SCIENTIFIC ABSTRACT STAKHANOV, I.P. - STAKHEVICH, YE.B.

L 10610-65 !ACCESSION NRt AP4045316 Boundary conditions are derived by equating the odd moments of the distribution @Ifunction for the particles leaving.the electronde (assiumed given) to the correspond ling mccents of the distribution function for thk;- particles in the body of the plas- Ima. With the further assumption that the expansion coefficients depend only on the !heat flux.and the matter flux, the following equation Is derived for the saturationT::,,. icurrent I.: 1,75acK VT,92_K2 + 2,GGLK + I Here 10 is the electron emission current,. K is -the ratio of the mean free path to the interelectrode distance,@ Tj ('ri +. r,) where ri and re are the ratios of the ; - j@k@, . . lion and electron temperatures, respec- y, to t i vi4 the cathode temperature, and V_ jo /,(c.YTTf f mi where Jo is the ion 'emission current and It and m are the masses of th e io*n-and electron, respectively. For the case considered Thin equation .can be used to calculate the saturation current when the mean free path is not neg- iligible compared with.the intorelectrode distance. Orlg.art.has: 11 formulas. :ASSOCIATION: none SUBMrf=: 00 MM. 00 1:90,C0090. EVE NR REF BOV1. 001 OnMR*. 001  L 10611-65 -&-1T(1)/M(k)/EPA(sp)-2/P@ (n)-2/EPA(w PU-4/pza@/p PF ab-44 1JP(0)7JRL/ESD(gs)/ESD(t) AT: ACCESSION NR: AP4045318- S/0048/64/029/009/1541/XS44 AUTHOR: Karmazin, V. P. Kasikov, 1. 1. Stakhanov, I.P. TITUR-t Effect of the cathodis work function on the operatlan of a tervoelectronle: converter in the diffusion regime ffieport, Tenth conference on Cathode Electronics 1held in Kiev 11-18 ny-10;17 7,1values SOURMAN SSSR. Izvestiyai Seriya fizicheskaya, v.28,.no.9, 1964, 1641-1544 TOPIC TAGS: thermoelectric converter$ cesium vapor,diode, work functiou, theoreti- cal physics, diffusion theory ABSTRACT: Numerical solutions of the beat conduction and diffusion equations were found for cesium vapor diodes under various conditions, and many of the results are pre3ented graphically. Particular attenilon.was given to the influence of the.work function of the cathode. The solutions were effected by employing ka 'own or assumed of the electron and Lon temperatures In the diffusion equation to calculate the density and potential distributions, and employing'the densities and potentials thvA found In the heat conduction equation to calculate the temperature distribu- ti(ase Thin'procesd was started with the,,assumption of uniform temperatures and q1ras  L 10611-65 jACCESSION NR: AP4045316 r to calculate.the effect of the cathode work continued until it converged. In orde function it In necessary to take into account the deviations from local thermodynaw ic equilibrium in the vicinity of the cathode '(D.Ya.Moyzhes and T.Ye.Pikus,FLz.tver-.1 dogo tela 21756,1960). This was accomplished by assuming that the density In the neighborhood of the cathode is reduced from its equilibrium value by the factor (I - i/io)1/2,.whore in the case of overcompensation (i.e.,when the cathode work function exceeds the chemical potentihl in the plasma) io and I are the cathode emission current and the diode current,' respectively, and in the case of undem-om- pensation they are the ion emission current and the ion current. It was found that the-current is independent of the work function under conditions of under-compensa- tion, but that it decreases rapidly with Increasing work function under conditions of overcompensation. The work function of the cathode In the cesium vapor can be estimated from the deviations of the performance of the.converter from the predic-' tions of'the equilibrium theory. The cooling effect of the electron current ba the cathode was calculated, and from that the efficiency of the converter. It was found that the heat taken from the cathode by'the electronalls.Independent of the work function except under conditions of --very strong overcompensation* -111be authors am I !deeply grateful to the late Prof.A.I.BondaE2M@o CUB @Xor valuable die slona."