SCIENTIFIC ABSTRACT NEMTSOV, M.V. - NEMTSOVA, V.K.
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CIA-RDP86-00513R001136610002-1
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RIF
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S
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100
Document Creation Date:
January 3, 2017
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August 1, 2000
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2
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
ACC NRs AT602agag SOURCE CODES UR/OOW/66/000/000/0212/02151
AUTHORSt Nestwvt IG To; Shamayevt YU15 IG
ORG: none
TITM-z ueasurement of static characteristics of Miniature cores
SOURCr-,: yse,3oyuznoye eoveshchaniya po ferritam. 4tht Minsk- Fizich6skiYe i fizikO-
khimicheskiye avoyetva ferritov (ftaical and physicochemical. properties of ferrites)v
dokl~Ay moveshchaniya. Kinsk, NWjkA i takhnikat 19660 212-215
TOPIC TAGS: memory coral magnetic corel electronio test equipment, millivoltmeters
ferrite/ XVI-IX millivoltmeterg K-222 memory core
ABSTRACT: The static characteristics of miniature memory cores were measured us' a
pulaa method. In a time interval t - I/f information is recorded in the field
Hf,,, where % is the information recording field generated by a constant current
I
source. The readout appears in the field "R created by a pulse generator whose
amplitude remains constant during the measurement process. The induction change of
the core is then given by, :680 An RC-circuit is used to
integrato the ehort-durati~m voltage pulse whoiff'amplitude is measured by an UVI-1x I
millivoltmeter. The RC-circuit and the zi,1141roltmeter are carefully calibrated for
1/2,
ACC Nib
f - 509 1009 and 500 cycles. The "static" charsoteristio of a X-222 core is shovn oa
pig* I*
Fig. 1. Dynamic characteristio of
ferrite (3 x 2 x 1-5 mm)o obtained
by the pulse method at wwims
frequenciese I - 5W cycleaq 2
100 cycles, 3 - 50 croles (T in 29M)
Ice
6
L
LM
Maximum e=ars in the inductiou weaeurewat do not exceed i 100- Orle- art- bass 4
figures and 2 forod"o
SUB COEs 099 20/ SM BM# 221ho6g/ WIG MWI 001
UICSOT M
& ugeful substitution. Okhr.truda I sots.strakh. no.6:81-&
D 158. (KRA 12:1)
1. Takhnicheekly Inspektor Stalinakoga obleovprofa.
(Diesel locomotives)
/Y2 S /I/ - _5~
135-9-20/24
AUTHORSs Yermolenkov N.P.g Poeyada, B.I., and Nentsov, I S., Eneineers
TITLEt Realth Protection During Electric Welding Operations (Osdorov-
leniye usloviy truda pri elektoroavaroohnfth rabotakh)
PIRIODICAL: "Sverochnoye Proizvodstvo-, 1957, # 9, p 37-39 (USSR)
ABSTRACTs The article discusses the harmfulness of gases and dust con-
taining quartz, manganese and iron compounds and describes
the molder's masks employed by the plant imeni Illich.
Description of several specific mask designs is' 0iven for
work conditions inside closed vessels (RR tank care), for
external work, for work on large structures, and with air
pro-heating for winter work. Forced air feed is used in
three models while in one a 50 am long hose hanging down into
clean air is utilized. The description of all masks is
detailed and illustrated. One half-mask model on a welder's
shield provides complete protection against gas and dust.
It is now series-produced at the plant concerned# and over
500 pieces have been handed out to workshops for use. It
is stated that the masks constitute a certain inconvenience
Card 1/2 to the welder and cause comparatively high costs for the
Health Protootion During Clectric Welding Operations 135-9-20/24
plant, whict could be eliminated by means of improving their
design and by the production\of masks at specialized facto-
ries.
The artiole contains 3 photogr&phog 2 sketches and 2 tables.
AVAIL&BLE: Library of Congress
Carl 2/2
ZLOSMSKIrt B.H., kand.tokhn.nauk; NWSOVt N.S.
-----------------
Radiation shielding In open-hearth furnace processes. Rezop,
(MM 24,
trada v prom. 5 no.7:7-8 J1 t61. SO
1. Moskovskiy institut stall, (for Zlobinskiy). 2. Zhdanovskir
metal-lurgicheskiy institut (for Nemtsov).
(Shielding (Radiation))
(Open-hearth furnaces)
ZLOBINSKIr,, Boris Mikhaylovich; NMSOV Niko2sy Stepanovich.-
KHMRSKATA, U.S., rekhn.red.
[Labor protection in matallurgical shops using radioisotopes]
Okhrmna truda pri lspollzovanii radloaktivnykh ixotopov v M~-
tallurgicheakikh teekhakh. Moskva, Metanurgizdat, 1962. 61 p.
(MIRA 160)
(Radioisotopes--Safety usaaures)
I
ZLOBIMIY, Boris Mikhaylovich; vigh- KULIKOV,
I.S.V red.; KHUTORSKAYA, Ye.S., red. izd-va; 0SUMVSKAYA,
G.P., tekhn. red.
fRadioactive isotopes In blast-furnace practice; methods of
use and safety problems] Radioaktivnys izotopy v domennom
proizvodstve; matodika primenentia, I voprosy besopasaostl.
Moskva,, Metallurgizdat,, 1963. 94 P. 04IRA 16-.6)
(Blast furnaces)
(Radioisotopes-Industrial applications)
MMTSOV, II.S.
,
Distribution of radioisotopes in blast fumes awltlago Izvo
vyo& uchabdi zave; chern* met* 6 no.9:20-27 163. (MIU 16:U)
1. Zhdanovskiy metallargi-,heskiy inatitut.
RA.SPO-PGVp I.V.; LUWHOVg G.G.; PLISKAMOVSKIY9 S.T.; ARTYUKROV, B.N.;
TAP.A~MV, D.A.; ARIMAMV, V.V.; Prinixelf uchastlyst ZENYUKOVp
GODMVSKIYv A.I.; LEVCHMOl, G.F.;
IZGTYAFMAg W.; GORLACH, A.A.; YAMSMHKINg re.I.
Intensifying the sintering process by air preheating and by
Improving the performance of exhaust fans. Stall 23 no.8:
679-682 -Ag 163. (MM 16:9)
1. Zhdanovskiy metallurgicheakiy institut, I metanurgicheskiy
xavad "Azovstall.0
(Sinterlug)
GUSMV, V.T., Inshener, rodaktor; TORDNOTA, K.S.; GARBIR. D.G.;
SDV FRIDLTANmaT. G.T.; KARTM. S.L.. redaktor;
'tatichnichookly rodaktor.
(Ilectric beating ap'paratus and quipment for the laboratory;
a catalog and manu&lj Laboratormye elektronagrevatellays
pribory t ustanovki; katalog-spravochrAi. Koskva, Clos.mauchlo-
takhaAM-Yo mamblaostraltelInal Ilt-ry, 1955. 147 p:1)
(HT,2A 9.
1. Russia (1923- U.S.S.R) Ministerstyo mashimostrayonlya I pri-
berestmyenlya.
(AlActric ftrnaces)
MTSOV. U.'ru., insh.
MMP
Measuring the temperature -of a moving am-face. Ihm.prom.32
no.9:13-14 S 157. (K33A 10:12)
1. Laningradekly politakhnichookly Institut Im. K.I.rallnina.
(Paper industry-Equipment and supplies) (Temperature-Keasurement)
VF'~'rl-Ecloj gy"
AUMS, 768111Y Rudol'fovich; SUCHZPXIR. S.L. prof., retsenzent- VWSOV
JI.Yu., kand.tekhn.nauk. retsenzent: GORIKOWA, A.A., veduaLRUy -rad::-
'TEO~FDiff, A.V., tekhn.red.
(Control and measuring devices; inty.,oductory course] tontrollno-
ismeritelonye pribory; vvodnyt kurs. Moskva. Gos.nsuchno-tekhn.
izd-vo neft.i gorno-toplivnoi lit-ry, 1958. 143 P. (MMA 11:1)
(Measuring instrtmants)
BZLOV, A.M.; IMMENT IYZVA, Mel. -,
ffj~_N.Tu.; WAMOVA, S.A.
