SCIENTIFIC ABSTRACT RAUS, J. - RAUSHENBAKH, B.V.

LD,KF.; FUSKOVIC, D.; ~Usl il.- lationship betwoen vJrrus multiplication and Inlerferm pro-   I -IIAUS, Jan; SIYK, Boh.umil, Dr.      i       .1 Q.1 , a (L 0 ff 1 0 a -a. Chi 00 Liary^437-430W.-As '-0o d d k I "i b & i kb W d 00 all womm ma n c m umwn vivev w e anicie Md w W o m% n# , ~qo 09 Me* V* 400 zoo Goal ;Soo -0 0 Irl see 0 0 *of 400 of :J 0e 0 0 go '-.00 jog iso ' 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0   w 1 i W A 0A ff & ii 5 1 A4 41R c8plel #mutual Am M"Mes Mwtff 00 00 00 1 00 T T UMM"M ftjop=~ sum "stag Id ft" *A* Am w GlAsoll ft aw got i 1,99 low ow as T e OM 0 0 00 00000,00000600 0 o 0u s 0 0 A A 0-0-0-0 0 0 o 0 0 0 M 0-40-600 09.9099 goes** 000 0 0 - - - -  Ah -0- W I -11 t I v f Ar XR , o N - f 3 A aJ, V xisabg joirmAl dru m Alp - L a9 P a to? 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Fr"' Nin It('($, AMI NAVI W414 Amoit I " off 4 In* it Off, No (.of A On all AIM ZOO 00 00 Ir 00 me zoo zoo Soo 400 boo ' j Cleo Iva. goo ' L-- 'f'~2r- -a so 0 ~ ap. a IT it- 0 0 ' ' 00 00 00 0 0 0418 0 0 0 0 0 6 0 0 0 0 00 00 0 0 0 0 00 0; 06 004 0 00 : R a lb 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 4 0 0 0 0 ~ - * 0 0 0 0 0 & 0 -- O 0 0 0  I., ~ -, -1-  - -.1 i1"-- 1--;-.6    Amim 11111610. feeleelemb so busimmim beings F ma-mamok faiv., milow" oil 0"' 1211: Aufall. AW i4m Ag Cjj. VoW. Arch. Rd.) 100, --S: (194' ) -. Cb-- Zvl*- (O"ne"m Z' Cf, C.A. a. 8017S.-Tu smins arm =ht. Word "at Pew. b, ma ft 9 ~ ap ~- d get billed. it contained p-$uW- bm*w. bdmmdw. after. Md vle" ~ ww" skle I -(A hm mmimme ad". &%bmwb limly a%% am*. Ill cvuiffd. Ifypt.spilm. =d bbd&n MR P v . Too cum in, smins4evid M Irsio 12A%o. "It 3Arv bring ad. in WSW of h1w adw gas a bwaimm poodo- a the wams" a smark HCI. Tbb by a definkcimemmiseldommy. AdIllil"Mill" Of tier &swime wm low. Is go- 04 iffififfolt p"Kirill imliti~ all a dueled 6wu-uo is l1w -4 blilsom milli thims Va- larommims v- opkb moStil,017 b4b d-W- I1110111 Ow Slow humoop" oi"nim of the bmk dirt, wbkb b" M-1 stmind. 'Utillismitm (a tier mob- 0 p- vionift booll N*b a too mast' . lfrP., 1910111- mm Carried out Cd Akb rgj;~iis sitb olknes ream"i- dist a cow CA tier malabdism Md wkk fasy=W Idiom - Tier Nowle WW pr"o. oft PM- Wbfa lipsom 0 low dw. lrbm I= raw aboppowsomew in the wave. dw bsok dbt pliewill. awwrmwam" id Sim emismosee, im9wo in t1w "i4b welic Clinical woromy- Z_ Tin sow sm the tier aloklmhow in a cam 41 SOWPsis dil the dirt ho cd wbrl t swevoos. Tien dirt was in my 1. tier in- ti.8 OA the Ed tlw wilds on ef, tic, 1,6 dam-  4 ~,~ I . I . I~~ . I .i.. ~ I, . I * ~ :~ : , , :, I       RAUSCH, J.; SZEGI, J.; MAGDA, Katalin; NAGY, Julia; BOGNAR, R.; SZABO. S.    AT S:"2 1: f, ~~ DO, OC4 1213 AU-I 11011' ll~ukhin, A. V_ and Raituticribakh, M. S. Tll'(.F-, Ilom: marrow trjo~fmion for ircatment ordcprc~~d hemopowsts roUrswing irradiation ITRIODICAL McAsWitskaya radwfogiyj, Y 7. na. 2, 196" 64-71 Ibc necrl~ify tarontinuc rmliation therapy in ra5cs ofmalignant neopLisnis forers one to Ittok for offiwj~,nt r.ipi,fly-acting meani. Triniru~ion of hamslo~oui bone toarrow was tried rlst .,(, J"gsaml monl,cy% At. induction ofacute radiition sickness. 