_ Orig, Art.hatit 5 formulas and 6 figures,,   ACCESSION NR; AP4020565 S/0057/64/034/003/0399/0409 AUT11OR: Stakhanov, I.P.; Stepanov, A.S. TITLE: Transport equations for a three-componOnt plasma in a magnetic field SOURCE: Zhurnal toldinicheskoy lizilci, v.34, no.3, 19G4, 399-409 TOPIC TAGS: plasma, tranf@port equation, three-component piasma, plasma heat con- ductivity, plasma viscosity,,plasma thermoclemcnt ABSTRACT: The transport equations for licat and momentum are derived for a moder- ately ionized plasma in a magnetic lield of arbitrary magnitude. The purpose of thL- calculation is to obtain transport eq'uations applicable to the theory of plasma de,-! vices for transforming heat into electrical energy. The transport equations are de-1 rived by the method of Chapman and Enskog. The ions are assumed to be singly ch r I a g-j ed and to have the same temperature as the neutral atoms. The electron temperature may differ from the ion and atom temperature. Distant (Coulomb) collisions are tak- en into account in the kinetic equation by employing the collisi Ii tegral of L.D.:, L. Ire" Landau MEW 7,203,1937), and collisions with neutral atoms are ated from the standpoint of the elastic sphere model. The deviations of the distribution func- Carc@/2  ACCESSION IM: Ap4o2o565 tions from the Maxwellian form are expanded in series of Sonine-Laguerre polynomi-,; als of index 3/2, and equations are derived for the expansion coefficients, All . !: terms except those of the two lowest ortlers are neglected, the resulting equations.-, are solved, and the equations for heat flux and friction forces are obtained. The viscosity tenser is calculated by the method employed by S.I.Braginskiy (ZhE-Tr- 33, 459,1957), involving an expansion in Sonine-Laguerre polynomials of index 5/2. There is said to be an error in Braginskiyls expression for his viscosity tensor. T.he entropy balance equation is derived. The rate of entropy production Is nuitably factored into fluxes and forces, and the corresponding Onsager equationS are larit- lUen. The transport equations are specialized to the case of steady motion in@thc absence of a magnetic field, and arc compared with the equations derived by . B.Moy- zhes and G.Pinus (FTT 2, No.4,1960). It is found that when Coulomb interactions are significant, the approximations employed by these authors lead to rather large er- a rors. Orig.art.has:'.45 formulas and 1 table. ASSOCIATION: none SIMIMITMED: IGApr63 DATE ACQ: MlarU ENCL:.00 SUR CODE: 141 NR REF SOV: 007 OUMR- 002,* C.rd 2/?  ppp"- @ACCZSSION NR: AP40403i7 5/0057/64/030006/1105/1106 AUTHOk:, Gus 1kov,Yu.K.; 'PamhchenkoV.P.; Stakhanov,I.P.; Stumbur,B.A. I TITLE: Effect of Coulomb scattering on thwoperation of thermo-eloctronic conver- ters SOURCE- Zhurnal tekhnichookoy fisiki, v.34, no.6, 1964, 1105-1106 TOPIC TAGS: Coulomb scattering, electron collision, diode, cathodeo cesium,*thermo-i electronic converter A13STRACT: The electron collision frequencies obtained from the dependence of the. current on the transverse magnetic field in cesium vapor thermal mission convertelm!_ greatly exceed the corresponding frequencies of collision between electrons and co- @sium atoms. The possibility is discussed of ascribing this discrepancy to the of- fect of Coulomb collisions of the electrons with electrons and ions. Experimental jeollision frequencies in cesium vapor diodes are plotted against pressure and com- 1pared with the calculated Coulomb collision frequencies. The theoretical curve lies somewhat above the experimental points, To account for this slight discrepancy new-! i ral possibilities are adduced, Including the Inexaqtness of the concept of coll1sun. Card 1/2  !ACCESSION XR: AP4040317 A cylindrical hot cathode cesium! when applied to the case of Coulomb interaction. !diode with 1 on electrode spacing was operated at pressures f 0.055 to 0.24 tor.1 The behavior of the diode Indicated diffusive conditions even at the lowest pres- sure where the aean free path due to collisions-with cesium atom was ls5 ma (great-i or than the electrode spacing)-, andthe Coulomb Kean free .path was 0*1 m (much lam than the electrode spacing)* OrIgoart.has: 3 formulas and 2 figures* ASSOCTATION: none TTEDt lWun63. SUBMI' DATE AOQ: lwun" RML: 00 SUB CODE: MB,NP,. NR a" Bev 1. 