Automatic apparatus for a4sorption oaalirsts of hrdro-
carbon gases. (Trudy] W NO Priborpron no*4:168-1130
'59. (4dracarbons"-Analrels) (MIRA 13.2)
Kummianme TOC6; MMSOTP SO Yao
___ ..
vatmg ammeaffAt nuffeca for the pivyomtfm of a amtroued
wt - -.for*, Tftdtr EPt noo 25IMP*34 %S NVA 1991)
BIBIGHKOV, Zinoviy Grigorlyevichi,JIEMT,;SSOV, P.F.,, red.
[Production of sliced veneer] Froizvodstvo stroganoi fa-
nery. Moskva$ Legnaia pron7shlennost', 1965. 166 p.
(MIRA 18:9)
Application of
theory of the
no.30:53-71 I
1. Kafedra geodezil Roskovskogo in
aerofot6s"yanki I kartografit.
-1 -(Wtrices) (Hathematical
theory to some problems In
of observation data. Trudy
(MIRA 12; 3)
N34TSOVI VIB.
Calculation of cy'lindrical shells. Doki. AN BSSM 9 no.10:627-6-111-
0 164. (MIPA 18.-3)
1. Belorusskiy POlitakhnichoskiy instituL..
ME14TS079 VB,, aspirant
I ~ 1114 ... - -- -
Investigating the contact between the bralce shoes and the drum.
Izv. vys. ucheb. zav.; mashinoatr. no,2:7MS 165.
(MIRA 18:5)
NEMOVI V,Do; SKIBINSK17r, G.V,; ZOSEKOVIGH, D.P.
-
(keillograph for electracheaLcal measurements. Mr. khim.
r-hur. 29 no.10-oM3-M5 163. (MM 17: 1)
1. Institut obahchey i'noorganichaskoy khimii AN UkrSSR.
ACCESSIO14 NRs AP4039403
5/0070/64/0W/003/0416/0416
AUTHORt Hemteov, V. D.
TITLE: Electron diffraction investigation of the perfection of structure in the
surface layer of silicon
SOURCE; Kriatallografiye., Y. 9, no. 3, 1964, 416 and insert facing p- 416
TOPIC TAGS: electron diffraction, impurity content, crystal surface, crystal
structure, surface layer
ABSTRACT: The properties of single crystals of Si and Ge depend not only on
negligibly small quantities of impurities but also on the degree or porrection of
the structure in the surface layer. During sputtering, the monocrystalline struc-
ture in the surface layer may be strongly disturbed. Removal of this deformed
layer by polishing and etching may introduce defects the nature and penetration of
which io not fully uaderstoQd. The author used electron diffraction techniques
to study the surface of polished and etched single crystals of Si in a manner
similar to that of S. A. Seniletoy and Z. G. Pinaker on as (Kristallografiya, 10 2o
1956). Against a atroag baokgrowd of point reflections# many of the electron
diffraction pictures showed short and weak Kikuchi liness This leads to the oon-
olusion that during sputtering individual and rather large blooks (- 10-5 CM)
Card 1/2
ACCESSION NRt AP4039405
develop,. turned (in relation to each other) from their original position in the
single crystal. The diffraction pictures indicate the presence of polycrystalline
grains on the surface. On polishing silicon, in addition to the development of
mosaic structure, the removal of small crystallites of silicon cm) from the
surface may be detected. The diffraction photographs showed no reflections from the
oxide film on the silicon surfaciep and this may be considered supplementary support
for the idea that the SiO film on the surface of a single crystal in amorphous.
2
"I express my sincere thanks to So A. Semiletoy for consultation and for his aid in
the work." Orig. art* hass 2 figures@
ASSOCIATION t Institut obahchey i neorganichaskoy khimii AN Ukr8M (Institute of
'General and Inorganic Chemistry AN UkrSSR)
SUBMrr=t 070at63 ENCLt 00
SO CODEs ECp 85 NO REP SOVI 001 OT t 000
card 2/2
ACCESSION KR: AP4011975 S/0073/64/030/001/0059/0062
AUTHORS: Zosimovich, D.P.; Nemtsov, V.D.
TITLE:- Cathodic polarization or the silicon electrode during the
electro-deposition of tin and nickel
SOURCE: Ukrainskiy kbimicheskiy zhumal, v. 30, no. 1, 1964* 59-62
TOPIC TAGS: tin electrodeposit, nickel electrodeposit, siLlcon
electrode, silicon semiconductor electrode, polarization, reatify-
ing contact, ohmic contact, p-type silicon, n-type silicon, hole
conductorS electron conductor* cathode polarization
ABSTRACT: -The polarization accompanying the electrodeposition. of
tin or nickel onto samples of silicon monocrystalas p- or n-type,
both having the same (111) orientation, either polished with boron
oarbide or etched with SR-8. is shown in the enclosed figures.,
Greater polarization is used to deposit the metals Qnto a semicon-
duator electrode than onto the metal electrode. Polarization of the
Card 14 . . . ...
ACCESSION KR: AF40119T5
mechanically treated silicon is higher than in the etched electrode,
apparently due to the presence of deformed layers, polyerystalline
poviders and oxide film. The hole-type (p-type) silicon is polar-
ized more strongly.than the electron type. In electrodepositing
nickel onto the silicon electrode, polarization of the electrode
with the etched surface is higher than of the polished, The char-
acter of the electrolytic contacts: for nickel on electron or hole
type silicon--rectifying; for tin on n-type silicon--ohmic; for tin
on p-type eilicon--reatifying. Orig. art. has: 2 figures.
ASSOCrATION; Institut.obahchey i neorganiaheakoy.khimii AN EkrSSR
(Tnrstiltute .3f General and Inorganic Chemistry AN
SUBMTrL
'ED: lOJul63 DATE ACQ: i0eb64 Eum: o4
SUB COD& PHO Wj NO REP SM C*3 OMER: 008
Card
ZOSIWVICHV D.P.;,_~E~Qyq V.D. * -
Cathodic polarization of a silicon electrode In the electro-
deposition of tin and nickel. Ukr.-khim. shur. 30 no.6&
59-62 164. (KIRA 17:6)
1. Institut obehohey I neorganiahaskol Wall. AN UkrSSRe
4~~71 K01004 lid K 9 TO 10 /Z 6 1 7J,'i6 14
D*
AMOM - 0 _V#
[A
Itut,16 f Gone a Inorpnic C e istr
OR
-rhst 66 h m _y, Acadpmy of Scienmjsssit
(Institut obshchey i neorganicheskoy khimii, Akademiya nauk SSSR)
TITLE. Phatoolectrochemica-A Study of the behavior-of p-type sillco in chloride
solutions
SOURCE: Zhurral fizicheekoY_kh4r4iL,. V_. 39t no. 10,- 1965,-2617-2619
TOPIC TAGS*.-s1licon,-photoeleqtric effect, cathode polarization, electrodepotentia
("'fA 0'e / Ddd~ ,0/- C 7 jj~'qq 0 C /'V t.T/,r/ -0 Al
-ABSTRAM.. 'In-order to determine the mechanism of cathodic reactions on silicon, thu'-
Ootoelectric:effect was measured as a function of the electrode-potential on 2-type
-silicon with surfaces of -variable finish and with the application of polarization.
Aii-expected, the photoelectric eftect was observed when a cathodic polarization was
applied, and was absent in the presence of anodic polarization. In the case of
etched silicon in nickel and antimony electrolytes (NiC12 + H3B03; KSbUC4H
406 +
HC1), a distinct minidnim of the photoelectric effect was observed at potentials close
to -1.0 V; it is suggested that this minimum corresponds to surface recombination on
t:hp- -otchad silicon surface. Tt was-found Mint-- a eh."- A--- -A . - . I -
---- -- 1. -1,-
't.-umi~-1-plg-.~ne~-eLectrodeposition- of-indium - tin,--avttimony~--an -nicke ---- d-- h-
Cawd i/2~ I,an t,e magnit
"Zill
L 36875-66 EWT(m)/T DS
ACC XR: AP6017651 SOURCE CODE- UR/0073/6r,/032/001/0020/0023
AUTHOR: Zosimovich, D. P.; Nemtsov, V. D.
