SCIENTIFIC ABSTRACT GERSHUNI, G. - GERSHUNI, G.
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SCIENTIFIC ABSTRACT
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GFFSH',jl,'I, 0. V.
"The Mechanisms of Activities of the Auditory Organ arA iome Other Receptors in the
Light of Electrophysiological Investigations" (p. 1) by Gershuni, G. V.
SO: Advances in Modern Biology, (Uspekhi Sovremennoi Biologie), VOL. XIII, IND. 1, 19LO
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..li-man )ense Ut -ins" dull. Ac-Id. ~ci. JSJU (i5iol, 3er.) j., ~- 210-2?8, 1945.
I I. - II .~ a, II I-,t. - -.7..I ~ -,.I .I~ I.. I.- . II..., ,;III- -.
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. coit f f ) it~ ii I ~,, E: t Ion C-f ~Liditor~ ~ mmiliti'vjt~ !1' 0 o -,id
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,6 i~pnol i,,; Slcrtp," Fiz. Zhur. 2 ; N, . - p
Dur in I 1 .1 . ) 5 - I
Tronijlution ~ii, Lulloh
Dr . ot' r) 1 o, - L c a Icn c r n1-13 -~ut v o
of' i.75SR `%C-(I- of' `,Cifnl(~Fm
Concerning; "The Sturly of' 5~,bs-nsoriiil T'n,"F-It R-r-(~tions Avcm p.--.n:- Ing ?un(-.Uc,,n'n:, of
UIC OT'jans.of ':enseo'l
T
Hadvar-il
Soviet Source: 1, 3 J11 11
Abntraci.ed In 1, T'I~A?, '17rof,.surn Is Innd on Cilr, ;n !Jbrarv of Congrp,3s, Ur Tnfoi,;,ati,-,)n
Div~.sion, -Hopirt Yo. Yi/,33.
OERSHUNI) G. V.
T.'A 53T57
UW/)kd1O1W 3=1 A-da 1947
Wedloins HowrIng
"Bubsensory Reflexes in Far 1:rritatlone," G. Y.
Gershuni, I. I. Korotkin, JAb Pbyaiol S4meory Orgam,
Pb,vsiol lust iment 1. P. Pavlov, Acad Sai USM, 4 pp
"Dok Akad Nauk SSSR, Nova Ser" Val LVII, No 4
Describes experiments cmducted to determine vhather
it Is possible to have conditional-refla reactIms
when conditional signal lies lower than nensory
threshold and irritation Is not perceived by subject.
States that results could not be confirmed. Submit-
ted by Academician L. A. Orbell, 13 Feb 1947.
4" _J=
GINI, G.V.
Chnr4,,on in the nuditory fuirtion during the ni'rtion of the nound.
Probl.fizlol.nkunt. 1:5-20 149 (.MIRA 10:11)
1. Fiziologiehaskiy institut im. nkAd. I.P.PnvAA All SSSR.
(MURING)
AUK'1133TWO, 1-4.U.; BLINTKOV, S.M.; GUSMI, G.T.
Disorders of perception of sound direction as 9. symptom of cerebral
f ocal injur is a. Prob. f iz tol. akus t. , Moakra 1 -9.3-104 14,9. (CUM 19: 2 )
1. Physiological Institute imeni Academicia7a I.P.Pavlov of the AcBda.-
my of Sciences USSR and the Institute of the Brain of the Ministry
of Public Health.
cQt when
il: r:
GMRSHUNI, G.V.
.
study of asneations and conditioned reflaxea in man Linder the
influence of souad stimuli. Trudy fitiol. inst. 4:19-24 149.
(CONDITIONED RESPONSM) (K1& 9:5 )
(SENSES AIM SENSATION)
I
ll~hjsiological 1 rinciples of Ubjecti ve Audiom(Aryll, Trobl. ;iziol. Ak-ast.
..!oskva 1 pp '--71 1950.
11
GERSHUNI, G.V.
Physiological princiDles of objective audiometry. Prob4fiziol.
akust. 2:3-7 '50. (KIRA 10:11)
1. Fiziologicheskiy institut im. akad. I.P.Pavlova A3 SSSR.
(AUDIOKETRT)
ORSHUNT, G.V.
n.-- . ~
-" '~ " --. ;,
Quantitative investigation of the range of action of imperceptible
sound stimulations. Probl.fiziol.akust., Moskva Vol.2:29-36 1950.
(OLML 20:5)
1. Physiological Institute imeni Academician I.P.Pavlov of the
AcademV of Sciences USSR.
LISSR/Physica - Sound and Light, Oct 51
Intensities of
"Lowest Limits of Sound !ini Light Intensities That
Effect the Crgans of Hearing and Sight," G. V.
Gershun
"Zhur Tekh Fiz" Vol. M, No 10, lp 7.202-1204
This article is dedicated to the 70hh birthday of
Nikolay Nikolayevich Andreyev, Russian physicist.
Gershun assumes that conditiona' reactions surpass
sensitivity of organic senses. He presents curves
of axpt! data (cf. A. A. Kn--azeva, "Trudy Fiziol"
Inst imeni Pavlov, A Naak, no 43 1q,49). Stab-
mittel 31 Jan 51.
19IT96
GKUHUNI, G.T.; KOZHZVNIKOV, V.A.-, KATTATOVA, Te.S.
Studins on certain manifestations of the function of tho auditory
analyzer in man by means of conditioned cutanso-galvanic reflexes.
Vast. oto-rin. 16 no.4:14-20 Jl-Ag 154. (MIRA 7-8)
1. Iz laboratoril slukhovogo analizatora (2av. prof. G.T.Oarshuni)
Instituta fitiologii iment I.P.Pavloya Akademii nauk BSSR I kliuiki
bolesney uldia., gorla I nos& (zav. chlon-korrespondent Mademit medi-
tainskikh nauk SSSR V.F.Undrits) I Laningradekogo maditsinskogo
insituta.
(RULIX, CONDITIONED,
$cutanso-galvanic, auditory analysor funct. test)
(HEARING TEST,
*cutanso-g&lvanic conditioned reflex technic)
GXRSHUNI, G.V~
Using different reactions as a basis for studying the activity of
human sound analysor. Probl.fiziol.akust. 3:45-52 '55- (MLRA 9:5)
1. laboratoriya fiziologii slukhovogo analivatora Institute fiziologii
imeni I.P.Pavlova AN SSSR, Leningrad.