005 OMR-.001 Cam.2/a.-  L 11+389-65 EVIT OWE'VIP (e )/E,'IG (10/EWT (m )/EPA (bp -2/EPF(n 2/'E'PA k' ",/I Pz-6/Pab-10/Pf -4/Pu-4 IJPI% c )//AFNL//S5j,'./A5D (p -JD/AT ACCESSION NR: AP4042934 S/0057/64/034/008/1451/1461 AUIHOR: Cus'kov, Yu. K.;_Lebedev, M. A.; Stakhanov, I. P. TITLE: Low-voltage arc in cesium u@pors SOURCE: Zhurnal tekhnicheskoy fiziki, v. 34, no. 8, 1964, 1451-1461 TOPIC TAGS: arc discharge, cesium vapor, glow discharge, cathode physics ABSTRACT: Low-voltage arc discharge in cesium vapors was investigated in view of the posz;ible practical applications of this phenomenon, particularly in thermionic energy converters.. The experiments were performed with two specially constructed discharge chambers with plane electrodes; ti ie interelectrode spacing was 6 mm in one chamber and 10 mm in the other. In one series of experiments the dependence Of Vb (breakdown potential) on Pd (P is the cesium vapor pressure In mm Hg and d is the interelectrode spacing) was established at various cathode temperatures from 500 to 800C and at anode temperatures either kept constant at 800C or varying from 500 to 800C. In another series of experiments the potential differences occurring on the electrodes at"ter the sparking of the discharge were plotted with the minimal glow potentials. Further measurements included the dependence of the Card 1/2  L 14389-65 ACCESSION NR: AP4042934 discharge current on Pd. Volt-ampere characteristics were plotted for vari 600C. In Ithe first case the ionization takes Iplace in the direct vicinity of the cathode 4-while in the second case the emission increases rapidly and thermal ionization becomes possible. It is stated that additional experiments will be needed to determine the character of changes in electron tem- -7 peratures and work functions taking place near the cathode. The authors thank Professor/I. 1. Bondarenko/(Deceased) for his interesting discussions. Orig. art.. Egures, 1 table, and 15 formulas. has: 10 ASSOCIATION: none SUBMITTED: lOJun63 ENCL: 00 SUB CODE: EM NO REF SOV: .002 OTHER: 003 Card 2/2  ST."Kill"INOV, l.; .; STi"I'AIRD"'i" @"-.'S. Current fluct-,.'ations in a thermoelectric energy convert,,r. Zh@.:r. tellch. fiz. 35 no.11:132-139 ja 1615. I-F-.3"  11, TAM t -V,1TuV I. i,. *. ;@. "' . . C.I. 1,7 1 K'uv ) y I!. E. - : I DI@SIHOV J@ I. L . -, -F t"'J1 1, -@Mv, S. I.; m,1,11@L)LV, m. il. "State of the investigations into physical processe-s in thermiloni-c Converters." report to be presented at Intl Conf on Thermionic Electrical Power Generation, London, 20-24 Sep 65. report to be presented at Intl Conf on Thermionic Electrical Power Generation, London, 20-24 Sep 65. USSR State Comn for Applications of Atomic Energy, Moscow.  @-.W( t) IJIP(c j D/.JG AC C N R, Wi6ooOi 54 SOURCE CODE: UP/3158/65/000/015/0001/00i8 AM 11011: Dr@=khambetqy, Ye. 8. Gus'kav,. _yu...K. ; K4q@@ov, 1. 1. ; Lipbedqv@ _5. Ya. RadJn, A. V. Stakhanov I P OBG: Mysica and Power inr t-.te, State Committee on the Use of Atomic En ergy, SSSR (FIzIko- cner'etIchc'S2_Y' ln'stit@ut, GorudqrrAven'_ tf, nyy t'po spo 'zovanlyu atomnoy ,niergil SSSR) "Ll TITLE: Operation of a cesium diode w3th inert:M& Impurity 0bnJvmk. Miko-energeLichenkty Itintitut. Doklady, no. 15, 1965. Rabota L.