ORG: Institute of General and Inorgapic_Chemistry, Academy of Sciences UK-rSSR
(Institut obshchey i neorganicheskoy khimii AN_Ukk_r-S-S_RT_
TITLE: Polarization*of a. silicon electrodelduring the electrolytic deposition of
indium and antimony
SOURCE: Ukrainskiy khimicheskiy zhurnal, v. 32, no. 1, 1966, 20-23
TOPIC TAGS: indium, antimony, electrode, electroplating, silicon single crystal
ABSTRACT: Polarization of a silicon electrode during the electrolytic deposition of
indium and antimony was studied in the 200-600C range as a function of the type of
electrode conductivity and surface pretreatment. Indium was deposited from InC13
(30 g/1) + HC1(10 g/1) electrolyte at pH = 1.5. Antimony was deposited from
KSbOC4H406(60 9/1) + HCl(4 m1/1) electrolyte at pH = 1.6. The-silicon electrode
(made of silicon single crystals) was polished and caustic treated. 11te effect of
temperature an cathodic polarization and the oscillograms of cathodic polarization
Card 1/2 UDC: 541.13, - _ -, i
. L 36875-66
ACC NR,. AP6017651
were graphed for In and Gb deposition an p- and n-type silicon electrodes. The
~potentW of deposition of In and Sb on n-type silicon electrode is Wre negative
~than on p-type silicon electrode. Metal deposition on silicon electrode was found
;to he inhibited by the presence of silicon oxide layer on the electrode surface. In:
:depositing In on a silicon electrode, electrode polarization increases with in-
(creasing temperature. On a silicon electrode, an indito deposit produces an ohmic 1
;contact in the case of n-typi conductivity and a rectifying contact in the case of
,p-type conductivity. For both types of conductivity, the antimony deposits an silil~
icon electrode produced a rectifying contact. Orig. art. has: 4 figures.
:SUB CODE: DATE: 16Sep64/ ORIG REP: 00*6/ OTH MF: 008.
!Card
_1.-C2423-67~~
ACC NRt AP603151T SOURCE CODE: URJOOT3
A 1661032100'91095TIO960
.-Au7ffoRi--'~~,z6aimovich*.-_D_f_P,;~ffemtsor. V. D. r7
6RGf jugutute gf Getteral and _y, W WSSR (Institut.-abshchey J
Iggrganic Chemiatr
t
heoigp4i0heAkc~rAhimii AN TJk.rGSRj,
~TITLE- Wrect In,polarization of siliconAn solutions of metal-
Sd Mt'~' no
UR Ukred kiy'khimicheskir zhurual, Y. 32, no' 9, '66, 9
10 5T-966
$GO.;4_4
TOPIC TAW': electrolytic :Iepositi on, indium, tin antimony, electrode
&ohm
A-&J11eA,_ "
isilicon iieetrodk, nrftce' i6ilizatiOnt photoelectric method
ABSTRACT., The silicon- 9 ionfint'erface has been studied in solutions
of indiun, tin,,and antimony chlorides by recording variations in the surface photo-
potential:df the silicon electrode versus ita.~steady-state electric pqtential under
different~conditions of polarization. k'difference was noted in the ]R'hotoelectric
effect~Prx.the a-versus-p-type silicon and on the polished versus etched silicon surr-
face in all solutions studied. The photopotential. drop on p-type silicon in the metal
chloride solutions was interpreted as determining the deposition potential of the
metal. The photopotential of the etched a-type silicon in ell metal-containing solu-
tions,decreased sharply with.the electrode potentiall shift toward, the region of
anodic ~olarization..-The photopotential versus steady-state electrode potential data
2 I=# 116-149+546.2ft
XNKTSOV, VI,
- [invisible routes; notes of a radio designer] Nezrimys puti;
capiski mdiokonstraktora. Moskva. Gos. izd-vo detskoi lit-ry.
1943. 109 P. (Voenr-la bibliotska shkolInIka) (HLU 70)
(Radio-Transmitters and transmission)
NEWSOV. TI.
I - (Sixth sense] Shostoo chmv9tvo. Noskva. Gos.iEd-vo dstskol
lit-ry 11orkoaproaa ROSR. 1946. 78 P. (KIRA 131:1)
(Science--Juvenile literature)
o,) TS o t/I
Nemtsovj V1.
High Over the Earth (Vysoko nad zemley)
Znaniye - Sila, 1957, # 12, P 13-16 (USSR)
This is an excerptfrcm a science fiction novel "The Last Flag-
Station" where the author describes the adventures of a boy,
working in a meteorological research institute, who.hid in a
ground controlled flying laboratory in a disc-shaped aircraft
containing a dog, mice, monkeys, etc, and took part in its
flight into the stratosphere.
The author, a radio-engineer, dealt with technical problems
from hie youth and this interest has characterized his literary
work.
There are 4 figures.
Library of Congress
F,
METWI 'I- . - 1. - 1. 1 ~ I I.. - I . .
. ., I -, I ~ I I I I,F, - -
Ne SOV, V. .AM Chizhavaklyp H. G. wFight against drought and problems of
higher schools of agrimAture,,R Vestnik vyssh. shkoly, 1949, 116. 1# p. Z7-30
30t U-3264,, 10 AFVII 53 (Litopin lZbrunal Inykh Statays, No. 4,, 1949).
NEnrlsov, V.F.
Nemtsovs V.I. "The intr"ction of Lh(, rass-rotation system of s-riculu-,re into the
experimental s,-,Udy farms of higher technical sciwols", Vestnik vyS5-;. 5-rikOlY, 19457, no. 20
P. 9-10.
SO: U-3042, 11 Miarch ~3, (Letopis Inj,kh Statey, '.Ia. ~,,, 19,49)
I I
lvi:w 0- V. ", ~
MIKTSOT T.Y.
in ---- 6iiiiv
Higher sWrlaultural oduutlon In the U.S.R.R. IwAs I pored. op. v
sellkhos, 7 no,1207-38 D 157. ~KIIA Ittl)
(Agrimlture-ftudy and toachlog)
22(l)
SOV/3-59-5-2/34
AUTHOR: Nemtsovl V,F., Candidate of Economic Sciences,
DOOM -
TITLE: A New Stage in the Development of Agricultural
Education
PERIODICAL: Vestnik vysshey shkoly, 1959, Nr 5, pp 17-22 (USSR)
ABSTRACT: The reorganization of agricultural vuzes, which has
just begun, will first of all be realized by com-
bining the students* study with productive labor.
Every student will, accordingly, from his first year
of study participate in agricultural work and carry
out a minimum of work required to acquire productio-
nal skill. This changes radically the part played
by the training farms of agricultural vuzes. For-
merly, students were assigned to mass work requir-
ing little skill, while now they must carry out all
the basic farm work. The 21st CPSU Congress Dre-
Card 1/5 sented another problem: To eliminate, during the
SOV/3-59-5-2/34
A New Stage in the Development of Agricultural Education
7-Year Plan, hard manual work by introducing com-
plex mechanization of productional processes in
industry, agriculture, building trade and trans-
portation. The author points this out because
some directors of agricultural vuzes regard the
students as a working force, forgetting the basic
problem - on-the-job training of the future spe-
cialists. The area of thdse farms has increased
for the last 3 years and amounts now to about
4,000 hectares on the average. The live-stock of
cattle, pigs, sheer and poultry has also increased
considerably. The author points out the short-
comings in the geographical distribution of agri-
cultural vuzes of which a great many are concen-
trated in the European part of the USSR.,while the
needs for agricultural specialists in the eastern
districts, especially Kazakhstan are considerably
Card 2/5 higher. To cope with these difficulties new vuzes
SOV/3-59-5-2/34
A New Stage in the Development of Agricultural Education
W
have been established in Ussuriysk (using the
agricultural institute transferred from Yaroslavl,
as a base) and Akmolinsk, but the shortcomings
have not been eliminated entirely. The author
comments on the zonal trend in training agricul-
tural specialists, stating that the zonal prin-
ziple is already being introduced at some schools.
The new curricula of these schools determine the
composition of the basic subjects which depend on
the natural, economic, climatic and national pe-
culiarities of the zone in which the vuz is located.