90-93!1 ofcclis pfc-stfved their Ability r-~r ru;t1wir diviiion and that hemepAciis sub-.cq"cntly improved markedly. This methad was then tried kin 40 patictiti ~% ho received 70 ttansrmions or homologous bone marrow. This Imatrit-trit had a ni-tried thcra- pvtitic cirmi in too,( of the patient%, particularly amona those with the ituh3cute va. ictics o(h)Pj- and apti-itic anciiiia. The authors conJudc, I%owi:vcr, that the mail number ofcases cit3minctlisinsufficient for definite evaluation or itic thcrapeutic 01c.:9 or this method. SUIINIITFED~ November 20. 1961 Card III     m      I     O, ~P& 'Ira r, j,.j WE 2 .. . The lbixotropic effect of Wiramok, wow" 0141% r -k -fln 104 ~Msy- MmiuPP-0ited rthus %vere treated with 5670 ta"Jum dich, t and the fil wtt tus were exposed to rradiation from an UltmMmic generator of 8W kc. frequency and an Intensity of 1- %vatts/sq. cm. After irradiation a 0.5-mm. crystal of Ay-;' NO; was placed in the cent r of the film and the formation of Llesegang rings %vas Theno.'ofringslormedin24 firs. increased with Irradiation Intensity, For each latta- Sity; tile effect incre-ased asymptotically to a smiting value %vids iucreasing duration of the irradladm.. The n-ilalts sbow that the diffusion rate through the gelatim Is in~~ by ultrasonic wa 'yes tven though the gd stryAkinto is a* broken down. Helbert Morawass-  MUSIL, Frantiock,; iUUSEA, Vladimir       ~~Vera Aleksandroviia; VASILITEVA, O.S. BLONSKAYA, liataliya Ivarlovna-,,W -, -.- j-', . . .    0 Ole - m A it V X A 4 M A L i. 1 01 A I I tfL is v if ja 36 N V a IV ~L 41 4i 41 to 6"Ce 6 m w MAN 0o0 F999---- of ]&"We q~~ b" - 00 and I% W-Afabiw for "INIVIIIIND. zali&p IWmq_~Sh- 011. *0. ow"w'-1116 111kiwitin wiii"w ns J-`4f--~,A,.wfAwq4.%.,ftI M-kj #,feel Cuilt-rat A is% n.ossial %kohimit and 4 44-11,11% V. il 401 Large 4v-ts in thabeti- r4wuce 00 sugar curves mmilar to,tbostafter imulia injec- I It, 'the bjecid gissarof, "bttics did CkIt L im-reem 0 its. juitrig 2~3-wcvk drinking curt$ 00 It standsed &I IM11 &W1 A si ; W16,9 W144IL&C CLAII-VOC4foc. 01 - U W 0 '41 44 ;0! ffR it '1 15 0% j-'* e 0 ~o I Or* *L* 0 1 0 00 0 41 0 0 41 0 0 0 0` 0 0 10 0, 0: 0: 0 * *~* * * * *L* * * *~S*-WOV 0 V~o 0 0 * 0 9 * * 0 * 0 0 * e 0 0 :  FWCww*OeOOOGO**Oe 0 *lose 9 00*00000*040000006 0000*000069860000 logo: 0 er 0 to 6 a A, tbep $I lot. -to. Vt.. I fu 0 on in IF OR oft :0 DOW eon * "P" 9 X-1 MOD PNP-U" p C. Der ism I-wp:gwm oc. Ispup 4w p 4"m sulpsm 00- 00. 00 Do. so 00 lies 0 0 0 0 0,00 a    CZECH09LOVAKIA / General and Special Zoology. Insects P I I Abs Jour: Ref Zhur-Biol.j. No 1, 1958, 2150     A'F vggf 401. k S dot &01 SM111 ~oD%LLQ luezu 6ta and K. u, '20. CA,-M. comm.. M. Tfr, ,a amounts (0-003 t6 O~ I cent.)i,i -,t~ 1, ~. per .0 may b& determined with WT -~4ft rc; ~115- v~; k of ~:bCptv VeRt. by the method of Rivas Dru A; 1936. 