(HURING) (RIWLUM)
EXCEMMIA MIGA Sec.2 Vo" .9/ 8 Physiolorf 0 ate. MW 6
3653. GEER_SH *Characters of conditioned galvanic skin
~S__VXI Q_Y
reflexes and reactions of alpha-rhythm extinction In re.
sponse to 8 ub- and uprg-liminal auditory stimulation in
m a n (it u a a I a n t e x: t) 1. VYS6. NERV. DEJATEL, 1955, 515 (665-676)
Graphs 5 Tables 4
As long as the intensity of the auditory stimulus Is less than 6 decibels, the laten.
cy of the galvanic skin reflex is relatively great (average 3.1 Bec.), failing to 1.7
sec. when the threshold value is exceeded. The reactions show a very marked
change when the intensity is raised to 70 db,, at which point disturbances of the
alpha rhythm are frequently obl3erved. The Inhibition of this rhythm is of shorter
duration with subliminal than with supraliminal stimulation. It Is Concluded that a
switch-over occurs in the CNS when conditioned reflex activity is studied by alter.
ation of the intensity of the conditional stimulus, Von Skramlik - Berlin
-1 . ..
"About iNew ,'e~.hots of vleaq~irement of hea.-ing ;:ri IMan".
Abstr-icted for inclusion in Lhe jec-nd Internatiohal ~onj!-,re33 on "Ccustics,
I
w1ambridc',e, :-lass, .17-24, jun 1956
lavlov Institute of Physiology of the Acade,7V of 3cience of the USS-1,
Leninf,rad.
.1
USSF/Icoustics - Physiological Acoustics. $peach and SingLng, J-8
Abst Journal: Referat Zhur - Fizika, No 12, 1956, 35634
Author: Gershunin, G. V.
Institution: None
Title: On Certain New Methods of Measaribg Hearing of Humwn_13 and the
Results Ntained with Them
Original
Periodical: Akust. zh., 1956, 2, No 2, 137-141
Abstract: Explanation of new methods for measuring hear:Ing, based on the use
of conditioned reactions to sound by humane. Data are given to shuw
that the absolute hearing tlu~esholdB and differential limits fcr the
frequency and iti.tensity of pure tones can bemeasured in humans with
the,aid of these reactions with the same reliability, as when using
the v4rbal response; in some cases one observes conditioned re-
flexes', which appear to be subthreshold cneB w-Itbin lJmif,13 of one
to 6 db relative to the verbal response.
Card 1/2
IIVL
U&U/~colwtics - Physiollogicai Acoustics. SPeech and Singing,
Abat Journal; Referat Zhur - Fizika, No 12,:~956, 35634
Abstracts Based on the facts obtained, attention ia called to the alpifi-
cance of the central mechanisms, that sharpen and coarsen'-the de-
gree of discrimination of frequency and intenalty of tonal signals.
Card 2/2
1783. GE'RSUN'l G. V. Lab. (if the 11hysioi. of Acousti(-al Analyser Pavlov Inst. of
Physiol. , MMR Acad. of Sciences. ;~ Gene ra 1 re s ults of invest iga-
ting the activity of tile sound anaLyse r in,..ni an by means
of various reactions (Russian text) Z.VY~ .,NERV.DEJATEL.
1957. 7/1 (13-24) Graphs 5
,rhe article describes tile results of studying tile quanti!ative indices of the func-
tion of the acoustical analyser in man - the absolute and differential thresholds -
on the basis of various reactions. For this aim, in addition to the conventional
verbally conditioned reactions, use was made of conditioned eye-lid movements,
skin-galvanic, and electro-cortical reactions. All the reactions involved in the
study of quantitative indices of the acoustical analyser activity were classified into
three groups: (1) verbally conditioned reactions, (2) reactions elaborated with an
unconditioned reinforcement and (3) reactions developing 'on the spot', i.e. those
which do not require either unconditioned reinforcement in the experiment or
verbal instructions. It has been found that: (1) Absolute auditory thresholds and
differential threshold for the f requency and intensity of pure tones can be measured
in man with the help of these reactions as reliably as by meann of verbal respons-
es. (2) In some cases conditioned reflexes have appeared which are subthreshold
within I to 6 decibels in relation to the verbal response. (3) Changes in absolute
and differential sensitivity reaching 25-30 decibels can be discovered, depending
on the conditions under which the reactions occur. (4) Preliminary excitation of
certain parts of the motor system is one of the important conditions determining
the changes in the analyser sensitivity. The article discusses the possible mecha-
nisms determining the variability of ~he analyser parameters and their conformity
with the nature of the activity in question. The author points out the weakness of
those schemes of analyser activity which ignore the significance of two-way con-
nections in the integral organism.
AVAKYAN, R.V.; GERSHUNI, G.V.1 RATINBERG, N.A.
Studies of the auditory analysor in signs of hysteric deafness
[with summary in English]. Zhur.vys.nerv.d6ist- 7 ra.3:325-334
KY-Je 157. (MIRA 10:10)
1. laborstoriya fiz1ologit slukhovogo analizatore Instituta fitio-
logii, is. I.P.Pavlove AN 66SR i Laningrodskiy asuchno-issledovatell-
Bkiy institut po boleznyam ukha, gorla, noss i rechi.
(HARING TISTS,
in hysteric deafness. conditioned reflex method (Rua))
(REFIZX, CONDITIONID,
in hearing tests in hysteric deafness (Rua))
11 ~' i 111! 1 HIM 111111711 If 11111 !11 it, I I I I I 1~11;. I I I; I i
P -1
Dec-ll V131.1,_47 Ao-:ihino-Lar.vn~o Jill-57
1409. GISRSUM G. V. Pavlov Ins t. of llhysit)l. , Acad. -,)I* Scis, U.S.S.H., L eningrad.
-4 7�ric e Frni ng neW me tiio,16' Of III(! III C:tS U rem (~IIIL f)f heL ring
in ni an J. A COUST. SOC, AM E It. 1957, 21), 1 (i21)-131) Graphn --I
It is known that the main juarititative cha rac!v ris tics of hearing in inan can be Ob-
tained by so-called psychophysi(:al metiiods. In thuse methods the responivs to
sound stirnuli are based upor the use of verbal instrm.-tions, Th"4 paper gives a
description of methods of measurements of hearing based upon the use of other
different responses to sound stimuli. A set of different conditioned responses was
uslA (galvanic-skin reflexes, eyelid reflexes, electro -cortical and OcUlonlotor re-
actions). The data obtjined by these methods show the following: (1) absolute audi-
tory thresholds and difference Limens for frequency and inteiwity of pure tones call
be measured with the same accuracy by these reactions as by verbal responses;
(2) in certain cases conditioned reflexes subliminal to the verbal response in the
range of I to 6 db. may 6a detected; (3) changes of absolute sensitivity, attaining
25 to 30 db. and dependent on the conditions under which the reacW)ns take place,
can be detected. The present data of hearing mea-qurements obtained by means of
different responses are considered as highly chnracturistic of the procest; of sound
discrimination in man and animals.