He opposes Docent A.V. Kuznetsov's proposal set
forth in the article "For Establishing Zonal Agri-
cultural Academies". pointing out the impossibili-
ty of uniting into one Volga region agricultural
academy the agricultural institutes located in
various natural zones, e.g the Kuybyshevskiy sell-
Card 3/5 skokhozyaystvennV institu; (Kuybyshev Agricultural
SOV/3-59-5-2/34
A New Stage in the Development of Agricultural Education
Institute) situated in the south-east, and the
Chuvash Tnstitute stationed in the center of the
European part of USSR. With the agricultural in-
stitutes in Akmolinsk, Alma-Ata, and the zoo-veteri-
nary institutes at Semipalatinsk and Alma-Ata, which
train specialists for various zones of Kazakhstan,
it will now be possible to ensure a certain trend
in the training of specialists for the individual
zones of the republic. The author further exprer,.,ic-,-.
his opinion on the methods to be applied in impro-
ving the training of agricultural specialists com-
bining the studies with productive labor. He also
deals with an all-round improvement of correspon-
dence education, which is at present carried out
by the Vaesoyuznyv seltakokhozyaystvennyy institut
zaochnogo obrazovaniya (VSKhIZO) (All-Union Agri-
Card 4/5 cultural Correspondence Institute) and at the cor-
SOV/3-59-5-2/34
A New Stage in the Development of Agricultural Education
respondenca departments established almost at
every agricultural vuz. There are 2 Soviet re-
ferences.
ASSOCIATION: Ministerstvo sellskogo khozyaystva SSGR (Ministry
of USSR Agriculture).
Card 5/5
MWSOV. V.. kand. skonow. nauk; UBM. V., inzh
Agricultural education in Czechoslovakia. Ikuket i pored. op,-V
sellkhoz. 9 no.70-77-79 JI 159. (KEU 22:21)
Osechoolovakia-Agricultural education)
NOVAKOVA, D.I., dots.# Otv. vef;.: ",KHlpovjl I.A., red.; KUTIN,
1. P. I dots. , red. ; I -A.# rp-d-; I.E-
red.
[A conference on the re, ~,'Lta of scientific research in
1962. Sectiun of tiocla-11 ~:ciences.-. abstracts of reportal
~Nauchno-tekhniclleokala . --inferentsiia po itogam nauchrx)-
lssledovatellskikh rab-. 1962 goda. Sektsii," obshcl--,-
stvemykh nauk; tezisy iwkladov. Moskva, 1,63. 28 p.
(MIRA 17:10)
1. Moscow. Moskovslkiy ',--;;otekhnicheskk
y institut.
UKTS~OT ~Tfav owgly IlItch- ZLTOZIN, L.r.0 otvatstyeauyy roUictor; ASTAIMOT.
amomomm _ . ,j&~tolfgtva; ALMTA, YO.I., takhatchookly
*. 40, w
rodaitor
[The bilge p=p opomtor] Vkahintst shakhtnago wodootliva. Mosimm,
Vgletokhlxdat, 1956* 155 po (NM 9:7)
(Nins pumps) [KicrofiW
BELKIN,, Z.I.; GORELOV., L.R.; GOUACM, Ya.V.; ZILOV, A.L.;
NMSGVS TAPINSM, V.N.; YTJTT, Ye.K.;
TuoN
"0-7 Pop inzho, redo
[fttom-obile '"HdAvich" 403; design and mainterumael Avto-
mobil' "Koskvich" madeli 403; konstruktsila i tekhniche-
skoe obsluzhivanie, Koskva, Mashinostroenisp 1965. 402 p.
18:8)
G:Lavmyy konstruktor Moskovskogo zavoda malolitrashnykh
avtomobiley (for Andronov).
'CEDWSOV, Z.F., kand. tekhn.nank
Circuit for the svitching,-In of first-stage and principal water
system heaters. Zlek*sta. 31 no.6:85-86 Je 160* (MRL 13:7)
(Electric power plante-rquipment and supplies)
VCLKOVv U.N.,, kand. tekhn. nauk; SMOK011, K.A... kand. takhn. nauk; STWMWKO,
Ya.S.; PTATIGORSKWA, T.I.; PAfWMI[OVA, Ye.S.; OVUM, A.G.; MffSOVA,
A.S.
Production technology, testinp and storage of hydrolyzates and protein
enrichers from soya. Trudy MIIIKOP no.11:66-76 162. (MIRA 17-.9)
SARL IR. A.rt.;. TJKIKKPV. S.M.;
. 252UJAL--
Cosparlsou of different wth4d- of purification and concentration of dipht
toxin and &mstozin. KWoblol.stur. 14 -io.2:47-54 152. (XZU 6:11)
1. Z Institntm blokbIall Akaddsli nauk UNR (direktor - akadsaik O.W.Palladin)
t&. 2.- X lustltmtm spi"midlogil t& m1krablologli Kinistorstm okhoroul zd~-
roTlys UHBR (dlrektor - S.K.Urekhov). (Dlp~thorl& antitoxin)
NEMOTA, X.. inshener.
WeldIng with an electrode bundle. Nor.1 rach.flot 13 no.6:27-28 0 '53.
(HLM 6:10)
(Nisatric waid1m)
Acc Nit, dijt)Et't-',-'UR/3148/661000/068/0005/ao22
Basarzhanavo A* Do; KIsh1n# Vo He; Wntsova Platonovj~
ORO: none
TIM: A method or analytical representation of Instantaneous fields
of magnetic variations
SOURCE: AN SSSR, Hezhduvedomstvennyy geofizichaskly komitetd III
razdal pro rammy MOO (aeomagnetism L zemnyye toki). Sbornik statey,
no, 8. 1969, Geomagnitnyye issledovanlya (Geomagnetic research), 5-22
TOPIC TAUS: geomagnetic field, spheric harmonica universal times
algorithm, probable error, #1jR0j0W1(!. 'IAJ17L(151'j
ABSTRACT: A geomagnetic field can be expressed by the spherical
harmonic analysis completed by begendre polynomials. This method was
corrected and made indep6ndent of universal time, A special method was
elaborated for the use for electronic computers by which Instantaneous
parameters of the variable magnetic field can be determined, This
method is based an a special algorithm B in which components of the
geomagnetic field Xis Y19 and Zi of selected stations are determined
Card
ACC NRt AT6034607
using the formula
M
X A. M - YJ YJ (g" Cos M&I + h". Sial H11j)
It-2 on-*
i - Is 2. 3,,,,N,'where N is the number of stations used. The system
of 6quations can be solved analytically when U s M2 + 2M. When
N :0 Uz + 2149 the system can be solved by the method of least squares
applying the orthagoial system or functions. Coefficients or the
function expansion are determined by Introduction of auxiliary coef-
ficients computed-from recurrent formulas. A series of tests was
carried,out using algorithm B. The roai or the first test was to
evaluate errors or all the coefficients, The second test dealt with
an evaluation of the change of coefficients, The third test consisted
oa," a comparison or the magnetic field during a quiet sun with that
based on probable errors of coefficients, Functions of electric cur-
rents were computed using formulas or spherical expansion. The depth of
the nonconducting layer of the earth and the conductivity of the earth's-
core were computed using approximate harmonics., Numerical values of
these parameters differ markedly from results obtained by other Lnves-
tigatorse OrLjg* art* hast 6 figures, 9 tables, and 22 formulas, F-
Sua CODS: 08/, SUBM DATEs none/ OHIO RBP*; 006/ OTH REP: 008
A
card 112
Acr,- NRt.AT603466g_ CODE:"', 'UR/~148/66106/668/063i/0051_
AUTHOR:"ifraymovich.lEs Bol'Bazarz.hapovq A* Do; Hishin, V, No;
091poVg No Ko; Platanovs No Lee; Urbanovich, Ve Do
Re m t a on,,.. ~El t
ORO: -none
TIME: Mean Sq-ri6lds according to data for September 1958
SOURCE: AN SSSR, Mezhduvedomstvennyy geofizicheskiy komitet. III
razdel pro rammy MUG (Geomagnetizm I zemnyye toki). Sbornik stal-eys
no. 8, 196Z Geomagnitnyke-19sledovaniya (Geomagnetic research), 11-51
TOPIC TAGS: geomagnetic P640 , ~ algorithm, spheric harmonic,
geomagnetic coordinate, geographic coordinate, electroconductivity
.ABSTRACT:. The nature of the geomagnetic Sq-variations is unknown.