1084) using the 23784 A (Co)' 379 'k (Ni) lines of the emission spectrum 'I W i betZ. -elacirodez: fTh;t Is m 1601, we, 11 ;carbon,  W,-~j U ~)U H~- /c' ' Z. C v c ifilialI66 0 Imol'itno6j)(i a MIS Kud looll. it. II(Ir tile 51K.Ctrograp I I nf 11.1 w t,.I M 'VA t IL us Co 237.4.0 A. and Xi 2379.7 re ing priacedlim ii [It". rile aptIIIIIII I %v0 rk krilm '11 11F (let 411. ti O'e je     9505. Pfi~6zuiW'~suthpd for'the'defumInOn a 0 IL- smounts, Ot th I In LhMIAgt: A; Kollelr1f, PJ and as Y11! - M jAUSO-contAWng - WF W W4 R )IQ - r iiiZilli. Ir ~0,4 to T k4 , , . -: ~ 4 o 1, 'Oa !adily detcrrffi&M.i 0.01 m-ge f m cam _ rc " b1 h ac 4 A b III, unsuita eusene, as ot or o meth e f ~U ;urjtI~i,---.Wteiferc., i2yocedu're-To h6 dfluted t ' - -' incl add :A*nzow',~an iple, (3 MI) izi ting fu X-ITIM of I in 72 ml of f 0 t th t 4 , . e i o nx 9 ~( 6 9M, r:-Itaining 0-1 1., and 211.W of at Shake the4oln.. or ciacgy j *-Yrith water potnq-- tately - ~ and set aside.foi 6 n-An.-Mtertalue the'extincuou.-f-I at 052 mp~ Of thi lower phaso'ki thei twentieth Inutii, and ci)mpsx*,~rlth st blank: ~ -1: P. Situ in      F~       . A. CHEPROOV. S.Y., nostavitall; YUZAIPOVICH. Ye.j.. sont&vitoll,- RATJS . T.,L.     7 bakh B V On a @mark by PAylefgh con- '-12 R..sh-Al kc:4- d (In R--Ia N DktW1 A i - o com ng l Mauk &~~R (M.S.) 91,4,740-752, Aug. 1953. - The values d q for houtm o0cillations are C14 a circle witb,racrm ng nor de Author considers neutral caelliations, neither Incioasi and position of centerdetenalned by ji, and vi. creasing In amplitude, of a gaseous system containing an Inter- For a system gonemung HIN WIN tones, We, AIC:50, face where beat In released. For neutral oscillations, presmre.. . and WIMP, (EIC)*%?-O, neutral isciffallono an impossible ~ on either side of the Interface. In 90, out of phase with velocity only with beat addition in the smoil quadrAAL A neutral Ong, lie assumes small amplitude linear oscillations and Iscutral I)ir- lation is pooalu with boat addition In the third quadrant.- this he transfer of gas across the following tly conflicts with Rayleigh's byjwtheole that hes, t must general equations be added 16 phase with the pressure to produce driving. When I the mean raW of now is so he equation airees wM 1141olgh's ps - allp, + any, + anq hvot6lx~- For a 'mean rated flow'ilrestar than Sao, negiect v - amp, + duvi + a j UCI of kinetic encrgy by Rayleigh is Ind1614 do eause.of the: discrepa Y. whe I and 2 refer to before and aftei re ' cle Lu- bet I rull! Atik UrgA. Systoln, P are ionstants which depend on the parameters a W system and the, P1 Ts Wistem shuti-to su ,ch an extent, that he q Is bacillatIng pressure, v Ix oscillating velocity, and q Is ovillating, exist a giving neutral oecillatloaa.