U31311 / 'Human and lulilanl Fiayoiology. Nervow3 System, Righer DlervotwT
Activity, Behavior.
Abs Jour Ref Zhur - mol., 11o 15, 1958, NO- 7CO3
Author Gershu;ii, G. V.
Inst Not ~,iven
Title Discrimination by the Human Audl-tory Anallyzer e-f Complex
5tWuli witli increasing kmounts of Inforvitioxxi
Ori6 Pub :Fiziol. Z11. Sst~R, 1957, Vol 43, No 11, 1086-1.0,07
Abstract :In addition to its physical complexity, each stImalus is
characterized by the complexity of that aggregate of which
It is an elei~ient. An assessment of this statistical
complexity of the stimulus is possible with the use cf the
methods of the theory of information (I). For any
analyzer, various systems of stimuli my he created which
my be evaluated according to 7arinum signs; the amount o.-L'
I in the atii-wlue, the character of the code (the method
Card 1/2
1, ~ -
GERSHMI 1, G. V.
Rel,,Ition.qhip between the sengitivity of the nnpklysor nnd the npture
of renctions producad In man. Probl.fizioloopt, 12:79-81 158
(HIRA 11:6)
1. LnborRtoriay fiziologii slukhovogo annlizntorn InBtitutn fisiologii
im. 1.P. Pnviovn AN SSSR.
(OPTICS, PHYSIOWGICAL)
G!AgMl, G.T.; KNTAZVA, A.A.
Auditory adaptation under conditions of I'distractod attention.0
Probl.fiziol.akast. 4:5-15 159. (KMA 1315)
1. Laboratoriya fiziologil alukhovogo analizators. Institute, fiziologii
im. 1.P. Favlovs, AN SSSR i rafedra boleznay ukha, gorla i nosa 1-go
Leningradskogo meditsinskogo institute, im. 1.P. Pavlova, Lenitgrad.
(HWING)
GIMSMI, , - G-. V. - -
Current date, from studying the activity of the biological sound
analyzer aud our objectives. Trudy Inst.fiziol. 8:18-23 159.
(MM 13:5)
1. laboratorlya fiziologli alukhovogo analizatore. (saveduyushchiv -
G.T. Gershuni Institute. fiziologii Im. I.P. I~tvlova All SSSR.
(MRING)
GERSHURI, G.V.; KLAAS, Tu.A.: LUK014SUYA, U.Tn.; I,TNTIJCHFV, M.N.;
SAGAL, A. A.
Method of evaluating human discrimination of sound stimuli with
increasing amounts of Information and its use In atudying the
effect of certain phaxinacological substances [with suminaz7 in
English]. Biofizika 4 no.2:158-165 159. (KIRA 12:4)
1. Inotitut fiziology imeni I.P. Pavlova All SSSR, Leningrad 1-y
Lenin,gradskiy meditsinskiy institut imeni I.P. Pa7lova.
(PHARRACOLOGY,
discrimination of sound ntimull vith increased
amount of information in investigation of off.
of pharmacol. prep. (RUB))
(FMCEPTION1
same)
(SOUNDS, off.
same)
GXRSHUNI, G.V. (Leningrad)
International Colloqium on Electrooncephalography of the Higher
Nervous Activity. Fiziol.zhur. 45 n0.2:208-215 7 '59.
(KIRA 12-3)
(RI&TRONNGMULOGRAW-CONGIOSSIS)
GMSHVI, G.V.
Central regulation of discharges from the peripheral neuron of
the auditory system. Fiziol.zhur.SSSR 45 no.7:7?2-7?? Tl 159.
(MIRA 1);4)
1. From the laboratory of physiology of Vio waditory analyzor,
I.P. Favlov Institute of Physiology, Leningrad.
(ACOUSTLIC 1MY1 pbyaiolog7)
(CENTRAL MIRYOUS SYSTIM physiolog7)
GIRSHMNI, G.V.
Physiology of analyzers. Fiziol.zh-mr. 45 no.11:1403-14,04 N 159.
(MIRA 13:5)
(PHYSIOLOGY)
AUKSHMIKO, II.Yu.; KLAAS, Yu.A.; SHAFRANOYSKIY, K.I., Frininal uchastiye
CMUWN, T.P. LUFFOY, S.P., at-i.red.; :G4~,~t 4. V
......... prof.,
rod.,- GOLIDANSKAYA, M.I., red.izd-va; KRUGLINOTA, N.A., tekhn.rad.
[Physiological acoustics; bibliographical index of Soviet literature,
1917-19501 Fiziologicheeksia akustika; bibliograficheskii uka-
zatell sovetskoi literatury, 1917-1950. Hoskyo, Izd-vo Akad.nauk
sm, ig6o. 136 p. (141RA 14:1)
1. Akademiya nauk SM. Biblioteks. 2. Institut vyeshey nervnoy
deyntellnosti AN SSSR (for Alsksayonko). ). Inatitut fiziologii
im. I.P.Pavlova AN SM (for Klans). 4. Bibliotaka Z SSSR (for
Shafranovskiy, Charman).
(BIBLIOGRA-PHT--HEARING)
GIRSIIIJNI, G.V., prof.
Hearing. Zdorovle 6 no.1:9-11 A 160. (MERA 13:4)
(HMING)
2727
t" / 0 '0 12
3/104' '601005/003/0c31
B006/'BO63
AUTHOR: Gershuni, G. V.
