SCIENTIFIC ABSTRACT POMANSKIY, A.A. - POMAZKIN, V.A.

WIN Z~~ POMANSKIY, A. A., DANILOVA, T. V., DENISOV., Ye. V. and NIK-OLSKIY, S. I. -------------- "Nuclear-Active Particles in Showers with Dif f erent hil ~-- er rolf !~azrtici, e7s Report presented at the.International Conference on Cosmic Rays and Earth Storm, 4-15 September 1961, Kyoto, Japan. P. N. Lebedev Institute of Physics, Moscow, USSR  A.A. Pomanskiy DIFFERENT CHARACTERISTICS OF EXTVAiSIVE AIR SHMIERS AS FUNCTIONS OF THE TOTAL OF SHOWER PARTICLES S.I.Nikolskiy, A.A.Pomanskiy I. Using composite apparatus, a general description of which was given at the cosmic ray conference at Varenna, a study was made (at 3860 m altitude) of the obsorption of the total particle flux of extensive air showers in a dense material close to air in its means atomic number. The number of Darticles under the absorbor was imeasured by means of ionization chfmbers. Showers were registered with the total number of particles from 1054 to 106. 2. An analysis has been made of the absorption of flux of shower particles in showers with different number of particles. Experi-mental data indicated that particle material in showers with the number of particales from 102 to 5 X Io5 is absorbed in a dense material more intensively that particles. This more rapid absorption of particle flux-in showers with the total number of particles ]MngiAg from 105 to 5 x lo5 may be due to the relatively small number of nuclear-active particles in showers with the number of particles lyigy in this range. This was noted in eSlier experiments.  3. A number of other shower characteristics are considered, lbe spatial distribution both of all the charged particles and the electrons in the shower is found to be only slightly sensitive to the number of particles in the shower. According to the cascade theory and the nuclear-cascade scheme of the development of extensive air showers one might expect that with an increase in the number of particles in the shower, the function of spatial destribution would manifest a peak (paraine'ler 3 would diminish). Experimental data point to the op--Osite. The spatial distributiorl and energy spectrum of -mesons are independent of the number of particlep in the shower within the range of the total number of particles 16* - 100. However, a comparison of different investigations shows that the dependence of the number of mu-mesons in the shower of the total nu;~ber of particles varies slightly when passing from showers with the number of particles to a larger showers. 4. The exr)--ri:r~-antal data are compared with calculations o; nuclear-cascade avalanches caused by primaKy nucleons of energy 1012 -1011) ev. Report presented at the International Cosmic Ray Conference, Moscow, 05-11 Jul,-f 1959    AUTHORS: Zatsepin, G..T., Rikol'skiy, S. I., SOV/56-37-1-31/64 Pomanskiy, A. A. TITLE: Decay Processes in the.Development of,Nuclear Cascades in the Atmosphere (Raspadnyye protsessy pri razvitii yadernykh kaskadov v atmosfere) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 37, Nr 10), PP 197 - 201 (USSR) ABSTRACT: As the energy of the primary particle is not directly measured in experiments on atmospheric showers, the development of ava- lanches must also be considered by giving the initial conditions in-the~depth-of the atmosphere. The usual method of successive generations is not suitable for the-solution of such problems. Nucleons and-pionB are assumed to participate in the nuclear cascade process.~ The effective cross section of nuclear colli- sions is assumed to be equally large for nucleons and pions. The initial conditions are assumed to be given in the depth x 0 )dE-, respectively, are assumed to denote the N(E,x )dE and T(E,x o o + i number of nucleons and r -mesons, respectively, with an energy Ga d 1/4  Decay Processes in the Development of Nuclear SOV/56-37-1-31/64 Cascades in the Atmosphere of E, E + dE in the depth x i-The kin 9N(r,,,x) . 0 + ric equations are written down in tho form N(F,,x) [N(FI,X)WNH(E',E) + + 7KE"x)W - (E',E~]dEl, ;4'T(E'x) - -IT(E,x)(1+--!!) + X)WN Y E ~Lwl ?IN )X Ex n (EI,E) + 7T(E*I,x)w (E-,E)JdE'. W Wrj, W denote the Rn NNI WNn 1E it energy spectra of the particles corresponding to the second in- dex which originate in the nuclear collision of a particle with the energy El (which is designated by the first index). E 7C - = Mcz0/-ro?(zo) = l..'4.10"eV denotes the critical energy of the vt_mesons,-at which the probabilities of nuclear collision and of decay in the depth x=1 are equal to each other; f(z 0) denotes the density of air in g/cm3 in the depthjo. The solution is written in the form of series N(E,x) - e (X-XO)OD T Ni(E,x), 00 i-o Ir(E,x) - e_(X_XOT Ir (E,x). The series resulting by substi- Card 2/4 -0 1  Decay Processes in the Development of Nuclear SOV/56-37-1-31/64 Cascades in the Atmosphere tuting these series into the above-mentioned kinetic equations a3re represented step by step. In the special case xo - 0, the solutions pass over into the known solution omf the method of successive approximations. In the present solution, all terms of the series are positive, and the series is always convergent if the total energy of particles at x 0 is finite. The solution is, however, 'more extensive than in-the.case xo . 0. In some cases important for the interpretation of the experimental data, the role of the decay process can be considered in a much sim.