voltage regulators for small-size power trans-
form~rs 210
3. Irreversible control systems (calculation procedure and test results) 213
4. Calculation of power of linear and nonlinear elements for
irreversible systems 4-119
5. Reversible control systems (calculation procedure, test results) .2
3
card 6/ 7
Voltage Regulators With Complex Control SOV/1395
6. Calculation of power for linear and nonlinear elements for
rrversiblf! systems. Some conclusions 2.50
7. Comparison of regulators of various types 233
Conclusion
Bibliography
Basic &jmbole
Index of Calculation Examples
AVAIIAMZ: rAbrary of Congress
,TP/ fal
4-23-59
235
2-2;8
2~.j
243
Card 7/7
PARRAP I.):. (Kiyev); IPETINA, N.V. (Kiyev)
Automatic potential regulator *Dr Uis protection of underground
atructures againgt corroBion. Avtomatyka no,2:76-78 162.
(KRA 15:5)
(Pilmlinse-Corrosion) (Electric linea-Underground)
3/102/60/000/004/003/006
D25,1/D304
AUTHOR: Petinag N.V.
TITLE: Method of calculating a satura-~ion coil for tin
annealing process controller on a drawing mill for
copper wire
PERIODICAL: Avtomatyka, no. 4, 1960, 32 - 36
TEXT: The aUthor describes an anrealing process regulator in use
at the "Ukrkabel" works, where its viRa developed in 1954. This is
~ contactlesa controller (Fig. 1), the sensitive element of which
is a saturation coil. A method is given diragrammatically for cal-
culating the saturation coil for minimum WE!ight which leads to the
solution of a system of 9 equations. There are 3 figures, I table
and 2 Soviet-bloc references.
ASSOCiATION: Instytut elektrotekhniky All URSR (Electrotechnical.
Institute AS UkrSSR)
Card 112
Method of calculating a
Fig. 1. Copper wire
annealing controller
Legend: 1 - Variable
transformer CTD-24 (S
TE-24); 2 - annealed
wire; 3 - saturation
coil; 4 - autotr;ms-
former JIATP-22 (LATR-
2); 5 - ferroresonant
stabilizer; 0 --; fer-
roresonant stabilizer
S/-,'021601r,)CCI,- 7,1/CC
D251/D304
Card 2/2
PHc Perynnop Bi:InS.IV 14LOWO APOTY
PARRA, Irina Honstantinovna; PETINA,_N,ina Vladimirovna; MAS,
R.L., red.; TURBOOV-A, B.A., tekhn. red.
(Automatic station for the cathode protection of under-
ground metal pipelines from corrosion) Avtomaticheskaia
stantsiia katodnoi zashchity podzemnykh metal.licheskikh
truboprovodov ot korrozii. Kiev, Izd-vo AN USSR, 1963.
49 p. (MIRA 17tl)
IVAKHNENKO, O.G.-, PMj-%L.I--V- I
t~
New methods for calculatinig the parameters of an automatic
control systmm containing magnetic snp-11fisrs. Avtox4tyka nn.l:
45-61 '57. OCRA 10:5)
1. Institut Alektrotakhniki AN URSR.
(Automatic control)
VESELUV, J.Ya.; TIPOGRA.?, D.Yet.; I':-OINA, T.A.
loperld)-lun capd.ldlio (t-, prrglucer or thcrasal onzyme.
.1. m1krobiol. 1. rc).js52..')6 Ja-F 165. 011RA 1815)
I
1. Toklmologicbeskly !.rgt'-tut plahchevcy pron7shlerm,.?i-', TAor-kvp-.
PETINOV, I.A., inzh.
Conditions for the simulation of fuel injection in diesel
engines. Izv. vyn. ucheb. zav.; inashinontr. no.10:123-133
16,3. (MIRA 17:'~i)
1. Saxatovskiy sellskokhozyaystvennyy institui.
PSTISOV, N.D.; KHARANYAN. S.N.
Ane.torilcophysiological characteristics of branched wheat grown
under Irrigation. Fiziol.rast. 3 no.1:10-22 Ja-F '56.(KLBA 9:5)
1. Institut fiziologli rastenty imeni K.A. Timiryazeva Akademii
nauk SSSR, Moskva.
(Wheat)
PETINOV, X.S.; MOLOTKOVSKIY, Yu.G.; FEDOROV, P.S.
Effect of zinc on the increase in heat resistance of plants.
DdkI. AN SSM 153 no.5:121Q-1212 1) 163. (MIRA 17:1)
1. Institut fiziologii rasteniy im. K.A. Timiryazova AN SSSR.
F~mdstavleno akademikom A.L. Kursanovym.
t2j~ -T/ A/6 V Al - 5-1
COUNTRY USSR
CATEGORY Cultivated Plaa+A. L;ereals.
CABS. '70UP. RZhHol. P Ne.14, 1958, NY,). 63305
AUTI]OR -Petinov, N. 0 Volkov, 1. h., Peshakhonava, N. F.
I I'S T. ~;YSoi~,.,nce3 USaR
T Developmnt of the itoot System in Different Spring Wheat I
Varietiev Under the Ganditions of Irrigation and ApplioatioU
of Fertilizers.
O-PIG. 11M. V sbo Orosheniya a.-kh. kul-Itur v Teentr.-ahemosem.
.~STRACT loso RSFSR. V , 2, 14,0 AN &M, 195,6s 262~295
v
he effeot of irqrgation wei manuring of spring wheat
(Lyutestsuns 62, Gordeiform) 10, MDakovka, Wheat,-