Previou6 investigations made by the same'authors are continued here
using the same methods as before, A comparison was made between
various groupings or stations and the systems of coordinates used for
studying the magnetic variations during a quiet sun, The'algorithm B
used in earlier publications was Insufficient for the solution of the
problem.of Sq:-varlatlonse The algorithm A was introduced which is
analogous to that of Gauss and Shuster, The S field was assumed to
be eciual to themagnetic field potential, and Zt-s components were
C.,~ 1/2
AM MRs AT6-03.46ag
expressed by sums of spherical harmonics from which the coefficients of
expansion were determined, Computations of coefficients were made
from various combinations or stationa according to longittfdinal zones
and global distribution. Numerical values were given in tables,
Analysis of variations of the amplitude a, of the computed first
harmonic of the Sq-fleld and those or the observed field showed that
errors obtained using geographic and geomagnetic coordinates differed
very little, Approximate values of Sq-variations obtained Using
spherical functions expressed by geomagnetia coordinates or southern
and low-latitude stations were nearer the ob5erved values, The same
effect was obtained for stations of northern middle latitudes using
spherical functions expressed by geographical coordinatesdi A combina-
tion of stations by longitudinal zones yields better agreement between
computed and observed values or 3 -variations, Different-Swifield
values in longitudinal zones IndLgate that the- electrical co"'inItictivitk-
of Lones, is different., Maps or current whirls are given for both
hemispheres* Orige art, ban: 10 figures, 10 tables, and 11 formulas,
SUB-CODE: OS/ SUBM DATEt none/ OHIO HE?: 005/. OTH REPt 006
C"d 2/2-
ACC NRs AT60346io SOURC9'C6D9:_"' U~i3l4ai66ido(i-idoaioo5iio()62'-
AUTHOR: Hemtsovag Ee I*,
ORO: none
T!Ti,E: UT-component In 3q-variations according to IGY data
SOURCEt AN SSSR, Kezhduvedamstvonnyy geofitichookLy komitet. III
razdel programm7 MOO (Geomagnetizm I zemnyye toki). Sbornik statey
no. 8, 1966. aeomagnitnyye isaledovaniya (Geomagnetic research), 52-62
TOPIC'-TAGS: geomagnetic field, quiet sun$ geomagnetic varlationg
universal time, current density
ABSTRACT: Diurnal variations of the geomagnetic field during a quiet
cun are characterized as changes of the magnetic vector In local time,
The component of geomagnetic variations during a quiet sun Sq in uni-
versal time UT Is studied from data obtained by a worldwide station
network during the IGY. DeviatJons from the nocturnal values (22-02)
of orthogonal componefits,of the geomagnotic vector X. Y. and Z in
local time were used, Variations In universal time relate to the
density of Sq-currenta and the configuration of the currents, Mean
values by latitude of the phase amplitude of the first harmonic 3 (SP)
in a geographic system of latitude and mean time and a geomagnetis
_ACC NRI-. -_ At6dj4610
-system of latitude and geomagnetic time were determined and represented
graphically. A phase change appeared during transitions from one
longitudinal,sootor to another In both ayntoma of coordinates, Phane
changes or the amplitude or the rivat harmonic Indicate the change or
current density Of Sq in UT. The focal latitude of diurnalwhirls can
be determined from coefficients or the first harmonic. A regular rate
change of the phase in longitude makes It possible' to adsume that
:00-varlationa contain boh local and universal time.component3, Tte
universal time component has a mean value'in spring and fall as com-
pared with summer and winter. Amplitudes and phases can be divided
into symmetric and asymmetric in relation to the equinoi, Oymmetric.
phases of the UT-component change with latitude while the asymmetric
phases are independent of latitude, Symmetric phases can be caused by
a constant magnetic field and the asymmetr 'lc phases and amplitudes by
the solar wind which presses against the magnetospheret Origs arts
has3.. 11 figures, 1 table, and 10 formulas*
SUB CODEs' 00/' SUBM DATE: none/. ORIG.REFS 002/ OTH HEF:. 005
[Card 2Z9
MISHUI. V.M.; IMATSOVA., E.I.
Some reOUlt3 of ccaparing magnetic disturbances Iii the Northern
and Southern Hemispheres. Geomag. i aer. 1 no-3:404-407 M~-Je
161e (MM 14:9)
1. Institut zemnogo magnstimia, ionosfery i ra-sprostraneni7a
radiovoln Sibirskogo otdeleniya AN SSSR.
(magnetic storms)
PITSHillf V.M.; MMSOVA, E.-*.
FrIurnall variatl(m of r--.ignetic act[AvlAy dii.-ing, the 1GY. Part 2. lrr~~
I~U) component. &-amag. i aer. 4 no.6:1089-1093 1,~-D 164.
V), (MI RA 18.- 1)
1. institut zemnogo magnetizma, ionosfery i rasprostrareniya radiovoln
Sibirskogo otdelaniya PJ-l SSSR.
ACC NRI--'-A'T'6'
034611 RCF. CODE: UR/3148/66/000/008/0063/0081
AUT11OR:.' Bazarzhapov#.,AG D,j; Hishin,, V, ke; Hemtsova, E. I.; Tros~ichev,
~0, A.
OR04. none
TITLE: Diurnal rate of magnetic activity during the MY
SOVRCEt AN SSSR, Hethduvedometvennyy geofisicheskly kamitet, III
racdel pro rammy MOO (0oomAgnetism I zemnyye'tokL),.. Sbornik stateys
no, 8, 1969~ aeomagnitnyye issledovinlya (Cleomagnetio; research),
63-81
TOPIC TAGS: magnetic activity, geomagnetic Ind6x, current system,
magnetic field, solar-zenithal distance, universal time 4WWV=-MmW,
,local time component# auroral zone) Gecl 17)46"Cr/jrn 9 geomagnetic dia
ABSTRACT: The diurnal rate of geomagnetic activity on perturbed days
In 1957-1959 is studied using geomagnetic indices K of 92 observa-
tories which followed the program of the,10Y. The study is limited
to the diurnal wave of geDmagnetic v4rlations and related to local
,time and universal time, Analjs~s or the diurnal wave of magnetic
variations yielded the following results:* Y.)'The first harmonlo of,-the-
diurnal wave of equivalent amplitudes or magnetic activity on perturbed
'Atid t4k.-
days,is of the fundamental value. 2) Diurnal variations of magnetic
activity'dain be related to both local and universal time. The com-
ponent of universal time plays an important role in geomagnetic activity
of perturbed days at all latitudes. 3) Variations of the component of
local time.by-latitude and season-can bd represented as a superposition
of two wav&s with maxima at noon and midnight. *Phases of these waves
do not change with latitude. These waves are analogous to the current
system of a disturbed magnetic field. The error amplitude or the local
time component attains a maximum.at two geomagnette zones: 9 a 63*-670
and # 0'4 780. 4) The superposed waves are physically different. The
level or disturbances is proportional to the-square root or the cosine
of the zenithal distanc*e or the sun. The wave with a maximum at noon
is predQmtnant.in equatorial,-and.pglar regions, and thd wave with a
maximum at midnight is*predominant In the zone 4 - 630-67*. 5) The
component or the-,universal time of variations consists or two parts,
the symmetric and asymmetric, which differ from each other physically,
The-asy=ietric -part or the universal time'component changes In phase 'by
w In'the transition from winter to summer of all latitudes. The error
amplitude or'tli4 asymmetric part changes with latitude, The amplitude
is near.zero at middle latitudes and Increases,toward the iuraral zone,
being maximum at 0 w,780, The phase of the symmetric part of the
universal time component 14 constant during the year, and the error
2 3
Acc NR1 ATW3461j
amplitude of this part varies with the latitude like the*change or the
current'system of the disturbed field. 6) The asymmetric part of the
universal time component characterizes the magnetic acitivity during..Phe
rotation of the geomagnette dipole and the distribution or the iono-
apheric.conductivity. The symmetric part characterizes the dependence
or'the current system upon the eccentric rotation of the dipole, The
authors thank Vo S...Cheanokova for her help* Orige arte hast 2 tables
9 figures# and 32 formulas*
SUB CODS: 08/ SUBM VATS: none/ ORZO HM 024/ ON REPs 009
RIDER, V.A.; POLYAKOV, M.A.; DROZDOVSKIYp E.M., kand. sellskokhoz.
nauk; NIKIFMOV, A.M.; SEMOVIL, I.A., fitopMtolOg
7-
Qtmtions and anmers. Zashch. rest. ot vred. i bol. 8
no.3:37.39 Mr 163. (MIRA 17: 1)
1. Nachallnik Voronezhakoy staatali zashchity rastaniy
(for Rider). 2. Nachaltnik Verkhmakhavskogo otryada po
borlbe s vreditelyami i boleznyami motanLy (for Polyakov).