- pler way. the authors estimate which.p'ortion of the energy of the nuclear-active component (which is present in the showers at the altitude of the Pamir statio'n)'is consumed for .the forma- tion of muons and neut-rinos in the further passage through the atmosphere. According to these calculations, at an energy.spec- trad of the type E-2 dE of the nuclear-active component of show- ers at the altitude of the Pamir, about 50% of its energy must Card 3/4 be used up for the generation of muons and noUtrinos, thus,  Decay Processes in the Development of Nuclear SOV/56-37-1-31/64 Cascades in the Atmosphere being missing for the development of cascades. This conclusion is almost--independent of the mechanism of the elementary process of nuclear collisions. There are I table and 6 references, 5 of which are Soviet. ASSOCIATION: Fizicheskiy institut im. P. N. Lebedeva Akademii nauk SSSR (Institute of Physics imieni P. X. Lebedev of the Academy of Sciences, USSR) SUBMITTED: February 7, 1959 7, Card 4/4  DOVZHENKO, 0.1.; POMANLKIY,_A,,A.,-. Cascade units and critical energies for various substances. Zhur. eksp. i teor. fiz. 45 no.2:268~-278 Ag 163. (14IRA 16:9) 1. Fizicheskiy institut imeni P.N.Lebedeva AN SSSR. (Bremsstrahlung) (Electrons)  DOVZHENKO, 0.1.; POMANS!LI.Y A.A. Cascade units and critical energies for various substances. Zhur. eksp. i teor. fiz. 45 no.2:268.-278 Ag '63. (faRA 16:9) 1. Fizicheskiy institut imeni P.N.Lebedeva AN SSSR. (Bremsstrahlung) (Electrons)  POMANSYJY, A. A. --, ..... . . The study of cosmic rays; a congress in Moscad. Vest. AN SSSR 33 no.12:83-85 D 163. (MIRA 17:1)  M,1 A ANSIK,Y, A. A. FLUCT&TIONS IN FLUX DLNSITI&S OF 114 AIR SHWERS AT 3860raA'30v& 3BA L&V-&L S.I. Nikolsky, A.A. Ponansky, Z.A. luknish 1. Fluctuations in the density of nu-mesons have been studied by the statistical method in the interval of 20-~O m from the axes of extensive air showers with the total number of particles -:~,-10'~ . Discharge coincidences were registered in three groups of coanters placed under aifilter made of Z5 cm of lead and 2 cm of iron. t3ach group wasr%-,o.8 m2 in area. The position of the axis and the total number of Particles in extensive air showers accompanying triple coincidenc.!s were deteri,,ined by means of hodoscope counters placed in 9 points. Z. A comparison of the observed s-3ectrum of extensive air showers that accompany triple coincidences produced by mu-mesons (and nuclear-active particles), with the -spec'ti'uri--6alculat6d with account talcen o.f the statisti-ca:L 6fluctuations in the number of mu-mesons in extessive showers with the number of particles X 105 R eport presented at the International Cos;nic Ray Conference, Moscow, 6-11 July 1959  20451 3/056/61/040/002/004/047 B113/B214 AUTHORSs Denisov, Ye. V., Zatsepinv V. I., Nikollskiy, S. I., Pomanskiy, A. A.j Subbotin, B. V., Tukish, Ye, I., Ya TITLEA Observation of nuclear-aotive particles and electron-photon avalanches with energies greater than 1012 ev at a height of 3860 m above sea level PERIODICAL3 Zhurnal eksperimental ~noy i leoreticheakoy fiziki, v. 40, no. 2. !96 iR 419-425 TEXTa The nuclear-activs and electron-photon component of high-energy cosmic radiation were studied to obtain additional data on the nature of nuclear interaction at energies >,-10 13 ev. The observations were made in 1959 on the Pamir. The detector consisted of four rows of ionization chambers between which were placed lead and carbons and over which were 10 hodoscope groups containing 12 counters (330 cm each). Besides, two cylindrical chambers were placed at a distance of 7 m from the middle of this setup, a hodoscopic point and detector of the energy density of the Card 1/3 __~?  20451 S/056/61/040/002/004/047 Observation of nuclear-active- B113/B214 electron-photon component were at a distance of 18 m from the center and served to study the fluctuationa of the particle flux. If the axis of the extensive atmospheric shower hits the recording area of the detector, the number of particles in the shower may be determined from the formula N - 1000 Q,2where Q is the effective particle density of the flux per in every event, nucleons and pions particle m Assuming that impart 1/3 of their energy to the new resulting pions, the energy of the nuclear-active particles was found to be given by E - 2.3,10 8N1.04.v which hol,ds for the range 10. 11 ev-~E 45-1014ev~ In this energy range, the nuclear interaction cross section does not decrease with 'the increasing energy of the nucleons involved. From a comparison with the experimental data of other papers, the integral energy spectrum of the nuclear-active particles 12 13 f(F in the range 10 _,10 ev can be expressed in the form E-n , where n - 1-57:t 0.1. For energieo of nuclear-active partioles 10 ev only by an additional assumption on the particles corresponding to the travelling wave: the are supposed to be nucleons. For charged-pion interactions with E 0 2.1013 06 3860 2,8-101'3 2,3-J012 - log 3860 4.1014 -2.3-10111 0 2,3-1012 2.1012 - 3,5-101 0, 8.2-10141 >~1,2-1014 105 3860 3,2-1013 2,3-1013 3,8.1013 1 0 2,4-1033 2-1013 3.5-1013 10$ 3860 3,4-1014 2.2-1014 4,1.1014 3 0 215-1014 2-1014 3,5-1014 w ------- N=10' flapru'D fain;r --- Mocirga mcscow 0 1 2 4 1 2 3 4 2 w N. 106 Nvago M 10 10 J-1017 1043 f, a 0. 0 1 2 3 4 1 6 7 8 0 1 7 8 Puc. 4 Car~' 4 4  j, AF 74 ~ ' ~ PESS 10RAft, -`A. 4~ S/000/ /0 TH6 " 'Corif di SMI C M V T -S 96 S stn 4 -C- Pic tAas 06 niii rpq d o n f e* r* e, n c e7 n- e- i i t jr i no, phys i c s~~erreat--' ria %o C r4y W: ' l , al, o a 6rice: hized .