~- (R"w a note: Au r ha beat release. The dot products ps - Y, and ps - vt are both zero. Thus, takhou, not p4ayedthat Rayleigh's hypotheols is not sufficlont by It4elf, providing the heat Pnew: to properly: partitioned between ihe Pi as the x-axis and q, as the y-alxij, the scalar-product of the I. Ad. of the: Wedsc,) W.AL Denals, above equations becomes Apig. + B", + Qq., + 9 1) + Dp1j +.Svt m 0 4e r  On the Problem Cencerning the Longitudinal Stability of an I'dreraft In Unfavorable Flight Conditions," by Tiberiu Hacker, cetari mes. Ludii I cer apl., vol 6 NO 3 1955, pp 2.49- (from Referativ-nyy Zhurnal Mekhanika, No 1, Jan 57, Abstract 1o 2 1 96) by D, V. Raushenbakh) The article discusses the longitudinal disturbed motion of an air-- craft on the supposition that the undisturbed motion is rectilinear and., horizontal. A dimensionless system of equations.is introduced, in Uhiah the unit of velocity is the =ximn flying speed. In the case when the undisturbed motion of the airplane'is set, the minimum flying speed is,- the most disadvantageous from the viewpoint of the short periodic stage . of the disturbed motion of the airplane. Adequate conditions of stability occur for cases of acceleration a6d,.-' .:deceleration of the tnidisturbed motion. It is shown.that duringshort, periodic disturbed notion a statically stable airplane can lose dynami c :Stability only with slow undisturbed motion. A de-ternination,of:the critical value of the acceleration is give for the latter case. In addition, the disturbance of the axigle of atti ek and the angular velocity.of pitching are.giyen. Ile dar4)ing velocity of, some major functlons,~uhich limit,from abo t ant of,time~.the ve,. a any MOM a~mplitudes_of the above-indicated.disturbances is.also :round.!' It was shown that.the da -m-pixig 46locity of the major functl on* In general- &6": with tl~e increase~of-l ,th -'tl speed. (U  20-2-16/62 I Rau~3he bakh, 3.VP n T I!Lil ls~, On Energy Sources at the Thermal Excitation of Sound (Ob istochnikakh eneigii pri termicheskom vozbuzhden11 zvuka) YER I ODI CAL s Doklady Akadcm ii Nauk SSSR, 1957, Vol. 115, Nr 2, pp. 256 258 :(U,90R) STRAM The author th ks that the,problem of the energy source on the in occauion of the thermal excitation of sound in a moving gas is in various -aorks incorretly solved. The authqr puts down the equation ..of the enerey flow in the form E v212) + 9 ve T + pv. In thio connectio n 9 signifies the density of the gaev, p - 'the pressure, v -.the velocity of flow c T the internal energy. V The first.two terms of the sum descr be the transfer of en e rgy i by the nass flowand the last term.of t1v sum describes the ~trans- fer of energy by means of pressure. The last term pv:is most im.~. portant. An immovable domain E of the heat conductor be.bounded by two control surfaces which stand vertical to the axis of~the here-examined unidimensional surface. This domain 2 have g small extension as compared.to the wave length of the oscillations to ~be 1/3 excited and therefore the hypothesis of the principle of immobili-  On Energy Sources at the Thermal Excitation of Sound tY Can be applied to the processes taking place wi thin C, author compares the onergy flows pv on the planes bounding the donain .57 and he poses the problem of the amount of enera which is