-,czJycvog,o d1oda a primeslyu incrtnogo gaza, 1-18 OPIC TAGS: cesium electron tube, ceslimn plarma, thermoelectric convertor, volt ampere characteristic, pressure effect, temperature dependence, inert gas ABSTRACT: The investigations were motivated Irj the flact that when a the"roclectric converter is operated In a nuclear reactor, the fission products, a large fraction of which hre radioactive krypton and xenon, may enter In the interelectrode gap of the converter, and their effect on the converter In the operation of a cesium diode may be appreciable. The tests were made with experimental- tu1bes with flat elec- trodes, using a molybdenum cathode and niobium anodes, Doubly distilled metallic cesium and spectrally pure krypton and xenon were used in varying amounts. The cathode was fed with pulsating b&IIV&ve current. Me cesium vapor pressure ranged from 0.1 to 3.9 mm Hg for the krypton-riUcd tube and 0.028 to 2 = Mg for the xenon..; filled tube. Plate were prepared of the dependence of the short-circuit current on I-  L 23703-66 ACC NRs AT 6oo6754 the cathode temperature without and with the inert gases, and volt-ampere character- istics at various pressures. The introduction of the Inert gases resulted In a parallel shift of the temperature dependence curves towards smaller currents, and to noticeable reduction in the output parameters of the converter. Comparison of the experimental results with calculations based on diffusion theory show in general good agreement, although some unexplained irregularities were observed in that the saturation current following addition of xenon war. higher than following addition of krypton, and that the experimental currents usually were lower than the theoretical ones. These deviations are related to thermal diffusion separation of-the cesium- krypton and cesium-xenon mixtures in the tube. The experiments show that addition of inert gases reduces the saturation current compared with pure cesium. The ex- perimental saturation currents were as a rule lower than the theoretical ones by a factor 2--4. Addition of krypton reduced the saturation current more than addition of xenon. The thermal diffusion'ratios were calculated for Cs-Kr and Cs-Xe mixtures in the case of low cesium densities. The values obtained for the cross sections of the interaction between cesium and xenon and kryptRik ark-1-05 X 10-13 and 8 x 10-14.. cmP, respectively. Direct experiniints on the thermal dliTusio-nin-the mixtures of cesium and ineit gases are necesisary for & fini-s-1-i-n-tuTretation of the-results. 110rig. art. has: 12 figures &M 12 forwalw,. M CODN: 20/ W10 127: 004/ 02H FMF.* 002 A 546,0 DffM' Card 2/2  (M n i ACC NR: Nd-,W6756 SOURCE CODE: U10158/6 WO/017/00-01 /_ 6-6-23- Auum: stakhancrv, I. P.; Kasikov, 1. 1. C7L i ORG: Pbysics and Power Institute, State Committee on the Use of Atomic Energy SSSR _Jnf;Ti_tutGosu&,rstvenrWy komitet po ispollzovaniyu atomnoy energii SSSR) TITLE: On the calculation of the volt-ampere characteristics of a thermionic con- verter in the are mode SOURCE: Obninsk. Fiziko-energeticheskiy institut. Doklady, no. 17, 1965- K ras- chetu vollt-ampernykh kharakteristik TEPa v dugovom rezhime, 1-23 TOPIC TAGS: thermoelectric convertor) gas discharge plasma, ionization phenomenon, electron recombination, transport equation, volt ampere characteristic, pressure effect ABSTRACT: The authors present a calculation of the volt-ampere characteristics of a Ngas-dischar e lasma based on formulation of the transport equation in the diffusion approximation, assuming a thermal mechanism for the ionization, wherein the rate of ionization is proportional to the charge density in the plasma. Volume recombination is neglected. It is assumed that no abrupt change of the potential occurs in the plasma aver the mean free path of the electrons, and all such changes occur in Lang- muir layers at the electrodes. The problem is solved for an infinite plane-converter. The transport equation is derived, and the integrals involved in the solution are solved by numerical methods. The validity of the assumptions made and of the approx- Card  @@-C;!