-this year by the Kola on cos or6m anch: of-'-th6'AcadeMY : of Sci ences --. 24-29 Auvst~iqo'4. $SR.- was hold .,In Apatity,. . - , . Ii6 , .1 . , I( ,n e - hat; -t -the* 61a~-Branch has.beon i al.:Instit ~e.of,-- r U Polar.' Geophys _- - - tive-An' hIgh-a Itituae cosmic -ray-TescaroF for;some :tIme--and,-is,-nov working-In 9.p~rat3*.o'n:with:..r-r,enbhz,-:.Scie-n-~is~,.s co~Ad .- rags t magne .tically-, con~-.~ g4te,-:y')oints.,..-,~~ New do-'Ainual-onaration instru-ment.ati6:n,hasL ~b aen-develop-ud which variation-.. Listed belo%v:are il,:~ ce espec 1. inves iga ng. cosm c. ray - - - B. 'M Me Oia ~he C ribiitors,:~-togethcr w i th the: SU jec s.; of: their reports, at- -.-an n lautrino:physics;..~ in(' on mei -j~djnd dAecti ihods and " 'Relationihi s In--neutr- t G' e Ko C S I ps'pect ino,as ronomy ~- Y d~:--V-L c arov.an p .r'~ f/2   , - - . - - , : I 'f I.,. ~., I I I - ~I ~ , - I I ., j . 1 !, . -, . -- - - .,,~ I - rr :., - , , .7 - ~ -..., - 1 1:.-.-1 ~ ,,, " _1 1-1 .1 . .- - I.~;~ - , - , , - -,,1- -1: :4: . , ~ -~;-,- , a._..r. ~., ,:.. ;,~- "- -I , , ." , , ,- ~ .:- . -~ -, - : ;~ -, ~ ; - I.." .- '.. .- -, -. .,- - '-Ir ~ , , , -. -- - -~- ~ -.-: ~. -. ~ : , 4,~ " :-: -,- , -. -'- - z~ , , - , . '. t :, . . :- , I ~ s- - ., ~ I- ~~ i--t :, 7~- ,", -~: , Z, i ~-- I . - - ; ; , , ;', -I;-,; ," 1, A I.- , . 1~ -; ~ ; . - : I ~ . ,- - :,--: ., ;,.! ~ ,- - ; : - -"Z~ ~7- r- , - :~ ::-  T, '7 '~;: ..... Fl" _ . . . . . . . . . . . . . . CEMON XT 6et on %4jiiAedt6:-riidigdi~iiibfitiiii6fchaig6d~ailicleis;fihowerapedfra tr. f d ~t-nt Spec It 0 regar , W un or ox par Wes 4'~ ~ ~l~06ii~.~i)~otonT:co~nponenti; ,'energy- jx 0 radial distrib binpOnentS; _ji. h .:with'vart6us numbeis''of ch 01 nucle's'r"ac dy e'p'~arftcl6a, tifid their n er, ~s owers ar 9 - ' i SW 'A~brvatf6n eve -Of tive P -ucles:af energY ana COMPO on ac articles; radial stri .air-s owej us num MO b f of A eldensiV16 h e r charged ., CP; ener psq 11'. tu tR 1 I' I I U0 a on 6 Cerei&pi:bui6ts t -92 db b f penc e a serva on eve an -: Pp.: 73 o es y.pa . ._, - ' ' , - e with-Individual see-.. a hower cor energy nuc ei - :.,. o Aevoted t6:-:,-poid-jti66Wre; h7energy nue e=~swtive ons in X- '.big -particles; uottmti , .!E~nergy. in air-s 6 nuprihary~cosjulc-r a on_'~P -107 p92 eal 'with the Aft ti d wer'cores, a ~ . _ -of n~dlee` add _""cheb in th d ted,to the d6veI6p:ui6nf r"caso e 4tM6j�P ore,- *ith'6ectidns evo 'niethod of; ev unting. aA- ~ _slaich6; ~ieBIMS'Of 6161ating, c e:process..an wn -,component -aii ear ti oWar.char toil~ti~i (~kcii6n~oipl and 61 ac ve, component); and s ~ . ., ' trac ig.bigh-.~eiierg-y~patt-l'cl'd~-.' ii"r, f* fi -Two- pretatimis q -p enomena corresp6ndingAo pri- - " 1 4. ..rn -coBmic T~& ~re ff W 6 er Wan.attexnptui~y, t n charad 'ris-tici-of-kn-iXtens air -showdr v4 it total -the ch*e it. tb th A p aW ~ I N* 6 . by- it -chm 'd In- 6- 6p6drim and i'- bi of bfiqn- d 10 ng 6 jeleptiled- p Wea COMPOS - . Inic: ram ti, _Ihlth&~&Oz energy: r1 ~4162 0 p -VOB  11nd, I 11:as Ko1ojtrivov,_-,A. ~nev-TL'14rn YAXj2ftjjbv AaMAglumd V F11onov tted-ln~ rhalcing the measurements.in thb Pamirs In. 1952.-., The measurements n 'w_ Ore- c-arridd "out.by A'Yei ChUdakov;:N.M. ~Nesterovd V.L -.Zatsepin" P. V. ye.j. Tuldsh, - Yu. -N. Konovalov and VYa.- Markov (Inembers of the FIAN), as, vblkbv~" W Ggaktionov V-, L.- i'Dadykin A; S ~ Korolev , V. L. Mqkare~ Yu. -Me--- students~ af -Moscow State Universttv~_'.The Cerenkov radiation of extensive: eilc~6 owers a 'sealevel was, ineasured by members- of MAN andMGU underthe active dAiii - A -is The emrkyl of e 'gui ce o WI. Za eDin.' nucl ar _6akalat~d b ~artlcies was y ti~_ 6~yb:'_P.' Yudin took tart-it t e cal e hasi Murzina-, - whil h culati on oUth A2 -irariaht. Orig. art 55 figures, .13 -tables and. 7 forinulas;' izibiittit-AN.SSM(Ph~si66Iiistitut6--..ANSSSR*) -CODIE. - ENC ~.IAV,.-" SUB da 094.; NO REF SOV, OTHER:---  866C,I, I Inn- q, ~ ~~n- i'v 7,~,.TOPIC-TAG&   77 2 6-2,8- 2 350 ' 7 93 93,1 , 250 Ll ~ 3 83,3 180" 5316 Its 45 3 -01 77 _0 -Y IVA 0 45 33-4 67.5 -28 2 At : R3 41 '14. - 22 2 4V 37 5 17 9: . 36,; 8 7 19 34 , 0 K 17,4 lfii- -"27,g.---" Ci- - f6,3 '- ^4 25 7 -, 26 39 23 3 2D 7 . Cu 29 13,0 20*9~ 1819'- 0r, .35 it' 5, 17i2 M7 47 '90 f 2,7 , 53 ~8*5 11s3 wloi7 x* 54 .85 - 11 o 74' 6,8. 8 .3 8it Pb 8 2 6-4 7 5 7 4`1 Mts, n c.titical,e'neigi6fie-(i~:Mev),for ~arjouo elements.,....: M  J*- 7 Pol 17  -V Z L K-"' , 0- 1. ; A.A. Ra d I a t ' ,- n I~r. -* ~L -6 - - 7n~4" . Ll E of 2-th ar-a --e cr;~i~a: e, -, 1-.7 4 - inst. 26:266~!Q.lt. 164. f? -:!~ -~ ': I C; I I  PCMANISKIYP A~/,. .1 r e2.SC,",-Cn3 Penetration of h'gh-.energ- and photone -.h--C7,cgh condensed med:4.a. lzv. .0 SSSR. Ser. ffz. 28 no.1-1i-L,826- 1828 N '64. (I-Irotk !?~t'-2'- 1. Fiz2-cheqk-.'-y im.. P.N. Lsbedeva AN SSSR.   L 16021-66 M(1)/EWT(rd)/FCC/ZWA(h) GW ACC NR: AT60035133 SOURCE CODE: UR/3184/65/000/007/0260/0279 .-AUTHOR: AbrosimoV, A. T.; Blokh, Ya. L.; Pom 'ORG: none TITLE: Liquid scintillation detectors with large dimensions SOURCE- AN SSSR. Mezhduvedomstvennyy geofizicheskiy komitet. Kosmicheskiye luchi, to. 7, 1965, 260479 TAGS: scintillation detector, scintillator ABSTRACT: The authors point out the various advantages of liquid scintillators over crystals, gases and plastics for measurements in nuclear physics. One of the unique features of liquid scintillators is the fact that their shape is determined by that of the container. The.dimensions of liquid scintillation counters may be made as large as several cubic meters., The limiting factor with respect to size is the mean --,free path of the scintillation light. The literature is briefly,reviewed an the :properties of primary and secondary soluble scintillators. Applications for various ;'promising solvents in.scintillation solutions are discussed. The factors affecting 'Card 112-  ard 2/2.. c  6602;;66--~EWT(-I)/FSS~~2/FCC~-/EWA-(-d-)71~-W-AFh TT/GW ~.ACC NRt ~AP6012866 SO19RCE* CCUS: UR/0030/66/000/003/0163/0:L66 AUMCK: PoWWxqkiys_,A.