0 L) T
6SSR/Chemical Teckwolcgy - Chemical Products and Thilr Application. Silicates.
Glass. Ceramics. Binders, 1-9
ibst Journal: Pie-ferat, Zhur - Dimlya.. No 19, 1956, 62337
Author: Papillskiy., R. Ya., HemtoovA, 1. F,
Institution: None
Title: On the Composition and Appropriate Preparation of Clay Component
Added to High Chamotte Content Pastes
Original
Periodical: Tr. Mask. kb4m.-tekhnol. in-ta, 1956, No 21, 89-99
Abstract: Study of the effect of the clay component on density of high
chamatte content paste. Ekperimdnts have shown that In presswork-
ing high chamotte content pastes the clay component should be re-
garded as being primarily the finest fraction of the system which
on proper disperallon permits an effective filling of minutest in-
terstices between gra--'ns of pulvexulent fraction of cbamotte. Hence
the trend cf pr~-ducing articles of the high cbamotte content type
ent:Lmly without a clay binder cannot be considered appropriate.
Card 1/2
TISSR/Memical Technology - Chemical Products and Their Application. Silicates.
Glass. Ceramics. Binders.. 1-9
Abst Journal: Referat Zhur - Kbimlya.. No 19, 1956P 623,37
Abstract: Optimal ratio of clay to separately prepared fine fraction of cha-
motte i8-30:70, on the basis of actual volume of solid components.
For a dense packing of press worked system it is very importRnt to
utilize such procedures., in preparing the paste., which ensure rr-xi-
murn dispersion and most uniform distribution of clay among pul-
verulent fractions of chamotte. Theoretical premises show that with
large discontinuity in grain dimensions between small and large frac-
tions of chamotte inclusion in the paste of any given amamt of large
fractions should bave no substantial effect on the ascertained op-
timal ratio of clay component to fine fractions of chamotte.
Card 2/2
NE14TSOVA L.A.
Treatment of persistent cervical erosions and cerviciLiz. 11
i gin. 38 no.5:117-118 S-0 162.
Oltll
1. Iz ginekologichaskogo otdeleniya (zav. L.A. Nemtsova) 14E
noy bollnitsy (glavnyy vrach L.I. Gribkova) Kinesbmy.
IMITSOU. L.G.
Uotwgraphic proof of sone theoremse Uchozap.MPI 77:269-280
159. NIRA 13:5)
(Nomography (mathematics))
16(1)
AUTHORt SOIV/20-126-3-12/6 9
TITLIt Construction of Nomograms for Equations of the Third Nomographio
Order
PERIODICAL: Doklady Akademii nauk SSSR,1959,yol 1261ffr 3,PP 505-507 (USSR)
ABSTRACT: Similar to the papers of M.Y.Pentkovskiy and 0.1fe.fthems-Levi
the author investigates the geometric meaning of the parameters
of a non-projective transformation and he discusses the
possibility to use the results for an improvement of nomograms
of third ordez. The author mentions Gorodskoy.
There are 4 Soviet references.
PRESENTED: February 9, 1959, by A.A.Dorodnitsyn, Academician
SUBMITTED: February 9,, 1959
Card 1/1
NEMOVAP M.; KOUZHILEK~ K. I Kouza Ic-K, K. FNVU--'EtiOVA, M. [Engiisova,
Electrophoret-Ic study of trp protcif,e rf i-.r:-a
fluid in mental pul'Ients. Lr..U-. nevr. I p-'kh. 65 no.lg7ll-
75 165. OAIPA 18:2)
1. "al-k-hiatrichoskoye fr~si~-h!jllntk A. Fa-dl
otAeleniye klinichof4k,Ah kan-A. frioj.
nauk A. Ariyent) TSert,vtL'n,)y voyt!nnoy bc)IIn.itsy, Fraga.
KQGJA, L.A*; SISIMOV, V.K.; HMOVA., H.K.
Experimental study of cast Iron flange a0mactorm of
bydrau21c turbi-to joints, Trudy Ural., poUtekh, Inst,
no,102s132-145 161. (KM 16til)
LE
ft AL r
A JL_X_" SO r. fe 4, A-L-L-m~ *,CC WAML t,-k "s, t 't -1 ft 01
00 FST Oka tOPE q t._X"t_T,
4f. -o,cs
A
*0
wet clk"gift al ftbgg "ftmo Wd qmt cdua* Uquam (two *4 guIll" P
0 8 N. 11 NUU"K AKO N, P. J. APOW Ck".
immufuturke cefshem -
(U s S. R.) 5, 961-900M.-Ifesduc timto-vdi" Wili COOML Ik" MAU.,
(schus(he mve"? *14s dumed in the f;xm of dmt suitawc fac finug rqrq-~-
'the twit bmtlcFS tam to 6 bw* ot 180' Idth a 30~'Iv ut" W*L R"ating cbAccvw
00c dwo(Nmad. The yWdOlf" bestO
C vA 4 6% It mW bo a bni&g v,
00
(ug the liqwc sicie) jkl& a dwt-d 49 Otte C mount but *krs ab" 3% S,
00 t(d c4 Milli 1% slifbtly &,ccftwd and that o( WOH incrtowd Orum M4% to 0out -so
with
W. %),FW m(dtlag chavml boo 347 -tivftv (C,[G dA*wvt4m) Ats mwQ"W
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Saudi" :.go
go 131, 1. AW44 Chm, 0% $-
l1w vikivoly of IW (wiststal Uuh~ 400
00 J; volas. Tom,, after kftt(v&w(tk&w% NaUlt win. ILI
go
je, Ow temp. bwas (be viecoWly quite considerably. C. C.,
The k(A too
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4=40 la tjw viwasity Ql the cellakwe weve "kvd
at witig OD-&!% 4wi at 140% wh& the %WV'A
as trest4w
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w%reatw". Tbefurt"timsol the Comm we-wa*-A
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EMSOVA.W.P.; ALTAKOWSUTA.T.S.
21triOnt Fsaste us" of sunflower need arils. Gidroliz. i logo-
khia. prom. 8 no.3:16-17 t55. (KIRA 8:9)
1. gooksyskoye otdalenlys T56807usuago nauchno-Insle4ovatellskogo
inatitutt g1drallmoy I sullfitno spirtavoy prowqshlennosti
(Sunflower seeds)
MITSOVA, -N.P.; KOROICHEPIKO, F.Ye.
Use of the BU-M electric photocolorilreter in the. cdctermining of
phosphorus. Gidroliz. i lesokhim.pror-. 15 no.!-11'7 18 062.
(MIRA 18:3)
1. Goaudaratvannyy nauchno-issladovatelttikiy inatitut gidrollmoy
i isullfitno-spix-tovoy 1~romyahlennosti.
nn! q Al, L),., T:.*
, vzv * ,
I
,9
,Re v ie w r; f"t . 1. -c"'3" vt~,-, li~-,W .- p "
J -!~ vorce In ")f U11C.,
Higher Nerve A ctivityt." Vent. Ak. Mod. flauk Ss~,R, 10-0. 6, 1%3.
%WA. O.L.
M~E~~
On the neefs"lem or tba nomealm bLxt In peptic ulAwr. Test. Ildr.
71 no-2:74-75 MI. (cum 20ta)
1RI,aMTA. n.