TITLE: Regulation of a Ifeural Pulse Stream in the Auditory System
PERIODICAL: Akusticheskiy zhurnal, 1960, Vol~ 6, No~ 3, pp, 299-301,
TEXT: On the basis of electric-phyaiological examinations of reflexes of
various parts of the auditory system (cochlea, geniculate body, cerebral
cortex) of living beings the author studies the problem of regulating the
current of primary impulses in the organism, which permit the "informativoll
perception of sound signals. Fig. 1 illustrates the electric reactions 0t
various parts of the auditory system to a sound signal of a duration of
10 msec, The electric oscillations have amplitudes of 50 4Y. The dependenOF1
of these amplitudes on the sound intensity is shown in Fig~ 2. The first
nerve stimuli in the cochlea attain amplitudes of nearly 100 pv (at 80
decibels) and tire largely dependent on the sound intonsity (curve 1). The
amplitudes of the first positive wave are not higher than 10 v. At intensi-
ties of more than 40 decibels they are practically no longer dependent on
the sound intensity (Curve 2).. The first pocitive navc in the auditory
Card 1/3
Regulotion of a Neural Pulse Stream in the S/046/6o//006/'003/003/012
Auditory System B006/BO63
area of the cortex attains amplitudes of up to 70 ~tv, and the dependence
of the amplitudes on the sound intensity decreases rapidly (Curve 3), Next,
the author discusses special electric reaction dia,~7,rams which were taken
under different conditions, and studies the effects of disturbances
(e.go, anesthesia, partial destruction of the auditory area of the cortex)
The results discussed here wereq for the major part, publinhed by
Ya~ A. Al~tman, They illustrate the importance of the various ways of im,
pulse regulation in the organism. 1) The current of impulseeresulting
from an acoustic stimulation in a nerve is limited, The secondary current
caused by this current are also limited. 2) The current of impulses result-
ing from the action of a special system of (reverse) conneations radiating
from the center is limited. 3) The current of impulves in the higher
ranges of the auditory system changes under the action of sections of the
central nervous system outside the auditory system. The author discusses
two znechanism8 of the regulation of Information tranomitted by currents
of nervous impulses which may occur in the auditory system under the action
of sound. The first mechanism consists in a change of' the participating
elements, and the second one in a change of the level of the char;.,cteristic.
noise in the systems Mention 18 made of Nikolay Nikolayevirh Andreyev and
Card 2/3
62727
Regulation of a Neural Pulse Stream in the S,"046/6o/oo6/oo3/oo3/o12
Auditory System Iclo6/BO63
A. M. Maruseva. There are 5 figures and 24 references, 13 Soviet and
3 US.
ASSOCIATION: Institut fiziologii im. I. P. Pavlova Leninjzrad
(Institute of Physiology imeni I. P. Pavlov, Leningrad)
SUBMITTED: May 18, 1960
Card 313
GERSHUNIP G.V.
Evaluation of the functional significance of electrical responses
of the additory system. Responses to short sowids (clicks) and the
determination of the initial moment of the sthwlus action. Fiziol.
zhur. 48 lio-3:241-250 Mr '62. (MIRA 15.4)
1. From the Laboratory of Auditory Analyser Physiology, I.P.Pavlov
Institute of Physiologyo Leningrad.
(HEARING) (EUXTHOPHYSIOLOGY)
KUZIN, A.M., glav. red.; GELIFAND, I.M., red.; LIVAROV, M.N., red.;
GERSHUNI G.V,, doktor med. nauk, red.; XMICIN, Ya.l., doktor
Tiz.-matam. nauk, red.; KOCHEMZHKIN, V.G., Xand. biol. nauk,
red.; GURFINKELI, V.S., red. izd-va; POLFXOVA, T.P., tekhn.red.
(Biological aspects of eybemotics)Biologichaskie aspekty kiber-
netiki; sbornik rabot. Moskva, Izd-vo Akad. nauk SSSR, 1962.
237 p. (MIRA 16:1)
1. Akademiya nauk SSSR. Nauchnyy oovet po kampleksnoy problems
"kibernetika. " 2. Chlen-korrespondent Akedemli nauk MR (for
Kuzin, Gellfand, Livanov).
(CYBERWICS)
GERSHUNI, G,V.
Evjko~d pot8ntdada and ui.5chanims of disariatinittion of wi ex-
ternal signal. Zhur. v-ys. nerv. delat. 13 no*!W82490
S-0163 (MIRA 16t11)
1. Laboratory of 1cmistic. kiwlymar Phys.lology, Pavlov Insti-
~uto! of Ry8iolagy, U.S.S.R. Icademy of Sci(mp!q, Liningrad.
pp i~
4 n t In
A4
trv: ~~CJI"!~
1'7
R7
13II11KOVO Y(I.,")., kimel. tokhri. nauk (Clio Iyabi nak) ; (11131111111, G.V., prof.
Iq our ear a radio Loudspeaker? Pr1roda 53 r1().9:124-125 '64.
.t. (MIRA 17:10)
1. Institut fizlologii im. I.P. Pavlova (for Gershunfl.
26)-273
Institilt
GERSHUNI, G. Z.
USSR/Physics - Ifeat Transfer
1 Oct 52
"Free Thermal Convection in Space Between Vertical Coaxial Cylinders,"
G. Z. Gershuni, Molotov State Univ imeni Gor'kiy
DAN, Vol 86, No 4, pp 697-8
Investigates thermal convection In a liquid between coaxial cylinders
at dif9erent temperatures. Finds that heat transfer from hot to cool
cylinder depends an molecular thermal conductivity of liquid. It holds
true as ling as Gr. Pr 13 (Prandl-Grasshof number). Ovee this limit
solution Is unBtable and torbulence occurs. Presented by Acad M. A.
Leontovich 3 Jul 52.
252Tr
.j6
1) U It ~l ~u )[I
Ano:~::.lo~usly lil,',i iii r I
1) In t ae to Fnera, dissi~~rjtic;n of the nound wz ve, le ,rvlym~. A for-
,:.Ul,,) of I inE F r F-1) - -~r, 'ion i~i Oeriv~d.
2797. NEKOTORYS SOFRO Sy USTOYCH I R05T I 5T A 751 ON Aft NY" H KONVEXT I VHYKH Or. I ZME141 T. MOLOCTOY, I 9~ij,
(M-VO VY5514. (JCRAZOVANIYA SS(~P. MOLOTOV-iKly GO5- uN-T im. A. M. GAR1,40GO)
C,c 2L 04.