- A. ~_ORG* none:. PwBics of:. cosmia- TITLE: rays SOURCE: AN, SSSR. Yestnik# no. 3# 1966 163-166 TOPIC TAGS.--..cosmic ray-.particle interaction,, primary cosmia ray, scientifig nucleon interaction# nucleon, proton interaction, pbysics conferencep -K Mason, mu mesono pi Mason,, ionization r-humberp goomagnetie.field, photon/Proton-1 adientific satellite 'ABSTRACT:The All-Union Conference on Cosmic Ray sics held in Moscow on 15-20 Nov~mber 1965--w-as--divided in-to two B~e`ctions, coi-mophysical investigations and'nuclear investigations. The bonference was primarily concerned-with I t4o, subjects; the first was the launching of the scientific station "Proton i,-which yielded experimental.data on the nuclear interactions of high-energy particlea'. Reports included results of a' the second xperiments carri6d out by cosmic.stat ion of the "Proton-l'q~~nveBtigations are associ- ated. wi-t nergy s'ectrum of. "Proton- *~he a p primary- cosmic rays. The I" data differ from those obtained by ground observations. The a pectrum of the pri marY cosmic rays.measured by "Proto'n.;-1,11 starting from particles with energy of 1012 ev, chang~q.pore~;rgpkq~yt4p~n that, _obtained,.~X. _q4o-v7er_ observations.,_ 'Car 113 d A_  L-26602-66---- ACC NR. AF6ol,2866 Effective sections of,'interactions of protons with carbon atom nuclei with energies up to 1012 ev were discussed.. "Proton-I" data show an increase ~.of the.section with growing nuclear energy, andthe increase reached 50% when ~the energy. of the colliding nucleus was 5-1011 ev. Particle flow with energies, F. greater than 300 Mev was-found to be very intense. The,,Troton-l" data 'on the -~,chemical'compounds of primary cosmic rays agree with those found earlier, ;although the intensity of nuclei of C, V..0, and heaviernuclei differs, ~from the.-earlier measurements. -interactions at,energy levels The cubject covered, was nuclear ':greater than -011 ev. Experimental data.obtain d with various detectors e disagree.- Concerning these dis6r6pancies, S.'I. Nikollski hypothesized !'that a su plementary process exists in which nucleonswith energies greater Pi than 1013 ev deliver the majority of their energy to the electron-photon component.vith an:effective section-of:10-20"mbarns per nucleon without I ionization. kikollskiyl.s resembles N. L. Grigorov's-case an the formation of .it.0-mesons which carry.off a,great deal of the energy of primary particles. hypothesis, by Yu. A. Smorodin. According to this was proposed hypothesis,.,a nucleon interacting'with,the nucleus of an air atom oJo any other matter acquires, a passivestate in which it remains.~T =TOEO time. ~.To = 10-10 sec and E0 is the energy,of,a nucleon related to its inertial 1011, . ev. passes any, .mass. A nucleon with energy_E0 .matter without-inter- J'aqtions -with a path equal to 1. 8 'm,-, Card: 2/3  ACC MR: AP6012866 S. N..Vernov- and G-.-B.-Xhristiansen eIxpl ained di screpanc ies on the basic ',bf ex ferimentscirried -.6ut at the Scientific Reseak h In titute of ~uglpar c 8 L jPhysics.at Mosco4 State University studying shock.spectra in. an ionization :chamberzwhen cosmic rays with penetration ability.of 40 and 20 m of water equivAlentpassed through the chamber., The spectrum of penetrating particles - could not be explained by a Vi-meBon flow formed during decomposition of K- and, Tr-mesons in-the atmosphere, - Khristiansen hypothesized that an interaction, of~particles whose energy is higher than 1013 ev causes a more-'rapid genera- J- tion of P-mesons than the decomposition of K- and iT-mesons. Vernov hypothe- sized-that the nucleon loses its virtual ii-mes6ns during peripheral ihter- Heavy-cosmic ray particles also lose their 7r-meson cloud during.. their energy- loss is less than that,of-.nucleons., All were criticized. U. Murzin reported on nucleophysical in- otigqt '.invhich~he found a difference Inthe enervv.,delivered from _Apps charged particles to neutralones during interactions.:-In Murzin's.opinion 7r-mesons -deliver, almost all energy*.to photons. Studies ofthe'radiation zones obtained: n* ew data on the asymmetry of the Aeomagnetic:field. The lifetime of patticles-in the radiAtion.,gqne.-.,;_. -1 las ts sever ffm PRESSt 42N,70 8 TJB CODE t 2_2 SUB14 DATE t none 'rd 311  POMALNSK-TY, A.A.; a-LIDIN;, c Calculat,-ujn of" some cha~-ac~erls-cq n., y, a,; v&rioue mean free Pa' 'Ihs for nuclear All SSSR, Ser, fiz, 28 nc',1-1.^'L904-1906 N 10'4~ (MIRA 1-% 1.2) I. F-LZl'cbp-qk,-,y Irstitut Jim. P.N. Lebedera ~N SSISR.  Category: USSR Abs Jour: Zh_-Kh, No 3, 1957, 7547 B-9 Author Blyumberg, E, A., Pornanskiy, A. N., and Emanuel, N. M. Inst Academy of Sciences USSR Title Concentration Limits for Flame Propagation in Mixtures of Hydrogen and Oxides of Nitrogen 0 Orig Pub: Izv. AN SSSR, Section on Chemical Sciences, 1956, No 7, 70'4- 770 Abstract: The region of flame propagation in mixtures of H2and oxides of N2 and NZ has been determined and is presented graphically; the mixtures were ignited by a spark. The lower concentration limit (percent HZI first number) and the amount of NZ (percent in mix- ture) required to render the mixture completely insensitive were found to be as follows: for N.0, 5. 