Conditioned and non-conditioned vascular reflexes in gastric and
duodenal ulcer. Klin. med., KosLcya 30 no.4:69-74 Apr M2,(CUM 22:2)
1. CandiUte Kedical Sciences. 2& Of the Physiological Laboratory
(HAR-1 -- T. G. Prokovenko), InntItutm of Sur~ery imarl A, T. Vishnev-
skly (Director - Prof. A. A. Vishnewskly; Consultant - Acadenician
K. H. Sykov), Acadeaq of Medical Sciences USSR.
MWWTA~ OoL.-f kmWIdAt neditalmmkikh nauk
Conditlowd and unconditioned, vascular mflozes in g"tric and
d.nodeml, ulcers. 2~euft AX9 SSSR 24 ne.2:71-81 '53. (IMBA 7:7)
(PMIC uzmj physIOLWO
Obloodyessels, conditioned & unconditioned roflo=s)
(BrM USS=, in various diseame~,
*ppt1c ulcer, condIt1iied, & umonditioned reflwms)
Oblded ' wools,.in peptic ulcer)
*umduditloned, vase,, in peptic ulcer)
MES"A. 0.D. kandidat maditainakikh naulc
Wfect. of & navocalne block on w"cular and ffAlIVar7 COUL
atioWd
roflwms -in dogs, Trudy AWSSSR 24 no.2:159-165 '53. (=A ?t?)
(PRO'CAIIIN, effects.
*on. conditioned reflex&&,, vasas &~ GaIlTory, In dogs)
(MOWO COADITIOM,
*aallvary & vasa,* 'Off, of procalum nerve block In dogs)
.(DIM uaqwt Physiology,
*reflex, conditioned, off, of procaine nerve block In dogs)
E P',') T~DVA) 0 1 L
AUTHOR: Piontkovskiy, 1. A., Professor SOV/30-56-6-30/43
TITLE: Influence of Ionizing Radiation Upon the Higher Developed
Parts of the Central Nerve System (Vliyaniye ioniziruyushchego
izlucheniya na vysshiye otdely tsentrallnoy nervnoy sistemy)
Transactions of the Conference in the Irstitute of the
Activity of Higher Nerves (Konferentaiya v Institute vyashey
nervnoy deyatelfnosti)
PERIODICAL: Vestnik Akademii nauk SSSR, 1956, Ur 8,
pp. 125 - 126 (USSR)
ABSTRACT: This conference was held from May, 8 - 10. It was attended
by representatives of 31 scientific research institutes
from Moscow, Leningrai, Kiyev, Kharikov, and Gorlkiy. 26
reports were heard, which mainly dealt with the two folloving
problems: The reaction of the activity of higher nerves of
grown-up animals to an irradiation during their embryonal
development, and the influence of small doses of ionizing
radiation upon the activity of higher nerves of animals. The
following lectures were held:V. Ye.Miklashevskiy and N.B.
Gol~&erg on the influence on rats of irradiation during their
Card 1/3 embryonal development.
Influence of Ionizing Radiation Upon the Higher SO'1/30-58-8-30/43
Developed Parts of the Central Nerve Systen. Transactions of the Conference
in the Institute of the Activity of Higher Nerves
O.L.Nemtsova and Ye.I.Andreyev&,A.G.YelIseyev& on the effects of
Ir ka-tion on the 9th day of embryonal development.
N.A.Artyukhina on phenomena occuzWg after birth in animals
irradiated before birth.
N.G.Mikhaylova on a considerable reduction of basic nerve
processes.
I.I.Volodina on considerable disturbances of nerve activity.
I.A.Piortkovskiy on strong disturbances of the activity
of higher nerves by gamma radiation.
V.I.Semagin on the application of small doses of radiation
in the course of the entire embryonal development.
A.P.Cheanokova on the aftereffects of a single irradiati3n
Immediately after birth.
A.M.Ivanitaki,r on the investigation of the bioelectrical,
activity of animal brains.
N.A.Rokotova and I.M.Gorbunova on the influence of small doses
of ionizing radiation on the state of biological objects.
L-Ye.Khozak showed that even small doses of irradiation cause
Card 2/3 functional,modifications in the central nerve system.
Influence of Ionizing Radiation Upon the Higher SOV/3o-58-6-3o/43
Developed Parts of the Central Nerve System. Traniactions of the Conference
In the Institute of the Activity of Higher Nerves
H.G.Ayrapatlyants showed that the greatest modification of
the activity of the higher nerves can be found three days
after irradiation.
Ye.S.Keyzerov, Kh.Kh.Yarullin and A.G.Khanin on experiments
with dogs.
Card 3/3
EXC-=R=.TA YEZI-~A SeB 2 1V01 12/2 Nysiolory Feb 59
372. DYNAMICS OF CONDITIONED HEFlX'% 'x,rivury m PIMCNANT ANINIAES
(ifussiall tex.t) - Ne m t so va 0, Al (I ra v lit! v sk aya V. V. 41 lift
Andreyeva L. ~Ysiul. Lab., lwst. (if Obstet. andGynaecol., USSR
Ministry of PtAhl- 111th, Moscow - ZIT. VN'Sliff."NERV. DEYAT. 1125a. 8':!
(234-245) Graphs 4 Tables 3
The study of conditioned and unconditioned saii%ai-N and vuaeular rc(lexes in (141g.;
during pregnancy has revealed regular clutoges which Vermit classifivation (if .4
periods distinguished by differing relationships of nervoiss processes. Theve ap-
pears a general trend towards a decrease of vonditioned reflexes and to ail increase
(at some periods) of unconditioned reflexes. The Znd periott of pregnancy (201h-45th
I days) is characterized by the maximum stability (if tionditioned reflc*4 activity. I'll(,
return to the initial level does not occur unlil *2 weeks after parturition. Three
periods similar to those observed in dogs %vre found when studying conditioned
reflexes in rats. Stabilization of the conditione.1 reflex activity. appearing in tile
2nd perind, should probably be regarded as the period cd maximum adaptation of
the organism during pregnancy and parturition.
RMS07A, O.L.1 AMMYEVA, Te.10', RIKULIN. P.P.
Further study an the dynamics of higher nervous activity In anisals
[with summary In Inglishle Akushe' I gin. 34 no.5:30-34 S-0 158
1* 19 fisiologichaskoy laboratorli (zav. - prof. A.O.Dolln)
Inxtituta akasheretva I ginekologli (dir. dots. L.G. Stepanov)
Kinisterstva. %drsvoo2&ranenlya RSFSR;
(MMTRAL MVOUS SYSTEM. physiol;
higher nerv. activity In prega. white rate (Run))
(F M MARCY, physiol.
higher nerv. activity in white rate (Ram))
AWSOVA, O.L.. kand.aed.nauk
ObAngs in the reactivity of the nervous system In pregnancy;
experimental study. Akush. I gin. 35 no.3:44-50 )(~~e 159.
(MIRA 12:8)
1. Is fistologicheakoy laboratorit (zav. - prof.A.O.Dolin)
Instibuta, akusherstva I ginekologii (dir. - doteent L.G.
Stepanov) Kinisteretva zdravookhraneniya RUSR.
(MC,=ICY. phystol.
NS reactivity changes in dogs (Hue))
(MYOUS SYSMO physiol.
reactivity changes In dogs In prega. (Hue))
115EMVA, L.N. , VWSOVA R.N.
Effect of corglycone on thi- electrocardlograme Tzrudr IW-ia
45:275-280 '58 (NM 11:21)
1. Irafedra fakulitetakoy terapli Leningradekogo ganitAMO-
gigiyonicheakogo meditainskopo instituta (save katedroy - nrofo
A.A. Zedrov).
(CARDIAC: GLYCOSIDES)
(MECTROCARDIOGRAPHY)
V, 6&
AUTHORS: Zabavin; V. I.,and Nemtsova, V. G. 24-1-14/26
TITLE: Determination of th3 degree of oxidation of hard coal
from the yield of water and of CO, 2 during heating.
(Opredeleniye stepeni okislennosti kamennykh ugley
po vykhodu vody i uglekisloty pri nagrevanii ugley).
PERIODICAL: Izvestiya Akademii Nauk, Otdele e Tekhnicheskikh
9 19581 , PP - 107-112 (USni~
Nauk No.1 SR
ABSTRACT: A method expressing correctly the degree of oxidation
of hard coal must express the change taking place
during oxidation in the entire organic mass of the coal.
This requirement is met by methods based on determining
the content in oxided hard coal of oxygen containing
functional groups; these methods include the new method
described in this paper. The method was developed on
the basis of the conception of the primary oxidation of
the coal, namely, transformation of the fundamental
organic mass of the coal into humic acid and as the
limit of oxidation of coal its full transformation into
such acid was considered. This assumption of the
primary oxidation of coal permits comparison with the
limit oxidation of lower stages of oxidation and to
Card 1/4 express the degree of oxidation by means of a relative
24-1-14/26
Determination of the degree of oxidation of hard coal from the
yield of water and of C02 daring heating.
number. For developinc, the practical part of the method,
the thermal instability of humic acids was applied.