IM EKZ. B. T3. - 154-56626)
SO: KNIZIIANAYA LETOPIS. VOL. 2. 1955
Uch. Zap "lolotoVsk- lll--t~!, 1-951h, '17-"'
rl
in ~h-2 of' :-~Iit with lmra? I vnl.ls
"C' dif-"erent. ,:m,7t st ~,t s- ol;-it I of re foli'A in tw,-:;
I t~, 1, t c, v o,-, 1y o I I r,~ I rr rl!. I ri(I :111;,v
1", fluollinf;I-Ay's ~ormuli,., Tho
d L"ILL
o -r~t t.mmf'(,r ho~ co-
mined b,,, r-,oleclulf:x ll,~rlt I.h.2 1,
1955)
SO: S~un-*~,`(:) 731',
W 6HUNI, G. Z.
"Certain Problems of the Stability of Stationary Convective lfovr~ments."
Cand Pbys-Math Sei, Molotov State U. Min Higher Education USSR, Molotov, lY54-
(h'L No 2, Jan 55)
Survey of Scientific and Technical Dissertations Defended at USSR Higher
Educational Institutions (12)
SO: Sum. No. 556, 24 Jun 55
USSR/Physic3 Convective movement atability FD-J'051
Card 1/2 Pub. 153 - 20/23
Author Gershuni, G. Z.
Title Problem of the stability of planar convective movement of a liquid
Periodical Zhur. tekh. fiz., 25, February 1955, 351-357
Abstract Earlier the author investigated (ibid., 2', 1838, 1953) the sta-
bility of stationary convective movement of a liquid between ver-
tical parallel planes heated to different temperatures or between
planes arbitrarily oriented relative to the gravitational field,
the investigation showing that for various angles of Inclination
the crisis of stationary movement occurs for different causes;
further, this problem is of interest for its own self since it re-
lates to the practical important problem of heat transfer through
liquid or gas layers. In the present work the author considers
the convective movement of a liquid in the portion of a planar
slot remote from the ends which is formed by two planes beTween
which is maintained a constant temperature differ;nce T. He drives
Card 2/2
FD-30-11
Abstract : the related equations and solves. He clarifies that the so called
threshold of convection is a special case of the occurrence of
turbulence, as noted by V. S. Sorokin (Prikl. mat. i mekh., 18,
197, 1954). He thanks V. S. Sorokin for discussions. Seven ref-
erences: e.g. V. S. Sorokin, Prikl. mat. i mekh., 17, 39, 1953-
Institution : -
Submitted : June 25, 1954
AUT111URS Gershuni, G. Z. and Zhukho,iits~--ij, Ye, M.
TITa': Two Types of Unstable Convective FlOW ?Otween Farale-il
Vertical Planes (0 dvukh tipukh neustoychivosti
konvektivnoL,o dvizheniya iu(,,zhdu par-'illelInylai
vertikallnymi ploskosty,,uai)
Pi~RIODICAL: Izvestiya Vysshikh Uchebnykh Zavedeniy, -'Fizillca,
1958, Nr 4, pp 43-47 (USSR)
ABSTRACT: The stability of stationary convective flov betwe,~n
paral-lel vertical planes held at differ4ant tamperatures
has '-il.Veady been investigated by thil- first author, usi:UE;
Golerkin's method (Ref,l). In the preslwrt paper the
authors have used a more couplicated for~i for the.
approxi,aating functions (see Fqs,5), and have so fad^ a
more accurate apDrox-Juiate solution. This has ellovied. -a
more accurate calculation of the eaxliex, ~,:-,rid bas
in addition uncovered a second type cor ija,z-abilit:i, not
"iven in Oie earlier %,iork E,,T, a119 a type with null- phase
velocity which the lauthorp c:.ill a 11PLandin~; distvrbance"
as op~)osed to a "Lravellinj-, disturbfince". llak-irii.,, the.
plalles to bex = + 1, 7,he d i,!ie ns iot i le s si: q uat ions for
Cardl/4 ~!',abion3ry ~c)nv,~Jivt3 flow are t;iven C;qjil. T'ne
6 ~ V / 1 8 J, - '3/3 0
Two Types of Unstable Convectivl'-~ Flow
Plane s
strewii and LeIiiperature functions (p and of pi.---ine
'narmonic disturbances ~jre given by ;bald %ith
boundary conditions as in ~-"q.(4). G and P :.-trtj Gratz,~shof
and Prandtl numbers, k and (,) tile WEIVe UUMbor
frequency of the disturbance. These equatiou~-: v:~,-re d~~vived
by the first author (Ref 1), The ','1111;~SUULI C-:,"
-n reducetA to Chat j ijjj;. e 1~ _rl --za lue s
has thus be~. of fi ~:) i S
of equations (2) to (4). The aui;klors fin", ;--ITi ",~proxiraate
Solution to 4
u-his problem b assumin6 fo-rms for 4) and
'Uhe type given in P, They then. make plb- -b le
of q
guesses at
(PP ~P23 1 02) 1 s3e EqS "a':' (a
boundarY conditions are now saLisfie(l by the appi,exirmcate
solution, This solution differs from the cruder
mation the first author used previously (Ref 1) ir, that the
stream function ~p is now the sum of two functions, -with
two variable coefficients, and thiil; the aduitional
,q.( , is taken into a(.count.
boundary condition on E), ~ rl )
Usin6 Galerkirl's, method, tile authorc. obtain Eq,(12) for
real eiL?,en ValUE!S Of w, and Eq., ( 11) fo v t!T-,!!' cor're ~;ponfj Ii n F~
Card2/4 relaLlion between G and k. Eliminat;jni~ (,) bett~een
Is o v/ I
D.%o T ues of Unstable 1,1-vective Fiw-; I-aralle':
Pl'j nes
Lind Bfj.(12), ~_ cwrve is obtairied iri Lhe (G,'-.) 1, n.,
the authors call a Ineutral curve' - i.e. one
correspondiiij, Lo r~,al wilues of (j). From the of
-i'c : i , *,--. curve the criLical vzluos: of th-'!