0, 86. 0, 75. 0; for NO, 11. 4, 010, 0, 40. 0; for an equilibrium mixture ZNO2 _~~ NZO4, 24.0, 87.6, 60, 0. The region of flame propagation in mixtures of H2_N20-NO has also been determined. Card 1/1 -12-  a -11-. - - - ~- ";. i - -7 .~- -" p~ . --- . . - - - I- - ------  SINBGUB-LAVRENO, A., kandidat takhnicheskikh nauk; FRIDMAN, H, tekhnolog; POMANSKIT, B., inzhener-tekhnolog. - -- _kMa -"r " 7t~ Textile printing by means of a photographic pattern. Proz.koop no.1:19-20 Ja 156. (HMA 9:6) (Textile printing)  INP. as-jay tJoris Aleksandrovich [deceased]; FRIDMAN, Naum Yakovlevich;ALEKSAKHINA, yana YeVUR; ~'~~ONOVA' Natallyn Vasilyevna; BYALISKIY, A.L., red.; VELCH, N.Ye., red.; BONDARXV, M.S., tekhn.red. [Producing design on cloth; a manual for artists and masters] Takhuologiia rospisi tkanei; posobie dlia khudozhnikov i masterov. Pod obahchi red. A.L.Bial'skogo. Mosk7a, Vses.koop.izd-vo, 1957. 16o p. (MIRA 11:1) (Textile design)  - (-) 0 M F) N -S r, I ~' f6. ['I . BXTEKHTIII, G.A.;. 4TJBOVA. L.K.; POMAIISKIYI B.A. - LYUBINSKAYA, A., redaktor; IXATAPOV, K., tekhnicheamm'e- -~~ [Technology of Russian rug making] Takhnologita kovrodoliia RSFSR. Moskva, Vass. kooperativnoe izd-vo, 1955. 229 P. (MLRA 8:7) . (Rugs)  POMANSKIY,N. - Standards for expenditures of budget-financed enterpriBes. Fin.SSSR 16 n0-8:24-32 Ag'55- (MLRA 8:12) (Finance)  ROTSHTEYN, Lev Abramovich. Prinimal uchastiye POMANSEly, N..A.. KISW# Nos otvsrede-, FILIPPOVA, Eel redoizd-va; T-MEGIII-A, Top tekhn.red. (Financial planning of regional economic councils] Finanso- voe p-lanirovanis v aovnarkhozakh. Moskva, Gosfinnizdat, 1959. 205 p. (Finance) (MIRA 13:2)  POIAAITSKIY, N.S., inzh. Mechanizing the unloading of frozen loose materials from open rail- road cars. Mekh.i avtom.proizv. 14 no.3:35-37 Mr '6o. (MIRA 13:6) (Railroads--Technological innovations)  REMEZOV, Nil Petrovich, prof.; MAKAROV, Vasiliy Timofeyevich, prof.; POMALENIKAYA, O.T., red.; GEORGIYEVA, G.I., tekhn. red. (Soil science with the fundamentals of agriculture] Pochvove- denie s osnovami zemledeliia. Mloskva, Izd-vo Mosk. univ. 1963. 475 P. (AURA 16:7) (Soil science) (Agriculture) 4r-  ZEMWAS', V7acheslav Alekseyevich; KLEYNENBERG, S.Ye._, otv. red.; P(DIALE10- KAYA, O.T., red.; GEORGIYEVA, G.I., tekhn. red. [Animal world of Antarctica; anbrals and birds) Zhivotnyi mir Antarktiki; zveri i ptitsy. Moskva, Izd-vo Mosk. univ., 1960. 179 p. (Moskovskoe obshchestvo ispytatelei prirody. Sredi prirody.. no-51) (MIRA 14:10) (Antarctic regions-Zoology) MOOR MUM*  31N2 S/627 ,0/002/000/015/027 S-S-9 V~a 5- .2 104) 1;299/D304 AUTHORS: Kalachev, B. V., Nikollskiy, S. I., Pomanskiy, A. A., and Tukish, Ye. I. TITLE: On fluctuations in the number of/a-mesons in extensive air showers SOURCE: International Conference on Cosmic Radiation. Moscow, 1959. Trudy. v. 2. Shirokiye atmoafernyy livni i kas- kadnyye protsessy, 166-168 TEXT: The results are given of experiments for detecting fluctua- tions in the number of mesons and electrons in showers with number 5 6 of particles 10 ~N(2.10 . The experiments were conducted at an al- titude of 3860 m (Pamir), in the fall of 1957. The apparatus con- sisted of hodoscoped counters, placed at 9 observation points. No fluctuations were observed which would have an appreciable effect on the mean values of the investigated quantities. The computed in- tegral number-spectra were compared with the experimental spectra Card 1/3  31532 S/62 60/002/000/015/027 On fluctuations in the ... D299YD304 for various distances from the shower axis. A larger number of show- ers with number of particles N105 essentially differs from the absorption of 01z showers with. NX10 ,(No denoting the total number of particles in a shower of a certain group). It was found that the nuclearactive partic-1-c-S, tcc, are not monotonically varying in the case of show- ers with N-1105. The dependence of the number of P-mesons on the Card 1/3  353 S)62 60/002/000/020/027 Dependence of various ... D299~D304 total number of particles is more regular, yet- showers with N--105 exhibit a somewhat partioular behavior in this respect, too. A qualitative study of these irregularities led to the conclusion of a change in the nature of elementary nuclear interactions for par- 14 ticle energies E,200' ev. Some quantitative results are given which would elucidate this change. A particle was considered, cor- responding to a traveling wave In a hydrodynamic system. Its energy was set equal to approximately 0.8 E,(E,//ac2)1/15. The energy spec- trum of the secondary particles was selected in accordance with statistical theory; the nucleonic component was assumed as 0.27. The method of successive generations was used for calculating the absolute intensity of extensive air showers with N = 104, 105 and 106 respectively, the energy spectrum of pr .mary particles, the number and energy of nuclearactive particles, and shower absorption in the atnosphere, After additional. computations, the authors ar- rived at the following conclusions: Various irregularities were Card 21 3  Dependence of various... 