emitted by this domain of the heat conductor. The source or, this energy is also treated here. First the laws of conservation .for this energy are separately written down for the flow element in the reference system moved together with it and for the center of gravity of this systems The flow of energy pv,emitted by the domain Z is equal to p v - p v and thus consists of-two terms 2 2 1 2 of a sum& The first one is connected with the addition of heat and with.the modification of the flow of the internal energy, the second term is connected with the mechanical energy to be supplied and with the modification of the flow of the kitatic energy. The assumption of theflow paramters on the boundaries of the domain is not sufficient* Then it is assumed that the quantities p.and v have the components (Sp and Sv which change harmonically with progressing time. An expression is then derived for the mean accoustic energy emitted by the domain There are 3 referenc'- .Card 2/3, es, I of which is'Slavic.   RAT31LEIMAY01, B. V. (IAQS,-Ow)  -2/A' 10 AO~ 0 0 0 V, Y47- A-e r, e rp S- p M In ~c tMekn~i-n1ka, no. ab~,+,ra 'A I ,,Iki "eml Vyp. AN 11 Ing a:.,t !7,A~,.erplar- C. 0'.., VO ro At ton e re, ac. iva con, Iro L f lywi-~ e e 1 a ro~ -.n r,? Z on a4~- vj:'n a c~%ri'.- ii v-t!~ 2,e eiler6y -on~-aTv J-atlon-- :)f- the rlit~ll& ..e of I I V, on  23U83 S1112316,11000100910261627 A004/A104 AU 'MOR Rausheribakh, B, V. T 1171U.- lheor4tlcal aralysis of vibrAting ~:ombustion of a gas mixture in a PERT)DICAL., Re f 9ratlivryy zhurnal, Mashinostroyenlye, no. 91 1961, 20, abstract gi'.66. (V 5b. '3-e Vses. soveshchaniye po teorii goreniya. T. I.". MO scow, !960, Ta"T .-h ombustion is Tk-4s ,heo--etleal solu"on of e problem of vibrating.c divided intlo 2 parts. the dA-stription of the acoustic properties and'the deacrip- tion of the combustion %one. The second problem Is solved by a:n analysis of the stab!-Iity of the flat.d -tsion pl-,Lne between the cold gas and the combustion proiu---ts. From the Eu' luation and the contlnuity in a linearized form the frequency, ampl i ~U - ar. er parameters forthe vibratirg combustion in a 'tube de are found, With tne aid ~. the,obtained equations the author investigates the,,. cite vibrating combustion in tubeg closed at~ zones In wh'1' ch It- is possible to ex, end. in 6ombustion are one. It is ahcwn thiat zones. of stable and unstable vibrat g ob~lained solution is con-f"Imed. by tests. alternatIng IM tubez,;. Tte! 6 . 1. Barak y [AbvtractorTs Complete ~trenslatlon] gard    D.V., t!-Ocr md.  t 's)--2/EWT(m) r- 32971 65 '-EPA/ 1VEW W/N7MD s/booo/6 5/01CO;-~ ACCESSION NR. Azoo4o8o c'to'r.-o'f tecb c ac ences AUTHOR: Paushenbakh, air i, B. Ve Do ............. TITLE: Introducto word on, Burni~g in, Vai-ious Type-`df O)aftation rk ry khnl aya konf6re'h*tsiy' SOURCE: Vaesoyuznaya nauohno-te ichesk a po problemie'Lvibiatsi~; :~t onnogo i pullsatsionnogo goreniy~. isi, 1961'. Ti~dy. Moscow i Sektor'nauc 0-;.:,: IM tekhn.