U ..iini:,iium on t.11
Grasshof nw;ibor G alid the wave nwaber Ir 0-i'l folir'(1
W, = 0 'ives a coluTion of j~,q.(12), ai,& tlt,~.
curve of G11i a6ainst lo~, P is ohL)V;jl in Fig.1, In the
ranGe shown k vias practical-ly constant, ii-_ , on!,;
from J-6 to 1.~. This is the inscabilit,. ti~_Ilt 110--t
revealed in the cr;rlier (Ref 1.),
for P I~j type 01
) 1.8 ti-te authors obtain Ghe tecc;i,
ii:'_ U;Jbiiity - tll-:- "truvelling" type. F o,~~ !,hio 'Iype IoLl~ G
Vq
_Ls piotT.-ed against lo6 P in Fif~.2 (full 1,n-). -Ilk ) i s
as,ym,ptcticnll.y true, and a ,ood ~-ipproxiiiauion for P>'50,
For this type k11 incr-3ases fro.a. 0 .1o 1.6 at P>,--O,
4, 11 j',;
For type of d is turbl~; rice Lhure 1 1`00 1.'-ement
t,hc author's eurlier work (Ref ILIKus eq.(14) wa,.~
2'_'L~ of 214 in -z~he
~~J,o obtained, 0
- J_ ~
r.u_:ierqtor, and the asymptote iwjs Utu P = 0 6,
Card5/4 ~he ai~;in results can be suitimar-ised thus:
I I 30j-r-8 -4.-V30
T-.,.:c, Typps of UnzUable Coiivectivc
P 1,-- 1 Ie s
For convective flow between two p- allel planes neld at
different temperatures, instabilities aiDei-Ir if tht-,re ~s a
large temperature difference betvo~"-n thc,~ planes. "Stra'-ding"
disturbances correspond to P< 1~3, both types are
cosi,ible for P"> 1.6, thoub'n for P,;~ "cxaveIiin--"
aisturb--nees are Lhe more Mirij~erous as Lhey corr~~,-I,pcna to
a s~ialier Grasshof nwiiber.
Theri3 are. _-~ fiGures and 1Soviet referenoe,
i'~S,~OCIATIOIIS: Permskiy gosuniversitet (Perm' StaTe Univuerz-_-Ly' -and
Per:;151:1~r
InstituW
January 8, 1953
CaTd 4/4
130V/1.26-6-2-22/34
AUTEORS: Gi~i~~;Iiun.i, G. Z. and Zhuk-hovitskiy, Ye, M.
TITLZ: Forced Vibrations in an 1~,lasto-Plastlc System
(V3rnu/,hdennyye kolebaiiiya v uprugo-plasticheskoy Sisteme)
PERIODICAL: Fizika Metallov i Metallovedeniye, 1958, Vol 6, Nr 2,
PP 339-346 (USSR)
ABSTRACT: Forced vibrations in an elasto-plastic system beyond
the elasUc 11init are considered. Friction and hysteresis
are taken into ac~--.ount. The resonance properties of such
a 3ystem are discussed and compared with tile exDeritiental
data given in Refs. 1 and 2. The equation of motion of a
point under the action of an elasto-:1)lastic force F(x)
and an external forcerG sin (wt + 0 is of the following
form
inx + Xx + F(x) = G sin (wt + (p) (2)
v-.,here X is the coefficient of friction and F(x) is given
by:
F kIX1 FII = FM + k2(x - xm), (3)
Card J/1L FIII m kl(x - A), FIV = -Fm + k 2 (x + xm -A)
Forced Vibrations in an Elasto-Plastic System
where the various constants have the
in FiL., 1. The above equation is theri
dimensionless foria
x + Px 4 f(X) = 6 sill (pt +
,;,,he re
P lj)/Wo, g G/F in X/Mwo,
43OV/126-6-2-22P.11
i-,iearL1n6 Indicated
re-written in the
(P)
f + FIFm
f X, f
f .11 1 + a (x 6), (5)
III - 5, f IV 1 + oc (x +
6 = and a 2
)CM k1
The problem consists of finding periodic solutions of 'the
above equation which have a period 21Y/p, i.e. equal to the
period of the forcer. The appropriate system of bowidary
Card 211 conditions ic ~,iven by Eq.(6). The equations are solved blY
~ an appro.-:L-dation method su66ested by B. G. Galerkin.
Forced Vibrati--aas in an Elasto-Plastic System SOV/126-6-2-22/~--A
in the case 0 = 0 the resonance curves are as shoiin in
Figs. 2 and 3 (a = k /k cf Fig.1). The foria of the
2 -L
curves indicates the prisenc; of con-iderable abso1.'-r)tiU1.'
due to hystereoLs. The as-symmetry of the curves
becomes ;aore pronounced as a decreases, The low
frequency sidle of the resonance curve is steeper than
the hiCh frequency side. When the coeffLcient of
Iriction is not zero the resonance freqivricy beyond the
elastic li:At increases as friction increases. In
Eeneral, the resonance frequency decr~,asez ~t lar6er
a~aplituudes of vibration and the relation bet,~jeen the
"'Hiplitude of vibration and the amplitude of the forci;;L-'-
function is tion-linear. The probleri was su6~;ested by
Professor M. Ko-:-nfelld. There are 7 fiEures and
4 references, 3 of .,,-hich are Soviet, 1 EnE;1ish.