31537 S/627/60/002/000/020/027 D299/D304 observed for showers with Nc~105. These irregularities can be ex- plained in two ways: a)In nuclear interactions, a sharp increase in the fragmentation of energy between secondary particles takes 14 14 place, starting from energies of 10 to 3.10 ev.; thereby it is necessary to assume that the elementary events called forth by7/-' mesons differ from those due to the nucleons, or to postulate the appearance of some new particles; b) in collisions of nucleons with energies higher than 1015 ev., it is possible that a considerable energy-fraction is transmitted to the electron-photon component. Lt These two assumptions would'also explain the experimental results. There are 7 figures, 1 table and 11 references: 9 Soviet-bloc and 2 non-Soviet-bloc. The reference to the English-language publica- tion reads as follows: G. Cocconi, V. Cocconi-Tangiorgi, K. Grei- sen. Phys. Rev., 75, 1063, 1949. AS,SOCTATTON: PIM.ebeskly institut imo P. N. Lebedeva AN SSSR (Phy- sics Institute im. P. N. Lebedev AS USSR) Card 3/3  FC;-!A,~ZYAYA, L. A. (T-ala oblast Sanitpt--Iork'-Fpider,!-olos-,icaI Station) "Length of pres--~rvation of Listeria on erwiromental obj:~~cts." Veterinariya, Vol. 3E, "I'lo. 12., Deceriber 1961, P. 21.  POIIAIMOV, 5-RAF11-1 FEDOROVICH N / 5' 632.9 - F7 SAD POD ZASHCHITOY LESA (ORCHARDS PROTECTED BY FORESTS) GORIKIY, GORIKOVSKOYF, KNIZHNOYE IZD-VO, 1955. 162 p. ILLUS., DIAGRS., `IRAPHS, TA]3,LM.. BIBLIOMPHICAl. FCOTTIOT115.  PONARANOV. Se.rafim Yedorovich [Orchard with a windbreak] Sad pod zashchitoi lesa. [Gorlkiij GorIkovskoe kn-vo. 1955. 162 p. (MLRA 9:10) (Windbreaks. shelterbelts, etc.) (Fruit culture)  "P'4 Sm P01"ACKI, L.; JMYSZTGFIKj E. Bird protection in young forests as a reans of strenghtherdng the biological resistance of forests. p, 29. SYIW,AN. (Wydzial Nauk Rolnic~ych i Lesnych Polskiej Akademii Nauk i Polskie Towarzystwo Lesne) Warszawa, Poland Vol. 101, no. 8, Aug. 1957 Montbly list of East European Accessions Index (EEAI), W, Vol. 8, no. 6., Jime 1959 uncla.  - - - K -P.4p im  ;4; PWARMCKI p L. Return of the red doer to the Kielce region. Wszechowiat. no.6:161-162 Je 162, t I  POURUCKI.. ;.. Bison in Smardzewice. Wazechsviat no,,3:77-78 Mr f62.  POMARNACKI, L. "Living Places Fh:Uormch U of jis Puvnax in 'he Kielce Voivodeehip,ll P.4,6. (CHROIWY PRZYRODE OJCZYSTA, Vol. 9. No. 6, Nov./Dec. 1953. Kradcaw, Poland) SO.- Monthly List of East European Accessions, (ESAL), LC, Vol. 4, No. 1. Jan. 1955 Uncl.  t P014ARMA-CKI.9 Leopold (Radom) , t From the biologt .of Streptopelia decaocto Friv, Wszechirwi-at nc.4-.3,2- 86 Ap 164. 1 1 11. I I . I  POMA.RWkCKI, L. Birds in the municipal part of Radom. p. 41 CHRO*1Y PRZYRODE OJCZYSTA. (Panstwowa Rada Ochrony Przyrody) Krakow. Vol. 15, no! 1, Jan./Feb. 1959 Poland Monthly List of East &ropean Index (11AI), LC, Vol. 8., no. 61 June 1959 Uncl.  POMARNACKI , L. Muscardinus avellanarius L. Vlozechswiat no. 2:21 ja 164.  P01MARTIACKI) L. - --- -- -- ---l- The sandpiper, Tringa tottanus L, Wszecbswiat no. Ve:192-153 jl-Ag 163.  POMARNACKJ L, - The ortolan. '143zocbswW,. no.2~49-50 F 165~  POMARNATSKIY, H.A. Geothermal characteristics of the salt dome region in the Caspian Lowland. Trudy VNIGRI no.220. Geol. sbor. no.8: 246-259 163. (WRA 17:3) i - t I V..;  TORGOVANOVA, V.B.; DUBROVA, N.V.; KRUGLIKOVI N.M.; LOZOVa IY,, M.R.; FOMARNATSKIYI ._M.A..; EMTOVA, V.A.; nauchnyy red.; DOLMATIOV, P.S., vedushchiy red.; YASHCIIURZIIINSY,AYA., A.B., tekhn.red. (Paleozoic and Mesozoic waters and gases in Western Siberia] Vody i gazy paleozoiskikh i mesozoiskikh otlozhenii Zapadnoi Sibiri. Leningrad., Gos.nauchn.-tekhn.izd-vo neft. i gorno-topl. lit-ry leningr. otd-nie, 1960. 459p. (Leningrad, Vaesoiuznyi neftianoi nauchno-issledovatelilskii geologorazvedochnyi institut. Trudy, no. 159) (Siberia, Western-Water, Under ound) (MIRA 14:3) (Siberia, Western--Gas, Naturalv  f annVIN)mCIRWa 256-757 1 toil.. 1954. 176, 148).-The vffnU of gases, dusts, and vapours, and the amount of raist.curountcrcti during flame-Heaning ire discussed. The influence of tenip. on lite structure and stren li of the steel under static Htriss in(] on --ting was g' f -I . in'tfi-I developrd for di inve'stiga d -h-fluinilig ~IWFSk in. Journal of: Appl led. Chp-mistry flame-rlt~nncd oronteriali The sampl- cut into "clions and rach andn d Individual1v wit] - auges. The crystal section is ex. C strain g, April 1954, structure was examimd by X4avs *. st svvs are highCA ai Tight- I out Industrial Inorganic Chemistry angles to tlic.flame path. Test;,weiv catrie.4 '311 hiLh-tunsile ste,ls to detcrininc the effect of flanic-cleaning on Iatigue. The fatigue strength decreases slight])-. Corrosion tests ivere rotricif -cleaning is an effective inethod of rust r-.-inoval. Brief out. Name mention Is made of a new metluxi of protection in which Mine- cleaning,is combined. with a thermo-chemical treatment. IC, 13. CLAIOCI!~---  ACCESSION NR: AP4039546 F/oo48/64/ooo/oo2/00l8/001q AUTHORI PomasId.0-Jeray- TITLE: Does radiation imporil. astronautO SOURCEz Autronautyka, no. 2, 1964, 18-19 TOPIC TAGS. Radiation effect, ionizing cosmic radiation, biological radiation effect, radiation dxVg. relative biological effectiveness, maximum permissible radiation dose ABSTRACT- The article gives a general discussion of the nature and biological effects of ionizing cosmic radiation. The major part of such r~Aiation is constituted by corpuscular rays, chiefly protons. Other particles are heavier nuclides such as the nuclei of carbon, nitrogen, oxygen, iron, and other elements. -Prot,~ns are also present in the radiation bolts surrounding thp earth; oalculation4 show that of the total nuubor of protons in the inner radiation bolt. 2 x 10 particles /qm2/i;oo have energies in excess of 40 Mov.. Dux-ing solar flares. this number may Increase, -and the energy of individual C,,d 1/2  POMASKI, J. IfThe Surveyor's Part in Building Settlement." p. 188 (Przeelad Geodi-,vin Vol. 9, no. 7 July 1953 'Warszwna.) Vol. ), no. SO: 'Monthly List of East European Accessions./Library of Congress, June 1954, Uncl.  