@ - m L 24316-66 ACC NR-- AT6oo6756 e I  L 2@9 16-65 EWT(I)/EPA(s)-2/EWO(k)/EPA(sp)-2/r,,PF(c)/EEC(k)-2/EPR/E:PA(w)-2/ BEC(t)/T/r,,!r,C(b)-2/EPA(bb)-2/EWA(m)-2/EWA(h)/FS(b) Pz-6/Po-4/Pab-1O/Pr_4/Ps-4/ Pt-10/Peb/Pi-4/Pk_4 IJP(c) JHB/TT/M,1/AT ACCESSION NR: AP5003247 S/0057/65/035/001/0132/0139 AUTHOR: Stakhanov, Stepanov, A, S4 TITLE: On the oscillations of the current in a thermoelectronic energy Converter - SOURCE: Zhurnal teklinicheskoy fiziki, v. 35, no. 1, 1965, 132-139 TOPIC TAGS- thermionic energy converter, plasma energy converter, thermionics, oscillation, plasma, instability ABSTRACT: A new method proposed for the investigation of oscillations in a thermoclectronic energy converter offers the advantage of ex- plaining the formation of ion clusters and also.takes into account the occurrence of collisions. Because a dispersion formula derived from the kinetic and Poisson equations becomes intractable when the distribution functions of electrons and ions in the near-cathode regions are inserted, the authors approximate fe by two electron beams, one of them representing the electrons in a quiescent plasma and the other the perturbation caused by the passage of the current through the diode. The perturbations of the ion distribution are Card 1/2  L 23916-65 ACCESSION NR: AP5003247 concentrated in one point,and therefore fi is represented by a single beam. The use of the above -approximation leads to a simplified dis- persion function for beam instability which shows that, in the region close to the cathode, the instability sets in at sufficiently strong electron currents, or, when the electron current is small, at strong ion current. It is in this near-cathode region that the instability engenders quasi-neutral longitudinal oscillations of the plasma in the interelectrode spacing, the phase velocity of which is of the order of the thermal ionic velocity, while the damping is determined by the collisions with neutral atoms. The frequency of these oscilla- tions is found and is shown to be inversely proportional to the inter- electrode distance if the pressure is low, and inversely proportional to the square of the interelectrode distance if the pressure is high. The results are shown to be in good agreement with experimental data. Orig. art. has: 22 formulas, 1 figure, and 1 table. (ZLI ASSOCIATION: none SUBMITTED: 29Feb64 ENCL., 00 SUB CODE: NO REF SOV: 010 OTHER: 007 ATD PRESSt 3177 Card 2/2  L 6970-65 EwT(i)/EPA(ap)-2/EVIT(m)/EliG(jr~)/T/EEG(t)/EPA(w)-2/M(m).~2 -- - -- 1 FZ41 UPa P07 F-1 Ijp(c) ff.-Iff/AT O/Pi !ACCESSION NR: AP5003257 S/0057/65/035/001/0165/0167 ;AUTHOR: Pashchenko,V.P./ Stakhariov,I.P./ Stepanov,A.S. 'TITLE: On the influence of the plasma genu."y near the electrode on the conducti- Ivity In a'transverse magnetic field :SOURCE: Zhurnal tekhni,::heskoy fiziki, v.35, no.1, 1965, 165-167 TOPIC TAGS: plasma, plasma density, plasma diffusion, thermoelectric converter ABSTRACT: A magnetic field affects the conductivity of a plasma not only by alter-'@ Ing the diffusion constant but also by influencing the density of the plasma in the neighborhood of the electrode. This latter effect is calculated in the present pap- er. The electron distribution unction in the electrode region is computed separate- ly for atrong and weak fields; the distribution function for intermediate fields, where the electron Larmor radius is comparable with the mean free path, is obtained by interpolation. The difference between the electron temperature and the cathode temperature was neglected, and the solution of the kinetic equation without the col-@. lision term was fitted to the solution of the diffusion equation at a distance from the cathode of the order of the man free path. The results of the calculations X  L 26970-65 ACCESSION NR: AP5003257 were compared with measurements perfcrmed with a mock thermoelectric converter by plottIng the ratio of the saturation current to the equilibrium current (obtained by extrapolation from the low temperature rogign) against the strength of the ap- plied transverse magnetic field. The apparatus and experimental t6chniques are de- scribed elsewhere (Yu.K.Gus'kov, V.P.Pashchenko and Ye.Ye.Sibir,Izv.AN SSSR,Ser.f!!Z4. 