Card 3/4
Forced VI In ir, ~,I a,,,,to-PI n:-;t:Lr 5, B wa 341126_(,_;~. , ;III
y t )2P
ASSOC LLPIOFI~): E;o:zuJari~tvenaiyy universitet
(Per!, ' 3tatu, University) and
Pori:~Sldy icheq;.:L.,f instLtulu-
(Perm' I;:'cdaL,,oL.--jCa1 Inotitute)
SUUH111T..~T.- Jun,~ ?, 11(,56
Card 4/4 1. Vibr;ition--Theory 2. Mathematics--Applications
1". SOVI 56-34 - 1-2c r"
AUTHOR3; C, (-. ~, , I
TITLE: The JtUationary Curivective 11.1otiun of an ~. 1lectricLlly Conducting
Liquid Between parallel Jurfaces in a Ma,-,netic Field (StaL:~-Jon-
arnoye konvektivnoye dvizheniye elekt.-oprovodyashchey n"id-
'-osti mezhdu parallel' nymi ploskostyami v i:i,.[.-,nitnom tole)
PERIODICAL: Zhurnal E%operimentallnoy i Teoretichi:1-okoy Fi-,iki, 195c;,
Vol. 34, 11r 3, pp. r,'70-674 (USSR)
ABSTRACT: The t-.,to planes referrred to in the title ;!i~%, be !,eated to
various tanperLturej. First, the equations of Ville incticli Of tile
medium (these are the equations of convection in the cese in-
vestigated here) and the Maxwell equations for the field in the
medium are written down. In the equation for the curl of the
ma.,-netic field, the displacement CLI=ent is neelected and in
the equation of heat cenduction - the tough diosiration and
Joule dissipation. The electric field stcerit-th and the current
density are eliminated first from IMmx-iiell13 equation. The
above
-mentioned equations tire subs-aquently converted into di-
mensionless variableo. 4 dimensionless parameter3 occur in
Card 1/3 these equations. The authors inve~itii-IL'O' here the steady
SOV 5E-34- 1-20/55
The 6tatiunary "cavective 14otion of an Electricali '.,' C, ni 17 0
y
Liquid Between Parallel Surfaces in a -i~[-netic Fi~.~ld
convection in the space betaeen vertical parallel z5urfaces
in the case of the prooence of an exterior mairnetic field
which is vertical to the surfaces. If 'lie linear dimensions
of the surfaces -are cufficiently Creat compaxed with the
distance between them, then an accurate, solution of the above-
-mentioned dimensionless equation3 can be determined which
describes the zteady solution in the 1~art dli,.;Lariced from the
ends of the Eap formed by 'the surfaces. 4his notion has t`-e
following pecul.arities: 1) The velocity v is always perallel
to the z-axi3. 2) The temperature T d~,,pends only on X. 3) The
field-vector 11 is situated everywhere in the surface (X--),
viz. it holds Hy = 0- 4) All values do not dc~Lend on y
(plane problem) and t.tcept pressure, neiti-er on Z. In this
case the z-axis is parallel to the slirfaces and the x-axi3 is
vertical to them. The authors determine here the distribution
of temperature, velocity and field st~-ength on the cross
section. Fir6t, T = -x is found. Also the terris for the
velocity distribution and the m gnetie-, field stroncth are
Civen explicitelyi all these formulae to,_ether re,pra3ent the
solution of the problera discussed here. A diarr_ram, Jenonstrate3
Card 2/5 t,,.e volocity-d~ stributions for the Qnrtman nirzbers 11.', - C, 5) 10.
"Hil I
SOV/56-3'~-3-20/r 5
The Station&ry Convective ,:otion of ar. El e-- trio ',cnd---~c-:inj
Liquid FaralLel Surface.,i in a -!',~r.,.atic Fiold
The velocitydistribution v - Gx(X2 - 1)/6 is obtained with
lackinG field. The votion decreases raridly %vJth increat3ine
fioid strength. Mloreover, a peculiar boundary layer uncuro in
the flow: A thin layer with an i portant, -radlent of 10L,ci%~
is fcrmed in the vicirit., -of the walls. Also '!~e ~;i3triijution
of tl,-.c induced ma,-~netic field on c~,-oss is d,~:.;(jn3trat-
cd bY a dial-:rzui. a fivrm,iln for the voi-tical co.,-
vective tiermic flow is -iven. Tne fz~und here de-
3cribes the i:iotion in a vertical t;ap in the presence of a
transverjal external field. It may, however, be readilT
generalized for ca3as with inclined ,ap and with ar, external
field oriented at randoin. The-re ar,'., 2 fieures and 3 refere:ices,
1 of which is Soviet.
ASSOCIATION: Permskiy gosudar3tvennyy univer3itet (Perm 3t--te University),
Permskliy pedagogicheskiy institut (Perin Pddagor7ical Institute)
SUBMITTED: Sei)ternber 19, 19.57
Card 3/3
A U'21, 10 R Zhlikhr)v 1 !, !k Y SCV/56-311
TITL7: On tile StabilLty of Sten!!y Convective `0~ion of ,In
rrll~?l V,-?rt
`1,ictri-c:,11y Coriductin~~ TAllu 1 1 R:,t -ieen Pr,
in -i '~-rnoiir
T r) n 1 r:
kn:-., lvno-o i
P,-'R IC D I CA T, r'.~Ijj 1-tl:i 1 71-,,! i)ijt", 1'lo:,. i 7, C) I't :;ko"
V-1. TS1,R)
ABSTRACT - First the authors i... !'t-- f,o oarl',?r th,~
same subjolot rlmcn- th,t,: one (Ref,l).
flic. c,-;~~e "11-.
i till' 0 rl :JQ0 11 v t a , i y
r r' o a t in the some way as G.Z, Gerabuni
in his studY III - oqw, t ioris for th,~
r tu r b ,I t i;1 r, ru" do%-m, the authov: riQ re i P,,,, - t in r
two-dimensional !.1,;o P current function
C,~rd 1./ 4 a v~rtor potenti.!l ti.- ~:Jroluo.~f~. 'lle Of tlh~-
0 ri t h ~S t Y
A- SOV '5~i-34-5-21,
CallY,"on-iuct;tz(~ Liqu'
Wi eld
part of th,-~ Cr ~,~uenr,:.- t, ri n, ho bpli-qviour of
perturbations. The nutho:-!; then ~enion ~',- dif'Ceren'k-l
equations for th-~ nmnlitur!i~s or th,! perf.url)-tion3 c-f velo~-
city i)nd terv),rnt.uro ITI 1,11 - lolindni..'.
plrmno !)ounrtin,,~ the liqliii~; M,, bouri-Fvry
coniil.iwil ;lrt, :,0 lown. '*'~w tl),~
N-Ad noo!it irl. 1-,,~n~rrtj, nol, 11 Y)undury f,,on -
d i t Lnn:1 Cor tho f iold :;(!j,Vn t.hp "on II i -j--. on Hw
,;ep%ratin~ surfrac,~s of th, In.,rthemore tqo possible
ori ntations of the const;mt, Cield r~r,~ inv;.,C-tD,,,-.te11:
1 . -The coaq fi-,1(l is 3itlmt!~rl at
ric-lit -il,,lum, olio zio to tho
V-~Ctor of th~ liquie':,
2 . -The extc~rn:.!\. f DA1 h,', d LO!" -3 th'i VP I o-
1. .. -- '-,-.I_-Is tlle
c. i ty. "d t h n e
:;Mplitutle of t!,, i. v~.)ctor ,-~ot,~iltirtl of' th,~
fit~lfl o"I bioli.:iini fro-n thi, Th e ~) 1'~) 1, 1
t h ? n r t ~ ~4 u~ ~ ; t. o t h ,~ f 1 q Io f t I io t Lm 1) 1 L t 11 t 1 1 3of tne mi-ront
flifictioa nri-I of from th i.v,--ii of th,2
cim"ition!i p~-,rtainirif- to it.