VAULIN, V.A._; POIIAZAJI, I.F.; ANOSHKIN. A.M.; POPKOV, Tu.L. Using deep holes in breaking ores in-shrinlmge stoping. Blul.tekh.-ekon.inform. no.8:5-7 159. (MIRA 13-1) (stoping(mining))  I-'J. -17,11 f~ i AVI I -_ t I I POMASKIN.-Y.A. (Moskva) Bronchial asthma. Ked.Bestra 16 no.12:10-14 1) '57. (MIRA 11:1) (ASTHMA)  POMASKIN A, A. 11. (USSR) "Content of Fibrinogen in Human and Animal Blood." Report presentel at the 5th International Biochemistry Congress, Moscow, 10-16 Aug 1961 I I I'll till, q, I raw, -A-am W-409 ~1- WON W-NW-?1RVL1-W NA F-Pla- TO  KOTLYAROVJq I. I.; POMASKIIIA-,-A-.---14.-------. Content of fibrinogen and labile globulins in the blood of patients with pulmonary tuberculosis. Probl. tub. no.7:103-107 161. (MIRA 14:12) 1. Iz kafedry biokhimii (zav. - prof. I. I. Hotlyarov) Krasnoyar- skogo meditsinskogo instituts, Wir. - kandidat meditsinskikh nauk P. G. Podzolkov, zam. dir. po nauchnoy chasti - prof. ~1. A. Dmitriyev) (TUBERCULOSIS) (FIBRINOGEN) (GLOBULIN)  POMASKINA, A. N. Cand Biol Sci - (diss) "Content of fibrinogen in whole blood Iof people and animals." Irkutsk, 1961. 12 pp with diagrams; (Irkutsk State Medical Inst); 200 copies; price not given; (KL, 10-61 sup, 211)  POMASKOVAY Z. S. Cand Tee Sci,, Diss -- "Experimental and theoretical principles in the development of jet pump equipment for breaking sand plugs in oil wells". Baku, 1961. 21 ppp 21 em (Joint Council of the Azerbaydzhan Inst of I Petroleum and Chem imeni M. Azlzbekov and inst and installations of the Acad Sci AzSSR on the petroleum industry and petroleum-mechanical branches of science), 250 copies, No charge (KL, No 9, 1961, p 183, No 24361). L'61-548517  POMkZANq D.A., inzh. Dependence of readings of the yield point of pipe me-tal on the shape of the piece. Stroi.truboprov. 6 no,lls5-6 N 161. (MIRA 1584) 1 1. Chelyabinskiy truboprokatnyy za od (Pipe-Testl _I a  POMAZAN, D.A. Now design of universal testing mchines. Mul. TSHIICHK no.6:47-48 '58. (MIRA 11:5) 1. Ghelyabinskiy truboprokatnyy zavod. - (Testing machines)  ACC NR; AT6022301 SOURCE CODE: UR/0000/66 000/000/0003/0013-. AUTHOR: Pomazan, V. M.___., ,~i ORG: none E -. -The methods for estimating the noise immunity it:id the effectiveneas of remote ntrol address systems with answer back CE: Vsesoyuznhya nauchnaya sessiya, posvyashchennaya Dnyu radio. 22d, 1966. Sektsiya telemekhaniki. Doklady. Moscow, 1966, 3-13 TOPIC TAGS,: command and pontrol system, control statisti.cs,.eyot-ora~reliability 'L,L~ ABSTRACT: Remote control systems are analyzed in which the reliability of received actuating commands is increased by using answer-back signals which either permit or forbid the execution of that command. The analysis assumes that the noise in the for ward and return channels is equal. The probabilities of occurrence of various events i-arisin- in these systems are calculated. The author calculates tile general case in which a single undetected error probability may bc_ minimized by a corresponding se- lection of the code length and the method enabling command decoding. The curves ex- hibiting the respective reliability of systems with and without feedback indicate the relative advantage of the latter. Orig. art. has: 11 formulas, 1 table, and 4 figures. SUBM DATE; 24Mar66/ 004/ OTH REF:' 001'' SUB CODE: 09 ORIG REF:  45751 9, ?300 AUTHOR: TlTLB: PERIODICAL: Poinazan, V. 11. "r'/194/62/000/012/025/101 D201/1)308 Interference-killing properties of time telemetering systems with memory and Integration Referativnyy zhurnal, Avtomatika i radioelektronika, no. 12, 1962, 60, abstract 12-2-120 d (In collectiont Avtomat. regulirovaniye I upr., M., AN SSSR9 1962, 386-391) TEXT: The methods of' signal reception (storage and integration), 3-n- telemetering (T14) PAM-AM and- PLM-AM systems in the presence of both weak and strong fluctuating noise, are analyazed. In moot real receivers the error is a random quantity, with a nearly normal distribution. In this case it is convenient to express it by its reduced mean and rms values. On the basis of papers on interference- 'killing properties of TPI it is possible to determine th'e reduced rms error for a single-channel transmission of PLM measurement in the presence of fluctuating noise-in the transmission channel. The determination results in Card 1/4  S/194/62/000/012/025/101 Interference-killing properties ... D201/D308 theorem, then such a system is called a system with memory, because the measured parameter is determined over the period T only once and is stored until'the next cycle. The rms error is considered for the case when the pulse repetition period is decreased N times. if the input pass-band remains unchanged at the same time, then the ratio PfX7TN increases proportionally and so in consequende does the error resulting in the telemetering system from the instability of the threshold and signal amplitude. Formulas for the rms error at Af = const and -1~f/TN = const are given. It is pointed out that the errors can be reduced by connecting an integrating circuit with time constant I in front of the indicating instrument. Such a aye- tem is called an integration system since it integrates over the period T all values of the transmitted parameter. The figure shows the graphs of A ZPLM-AM fQAf) illustrating the variation of error in a storage or integrating system for the case (us eff/un eff) f x 100 - 4.6 and for various-values of N (from 1 to 4). Continu- ous thin. lines on the graph denote errors for Tf N/T = const and Card 3/4  POMAW, v. m. PHASE I BOOK EXPLOITATION 807/6012 Akademlya nauk SUR. Inst1tut aybonatlkl 4 teuawih~nikl. Avtomaticheskoye reganrovanlye'l upraylerilye (Autozatla Regulation and C ntrol) Xoscow, Zzd-vo AN SSSR, 1962. ~526 p.. Errata ellp inseged. 