28,1537,1964). Moderately good agreement between theory and experiment was obtained. The differences between the theoretical and experimental values are ascribed to the neglect of the temperature difference between the electrons and the cathode, and to a possibly incorrect determination of the overcompensation factor. The plasma den- sity near the cathode was found to increase with increasing magnetic field and to approach the equilibrium value in strong fields. The conductivity, accordingly, de-' creases less rapidly with increasing magnetic field than does the diffusion cons- tant, and under some conditioroit may even increase. "The authors express their gratitude to V.D.Bondarenko tar valuable assistance in setting up and perto rming the experiment." Orig.art.has: 7 formulas and 1 figure. A,: Card 2/3  ENCL, 00 SUB- ccbg:ME OMER. 000  L 45166-66 EWT)1)/L _/E1dPjW/F,_Tj__ - IJP-(c) - RTW/TT/J.D/WW/JG/AT ACC NR- AP6028623 SOURCS.CODE: UR/0057/66/036/OOEI/1481/1488 .A Be4mukhamboW.Ye S Guslkov,Yu.K.; Kasikov,1,1,; Lebedev,S,Ya,. 10 SMORLy, 1. F,; Mou.L11, A! Lal Lli! none TITLE: Operation of a cesium thermoelectric converte -in the presence of an inert gas', :SOTURCE: Zhurnal tekhnicheskoy fiziki@ v. 36, no. 8. 1966, 1481-1488 TOPIC TAGS: thermionic energy conversion, cesium, electric arc, cesium plasma, inert gas, neon, argon, krypton, xenon .ABSTRACr: The authors have investigated the effect of the presence of No, Ar, Kr, and@ I i .Xe on the operation of a cesium arc in the 0.5 to 1.0 mm gap between a hot Molyb- :denum foil cathode and a niobium anode. The apparatus was sealed off at 10-7 mm Hg !after having been cleansed by the usual vacuum techniques. The cesium pressure was .Controlled by varying the temperature of a branch tube containing metallic cesium,the .temperature of the remainder of the apparatus being kept 30 to 50o C higher. The inert j :gas was admitted in successive doses by breaking tubes containing it. The cesium I @pressure was varied from 0.0275 to 3.9 mm Hg, and inert gas pressures up to 234 mm Rg .were investigated. Very small additions of inert gas increased the ;plateau of the current-voltage characteristic by some 0.1 V, but further increase of ithe inert gas pressure ledu to deterioration of the characteristics of the converter. iCard 1/2  L 45166-66 ACC -NR,--A-P-6-02--8-6-2--3-- The presence of the inert gas decreased the saturation current. The saturation current under different conditions was calculated with the aid of the diffusion theory ,of B.Ya.Aloyzhes and G.Ye.Pikus (F7T, 2, 756, 1960), and the results are compared with. the measureu values. The measured saturation currents were usually from 2 to 10 times lower than the calculated currents. This is ascribed to increase of the Inert gas ,concentration in the hot region between the electrodes as a result of thermal diffu- sion of the inert gas cesium mixture. Zenon reduced the saturation current less than did noon or krypton; this is ascribed to the fact that the atomic muss of xenon is closer than that of neon or krypton to the atomic mass of cesium. A formula is derivec ifor the thermal diffusion ratio, and with the aid of this formula and the assumption .that the observed deviations from the moyzhes-Pikus theory are due to thermal diffu- ,sion, values of the-Kr-Cs and Xe-Cs cross sections were calculated from the exp9ri- imental data. The Kr-Cs and Xe-Cs cross sections were thus found to be 8 x 10 and ;1.05 x 10-13 CM2. respectively. The authors thank S.I.Kutashev and V.I.Klinov for assistance in constructing the apparatus and performing the measurements. Orig. art. 1has: 11 formulas, 6 figures and 3 tables. [15) SUB CODE: 20 SUBM DATE: 23AugG5 ATD PRESS: 5081 Card 2/2 6U1,1Wt," ORIG. REF: 002 OTH REF: 004/  STAKHkMV, T., tekhnik, Geroy Sotsiallatichaskogo Truda; YPMtLXOV. P.: XMICK-MOV, N., brigadir stroitellnoy brigady; VITKNIIE. S., Geroy Sotsialistieheakogo Truda Let's use progressive practices of the All-Union Agricultural Exhibition. Selletrot. 