21 prol)lem nu ~ th-)
tll:~ I I of S* Con- :(., ti'"/ ''-I tic,!L r3 r an SOV/56-34
c I I L:~ ,),i 'izI-11 L ' n~~ 11~~ i~l i d 73r, P rill Dol Vert i or! Iin
-,ield
Vii a !;(1111tio'l 0:11~. for certairl valll~,,;
o' Oie numlh,~rW . In tho s,,?cont chanter of thitn
pr3b I ~!-i for i:il [s ve.-A !,,i ima Uon ace or-1
-1t)thmi h:, tho colirz-~,~ ,)C cr);-,pn1tntion
follo~-,,,-l al p by ~tpp. The results obtained ara,
~;,!mtrtt.,Ay for '.h- .,ag(,- of' 1i lon-itudinti- vni
.,aiw tho cr~ticnl
.[five ria-,i.)!~r kAocreas-.-3 monotonoimly -itll imrepsinp. M
ra
-,,fith th(-~ fi~~li b-co,iiriC itrm.-i~r the ivve
leriL7tli th-) stpady pcrttirbation3
the invo3tiJla'~,A st,2.ilY riollion 1.3 imijtablo Also with
,,ard to nonsteady :)erturbat;.,)n- when a tran:vr2rse fic-1.1
i3 --,r:?3eiit. Si;ch a instah~li.ty xtppt~-qrs at sufficiently
f'ri'dat Cltdd 3tr ingth:,- A shoiri the lependence of
the cr~ ticill, olvo mmhor on tho fiold strvn~~th. In Vho
case of a lowritil-lirlal fj~.,Jd tho -jtabLlLty onn ~.a
0
oo;fipensated only b'i st-narly p.F~rturbat Loris withto= 0 . 1.
Card Ion,- Ltu'l *,,I!~! fLel,! incr(ms3-,1 th? .!taVI~-ty of motion
* ;1 -11; it I, , 1; 111 1!11, i I I -.,I I ~ I
sov/,56-34 .3-,i 1
-H ec tr,'c.,Illy Con-luctinr Li.quid 7",~tvio,m in a
:Aagnet~c F~ell
much lon!; khan q
fifild thf, criticial vv,11~ wirib:!r ~ionotoiloli.-;ly
L th I rif, r !I i st v ~m~th . Th, ,I 1 1 4 4~ I ti.v- ~ .-.:3,.11 i-rl
obtained can be m9Ae more precise by their
10" IM'A. Tllnrz~ vr- I. f -enireu , I V -10
zw~ 4 of whir~h ar,~ Sovi,-.t.
ASWCIATIC~;: Per-.ij'::.L:, 1,ojurlarotronny uiiv,)rnitot TTiLv!!:%5; ty
Per-il Pjr skiy
'Perm Ztrltu Pedfli-o.-ic 1,1.stitu~(;
SUBMITTZD: 11) " r
(;,ard 4/!l
rt /6 W.-D
,I --a InT.-d
-irn r= 11r.-
'.7z VI-14 ---;g -Cl -7 MU --IA
rt.tA
A.C.A
-T"~tx". Iqx V-
'.dMd
r--.s *ws J.
t'-'kTT J.
e-._-Trdd' tp-p^
J. 'r.~ --P R~.I_ I-"
_u a- A%Trtq-.-
'Z-.T r~ mol~~
ft-s- J. --V-4--P
-T-C) -;Lrqd- ; J. -r~
..t~%_ .-V--Ap
-tq~ %-1a -gz
AR -.-..d
ZT-res- VT.% q -n
-TV", -m- In % %..d X-S -t
w-.jj-.V -j ~.d cT-. _.K
P.rred. -M-,4 crl J- -. -dT'rA-W -In S-TS--d
q--- V~Tp ~rda
V.Ttdft V- T..ttW
.-.4j- q% J.
-u V.TrW. .1 -"q-d
,-STE I rtq -~V- -Avmaw
*.Vw_9f--Plbt
71.u q~ r% S~R-_ ".I.It4d '.j Tp~-T In X.Oq -T-M -spacm
~C-U-rrl 'T .'" 'V-z t--luT.4x-% 'v .,IN
..M7-3 vw
'TcMTA -- I.
P_ -T.Cru J. -m-D *-n-& '-.t,JL V_ .I"u jo
-M-7 !-J-4 JM -~--G 'R-P-1-A 'X-T I .... S-M
j~--a IITX~ rx-r-"j Iris rp-w T-1-.KTM
Lx_-9wwn__d0
'V2.1.d ..Td.. 000 "1 drrt-
-d OK '6561 =a lem"In-I xv -V-l I.PM
AVws !Amwtd ra-va i PrP-TPo-PI2 xwM - Asm."A
Z9JI/AOB mm I X"K
24(8)
AUTHOPS; Gorshuni, G. Z. , _'/,huj,'1iovi'U-skiy, Ye. MI. S07 "20.1211-2-15/71
TITLE- A Closed Convective I-oundary Layer
(Zamknutyy konvektivnyy po,-,ranichny3, sloy)
PERIODICAL: Doklady Akademij. nauk SSSR, 1959, Vol 124, Nr 2, pp 296-300
(USSR)
ABSTHACT: The present paper solves the problem of the closed convective
boundary layer in a horizontal circular cylinder. The surface
of the cylinder with a radius R is kept at the temperature
To = 0 sin x, where x denotes the coordinate along the circle and
(9a time-constant amplitude. The temperature assumed to be
homogeneous in the core is considered to be the temperature of
refdrence. The core is assumed to rotate as a solid at the rate
v O)r, where the anffular velocity W is required. The
f
boundary layer equations (in disregard of the curvature of the
layer and with introduction of dimensionless variables) are:
~vx vx 2v 10
X + G sin x T
Card 1/3 y
A Closed Convective Boundary Layer SOV/20-124-2-15/71
v DT =v -DT i b2T bV X Dy
. -~~ + X ~ 0
X ~)X y By - Pr DY2 ' X 'a y
Here G = g p(D R3/V 2 denotes the Grnsskhof number and
Pr = VIX the Prandt! number. The velocity layer and the
temperature layer are assumed to have the saine thickness
6(6