9000 copies printed. i. - liesp. Ed.fs Ya. Z. Tsypkin, Proiessor, Doctor of Technical Scienceal Ed. of Publishing House& To. ff. Qri~orfyev; Tech, Ed.s' 1. 9. Dorokh1na. ?MPOSS: This book lis intended for scientific research workers and engineere'.concerned with automation. COWERAM The book is~ a collection o4 articles gpnalsting.of papers delivered *t the 7th'0bnfer*Fw* of,'Jtinlozr Scientists of the, Instl- tute, afk* Autoatlon. and Tele*ohanios,. Academy of Sciences USSR, held ih*Kardha96o. A-wide range of scientific and technical questions relating to iutomatic, i4ir~laticn-and control is covered. Card 1/%2 _ -,__7 7  Automatic Regulation (Cont.) SOV/6012 The articles are organized In seven sections, Inoluding automatic . control systems, automatic process control, computing and decision- -akin devices, automation components and'devices, statisiloal methods In automation, theory or relay circuits and finite auto- matic systems, and automated-electric drives. No personalities are mintioned. References are given at the end or each article. TANX OF CONEUM PART X, AVIOUTIC CONTRM S732M Androychikay, D. L 2hi effect of dUry friction and slippage (play] on error7during reverse gear operation of servo-- !441 food system 3" Andreychlkav, B. 1. Dynando accuracy of machine tools with, programied control. 14 Card 2/12  Automatic Regulation (cont.) SOV16012 (j;m:~a~zan Noise-proof features of time telemetering storage and integration 386 SysoyeV, L. P. Estimating parameters and detecting sig- nals which are nonlinearly dependent on random param- eters 392 Teyman, A. 1. Estimating the distribution of.overshoots ..beyond a given level in a random process 399 Tovstukha, T. I. Determining the optimal parameters of 6ptimalizing step- and gracLient-type systems under con- ditions of fluctuation noise 413 PART V:1. TIMORY OF RELAY. CIRIOUITS AND FINITE AUTOMATIC DEVICES Aleksandridi, T. M. Problems of the synthesis of switch- irig networks with matched p-n-p and n-p-n transistors 426 Card 10/12  ACC. NRt AT6022306 can be represented by a certain random error probability which is constant during the i duration of the poor state but which varies from state to state and lies within Plmin- IPI,ax. The density of probable values of P, lying within these limits may also be i-en; in the special case this density may be constant. In the case in which Plmin- a. h the proposed mathematical model may become a Hilbert model. A limited delay' sev- 't e data transmission is characteristic in telemechanics. This delay may be I ra times shorter than the duration of a single poor state of the transmission chan- I..'n e1. Under these conditions a special requirement is imposed on data transmission which stipulates that the probability of occurrence of certain errors, e.g., unde- tected errors,,must be low for the worst state of the channel. The dependence of the probability of occurrence of a most dangerous error in Pl is investigated, and the worst value of P, as well as the worst maximum value of a probable undetected error are determined from this viewpoint. A more interference-free code will be a code in which the maximum of the error is minimum, e.g., minimax Pundetected error-' Such a criterion for estimating the stability of the code is termed minimas. Orig. art. has:i 1 table and 4 fi ures. SU'B CODE: 137 SUBM MiTE: 24Mar66/ ORIG REP: 006/ OTH REP: 007 2/2  ~V, A~.I.- BALUZOVA, A.A.; RACHEVA, V.Yu. New technological procedure and outlook for the organization of a continuous mechanized line in the manufacture of black beichao tea. Biokhim. chain. proizv. no.8:161-169 16o. (MIRA 14:1) 1. Krasnodarskiy nauchnp-issledovatelloldv inBtitut pishchevoy 13romushlennosti, Krasnodar. (Adler--Tea)  POMAZIM"OV -P.V, Reireation area on thb Ltroginskii f2ats of the ftskva Fiver. Gar. Uris. Mosk. 36 no.5:3-4-36 My 162. (MRA. 3.5 :7) (I,bskva VaUey,6--Recreation areas)  POMAZANOV P V.,, arkhitaktor; TOBILEVICH, B.F. Plammin for popular recreation. Gor, khoz. Moak. 35 no. 3:22-27 . kr 161. (MIRA 141:5) (Moscow region-Recreation areas)  PC14AZA14OV,, 3.1. Determination method of the industrial ensembles and the diagram of their characteristics of production. Analele geolgeogr 17 no-3-.118-128 JI-S 063.  IIOMAZANOV, S.I. Theoretical problemB in economic and regional geography. Izv.AN SSSR. Ser.geog. no*3:96-105 Yq-Je 161. (MM 24:5) (Geograpby) -4~  IF-I_---. _;A M POKAZANOVSKIY., Yu.; SLINIKO, I. Load the cutter-loader fully. Sov, shakht. 12 no.6:10-11 Je 163. (MIRA 16:9) (Donets Basin-Coal. mining machinery)  ;pj~ r . .......... LA rf phErmio 1-1 r!P r "ei rat 'I nrl ".)f 2 JA ~UTSS 3 -L'rj:Lr,..~3..a,yer chromatograPh-Y- Ir- 253-256 C. 1. -Z Zaklaelu ~hlerdl dcc. Mg-.-. inz. Z. Rarga8inski).  POMAZKIN,.-V.A. (Moscow) ------ "qw - -1 Use of cortigone in treating bronchial asthma. Ked.sestra 17 no.6248 Je 158 (MIRA 11:6) (CORTISONE) .(ASTHIU)