-inform. GIAP9 1:9621 5-~ 7 an coMbustioivthe ry TOPIC TAGS; combustion alysis ustion'reseaich'L 0 pul u6n qombuction- vibration combustion, scientif io'conference 'd it inti i ABSTRACT: s.paper,was wr ten as o uct on to the'o tiansiict onS bf,th6 of L I -11nign acientific and'Techiiibal~Corifekence:on~the Problem t Pulsa. on:and, Vibration Combustion This is the first conference 3evoted toproblems-.o tion combustion in industrial ins'tallations.~ Therefore most of the papers are :~'Many Of,L with the nature of.preliminary reportell the papers have subj ecti; in common; . ...... L one another, therefore it was 'L n6cessary to a4oid.repetition." A survey of the h cate that:not"all, ~which o reports whic were presentedindi brgahii~tions are d i~g vibration combu e ne tru-M useful work on stion have 'th cesiary ins lents More- iban half  ----------- 3Ml-'( :6 Istion'.''.:::~Most ... 0" t-: SU~: CODE FPI GO'   40' -L 1A&LIf7-63 ACCESSION NR AM050o . TABLE OF CONTENTS Cabridged3v i _... Foreword )Symbols' 6' jIntroduction -10 Ch. Io :Some 'problems. of ;the .--thermodynamics -of - combustion- chimbers 'Ch.,Il.: Fuel mixing Ch. III, Ignition and-combustio'n of homd eneoua"fuel'air sixturea:in . laminar flow 175 Cho Ivi, ..Turbulence of~air.flows 210 'i iii' l C V C b t 6 u t r i t b nt fl f h ii . 2 el- om u ow h. . us ion o 0m m x u e oua f es n ur ge ~ 5.5. "'Y Ch., VIi Vibration regimes of :coinbustion , Ch. VII. Flame stabilization in f2:o1i,'.of,_a" fuel mixtur Ch. VIII..:Combustion of*fuel-a:Lr iikturee behind-a"body with poor flow -'-4031 i lla of a'-c~mbuistilon chamber-and nozzle' --too; 440 Ch.:IX. Cooling thewa SUB CODEs PR r64,.,, IR REr SOV%:112 SUBMI TED: 2OKa OTM: .079 Card :2/2  L 1,14974-66 - EWF(m) -2/EWT UWE-W-T AST ACC NRI AP601959U SOURCE CODEs UR/0293/66/013,1/OG5/0367/03771 A M MORS: Legoatayev, V. F.; Rauehenbakh, B. V. I~ORG: none TITLE: Single oxis orientation system of the space ship~voqtok'relative to the sun SOURCE: Koomichookiye isoledovaniye,.v. 4p no. 39 1966, 367-377 TOPIC TAGS: satellitop orbit apace flightp satellite orientation, Wroul.cope ABSTRACT: The solar orientation system used in the manned-satellite series "Vontok" is discussed.. This orientation system consists of a photoelectric (s.olar) sensort three two-atage gyroscopes# a logic networkp and small compressed air reaction jets. Each component of the system is discussed in some detail. It is shown that the three, relay type signals which indicate the illuminated and dark fields-of-~view of the solar aenbor constitute a very simple system. The two-stage eyroscopesServe to damp the angular motion of the satellite along each axis. The angular velocity.nensor placed-'. on, the pitch axis has two regimes, whereas the eensor placed an the yaw axis.haa only., one* The logic for orienting the apace ship relati,7e to thwam is discussed in detail#firat for pitching motion and nexti for the yawing iotion. The dynamics of these'two motions are analyzed, leading to the eqxmitions for the angular displacement', :8 which for yaw give" S+ZA+k% .+I a*La6+b Stu,,aN4.,l