G. Stadnikoff et alii (Ref.8) have shown that humic acid
separated from Ukrainian brown coal decomposed during
heating, emittinG water and CO iowing to breaking up
of hydroxyl and carboxyl groups~ heating of the acids
to 300-350 C resulted in almost complete destruction
of the carboxyl groups. Therefore, it could be assumed
that the humic acids forB~gduring oxidation of hard coal
could also0be decomposed during the heating of the coal
to 300-3 0 C, accompanied by the formiation of water and
c0 The remaining coal substancewhich did not yet
beg;me transformed into humic acid, will decompose in
a similar manner due to the fact that functional groups
form in it. On the whole, the separation of water and
of CO from the coal will be the more pronounced the
more iRtensive the oxidation of the coal. The greatest
yield is obtained during full initial transformation of
the organic mass into humic acids. If this assumption
Card 2/4 is correct, the quantitative determination of the yield
24-1-14/26
Determination of the degree of oxidation of hard coal from the
yield of water and of CO 2 during heating.
of water agd of CO forming on heating of oxided coal
to 300-350 C permiN expressing the degree of oxidation
of the coal. The experiments described in this paper
confirm these assumptions; they yield results which
express satisfactorily the degree of oxidation of the
coal and enable development of a simple and rapid method
of determining the degree of oxidation. By means of the
described method, the yield of the viater and of C02 is
measured,from which the yield of these products fro
the non-oxided coal is deducted and the difference
is related to the respective yield values from humic
acids. A method was-developed for determining the
degree of oxidation of hard coal from the quantity of 0
water vnd CO produced by the coal on heating to 350 C.
As a measure 9f the degree of oxidation of the coal, the
ratio of the produced water and CO to the quantities
produced under equal conditions frog coal oxided in
humic, acid (and considered as being the limit of the
primary oxidation of coal) is applied; the degree of
oxidation being expressed in percent. This method
Card 3/4 produced results which express more accurately the degree
24-1-14/26
Determination of the degree of oxidation of hard'coal from the
yield of water and of CO 2 Curing heating.
of oxidation of the ccmol than other chemical methcds.
From the experimental point of view, the main feature
of the method is its simplicity and ease and speed of
execution.
There are 2 figures, 1 tablE! and 9 references -
8 Russian, 1 German.
SUBMITTED: May 15, 1957.
AVAILABLE: Library of Congress.
Card 4/4
SOV/180-59-2-32/31-~
AUTHORS: Zabavin, V.I., and Nemtsova,l V.G. (Moscow)
TITLE: Thermal Hydrolytic -0TYy_dr_o_1y_ti_c__D-1sso ciation of the
Basic Organic Material of Brown Coals (Termogidroliti-
cheskoye i gidroliticheskoye rasshchepleniye osnovnoy
organicheskoy massy burykh ugley)
PERIODICAL: Izvestiya akademii nauk SSSR, Otdeleniye tokhnicheski-kh
nauk,j Metallurgiya i toplivo, 1959,11r 2,,pp 168-173 (IJSSR)
ABSTRACT: The brown coals tested were from the Podmoskovnny
(clarain), Chelyabinskiy(clarain) and Bogoslovskoye
(vitrain, clarain and durain) reserves. The petro-,
graphic types are given in Table 1 and the analysis in
Table 2. The bitumen contents and humic acid contents
were found and the residues subjected to hydrolytic
dissociation - heating with 5% KOH in alcohol and
pyridine2 or thermal hydrolytic dissociation - heating
to 280 OC in a-naphthol followed by treatment in KOH,
alcohol and pyridine. The vitrain and clarain almost
completely dissolved after a short thermal hydrolytic
treatment, and durain after a hydrolytin treatment.
Analysis for the elements present, the eirboxyl and the
Card 1/2 phenolic hydroxyl groups was carried out. The molecular
weight and equivalent weight were also found. Results
SOV/180-59-2-32/31+
Thermal Hydrolytic and Hydrolytic Dissociation of the Basic
Or-anie Material of Brown Coals
are given in Table 3. Bitumin content was 1-5% in all,
and humic acid content 4-19% in the first four samples
and 73% in durain. Oxide content of the first four after
thermal hydrolytic treatment was 62-79-%, and that of
durain after a hydrolytic treatment 8%4 30-49% of the
oxygen is present as phenolic hydroxyl groups and 0.2-3%
as carboxyl groups. The molecular weights of the
products of brown coal of an oxide character were
determined cryoscopically and were from 201-541. The
equivalent weights from chemisorption data were
119-2321.
Card 2/2 There are 3 tables and 12 references, 9. of which are
Soviet, 2 English and 1 German.
SUBMITTED: April 8, 1958
ZAPAVIX, V.I.: IJOROZDIU,
Studying the oxidation procesm of coma& an related to theIr
tendency ror self-haating and solf-igultion. Trudy rGI 6'.198-212
159. (MM 13 12.)
(Goal weathering) -
NEMOVAp V. I.; SABALDIR, 0. Ya.; TEIVEMOV, S. 14.
"Comparison. of Various Methods for Determining the Concentration of
Diphtheria Toxin and Anatoxin," Kikrobiolog. Zhurnalp Vol 14, No 2, 1952, pp, 47-54.
TASILIMM, A.T.2 HELIVUMM4TS, N.B.; rAVROVA,, V.T.; SRUZMOV,, AA,
MMOTAO V.K. - I
Alk as a possible transmitting factor of tyl*.oid ftSection.
Zdrav. Turk. 7 no.3z17-18 Nr'63. (MIRA 16:6)
1. It Nafthabadskogo, instituta. apidemiologii i gigiyony (dlr.
dotwhit Ye.S.Fbpova) i Turl=enskoy respublikanskay sanitarno-
epidemiologicheakoy stantaii (glavnyy v-rach V.I.Hamayev).
(MILK-4ffCROBIa=T) (TMOID FEM)
MIFSTS# L,B.; SAIMIN# L.V.; IB,WNp M.Z.; KIMIPUMOVA, H.L.1 VASILOYF.VA,
A.T,,; SIAVMt LUIUj, L.A*; FrIlmimali uchestile:
PLYLOVA, Yek.; AffMOVAj, A.I.; MMIWAO O.O.,ABDJMTOV, N.A.;
GALIPMN, I.P.; NEKM07k,, TOK.; ADUYEVA, 1.11
Umparative evaluation of the reactogenicity and effecti7eness of
vaccines intended for the prevention of typhoid fever and para-
typhold fever B; basic materials of the epideimiclogical experiment
in 1962. Zhur. mikrobiol., spid. i :b=un. 42 no.7%5&64 J1. 165.
(MMA 18111)
I. Moskmkiy inatitut vaktain i eywrotek- Imni MeAnikova
(for Pavlovat Antonova). 2. Tashkentakiy institut vaktain i
sjvorctak (for Pletravag Abdusamatov). 3. Ashkhabadakiy institut
epidemiclogiij, mik-robiologii i gigiyany, (for Gallperin, gemtsova).
Garlkavekiy in3titut spidemiologil, mikrobiologil. i gigiybuy
or Aduyeva).
t
h-WSOVA -V.V.~ 1F19T9-1
USSR1FCqsIcs - laboratory Equipmt Aug 50.
*Simple Method of Making Steel V*4dlos,,* K. V. ChOlt0vt To v6 NoRtsovao
gZavoil L&bN Vol M# to 8# p 1022o
Very thin steel needles are sometimes required In ftelcoahomical laboratories, a. got
for flnishing holes In specimen holders of electric alcroscopeo Autiors suggest
simple abd quick method for obtaining ouch stool needles by oleetralytical dissolving
Of metale Lad. p2ats series as one . electrode and plece of steel wift In used for other
electrode* Electrolyte - dilute sulfuric acid (1.64), 1-3 ml to 50 ml of water.
Alternating current, frm a lighting main line my be used through rheostat for electro-
4slse Prooe" of sharpening needle may be completed In 3-5 min.
?A 169T91.