9 no.6:3.4 S '54. (MIRA 13:2) 1. Kolkhoz Iment Krasnykh partisan, Yorkhne-Urallskogo,rayona,Chelyabin- skoy oblaoti (for Stakhanov). 2. Zaventitel' prodsedatelya kolkbosa Lenim, Susunskogo rayona, Novasibirokoy oblasti (for Yermakov). 3. Kolkhoz "Bollabsylk Lenlaskago rayons, Mookovskoy oblanti (for Monakhav). 4. Zaveduyushchaya swipayodcheakoy fermoy kolkhoza 'Geguzhes Pirmoyl," Pakruoyakago, rayona, Litavskoy SSR (for Vitkene). (Moscow--Farm buildIngs"-fthibitions)  USSR/Nuclear Physics - Hyperions and mesons Card 112 pub. .146 - 19/34 Author : Markov, M., and Stakhanov, V. Title : Possible beta-decay of hyperions and k-mesons Periodical : Zhur. eksp. i teor. fiz. 28, 74o, Jun 1955 FD-2354 Abstract : The writerg of the present note consider as an obvious established fact that Y-particles can enter the composition of complex nuclei on par with nucleons. Unknown, however, is how far the kinship of hyperions and nucleons extends (V. Stakhanov, Diploma work, Mos- cow State University, 1954), in every case there being certain grounds for considering the-10-particle as a nucleon situated in a certain excited state with uii the consequences from this notion N. Stakhanov, ibidem); e. g. such a nucleon coul.d be beta-active: 0 The purpose of the present note is to turn attention, to the fact that in this case thanks to the high upper bound of the energy of decay one can expect small lifetimes (tau sub-bet@." comparabld with the observed lifetimes of&-particles, i. e. sub-pi (A 0-47r-+P). The authors note that these ideas can be  ("'Ll'il :-1/;' FD-2351, appiied aiso to the case of Y,.-.jwsonL; (M. A. Markov, Dok. Akad. Nauk SSR, 101, 449, 1955) under certain conditions (zero spin, de- cay with emission of Fermi particles, etc.). Three references: e. g. W. Fry and M. Swami, Phys. Rev. 96, 1954. Lnstitution : Physical Institute im. Lebedev, Acad. Sci. USSR Submitted : Feb 9, 1955  VINOGRADOV., A.L., kand.teklin.nauk-, dotsent; @TAKHANUV, V.A.7 i-nzh. Electronic time relay with a voltage aultiplierin t4-- electrical s7eptem of an automatic skip hoist. 1w. vys. ucheb. .16av.; energ. 6 no.l+.-110-115 Ap 163. (EIRA 16:5) 1. Kommunarskiy gornometallurgicheskiy institut. Prdd6Uvlena elektromekhanicbeskoy sektsiyey nauchno-'Lekhnicheskoy konfarentsi-i. (Hoisting machinery) (Electric relays)  STAKHANOV, V. m., Ca4Med Sci -- (diss) "NonBpOeifie Inhibitors P&W-V W of Hemagglutination in Serums of 46*w and Animals and Their Sig- nificance for top Diagnosia of the Grippe." Mos, 1957. 14 pp. (Acad Med Sci USSR), 200 copies. (KL, 7-58, 113) - 56 -  Z-HUX, Ye.A.; 141ul"WICHI V.1,1,.; M-ULUGA, A.X.; STAKILMOV, Yu.P. Tes'linL,, the st,----pin-, press of the Glomor system for the manufacture of Deat se--ibl-La"Iets. Trud., torf. All 33SR 9:66-70 160. (@Mk 14:2) (Briquets (Fuel).) (Hydraulic presses)  st'j,.'. , -,. @-- . "Sur I-s -'J@: nicl-al," by @". '.. 3ala.-,din, .3. V. Zrofefev, K. e".. Pectarakaja 5@771' and "r'. 3. 3tach,,,riova. k-@ SO: Joiwaal of jonparal (-hur-nal Obshchei Kiii IY-*l, Vol 11, 'o. ' .j L, - - --) -  STAEHMIOVA, M. 3 - ncopposition and Mechanism of Foxmtion of the Hydrides of Nickel," 1943; "llechanism of oxqmtion of the Hydrides of Nickel," ibid., 18, No. 4, 1943; "A Study of the Dissociation of Strontianite at High Temeratures," Iz. Alc. Nauk SSSR, Otdel. Miim. Nauk-, Ho. 1, 1947.  00 A A 601 a III 1 - 09.3 1 @; 1; A. F. KapustiuM Ud 4d"v Chem. Tlechow. !i.: J"T, 11-17(1 V.NA'S., (IdIts ffj@jtk. 0, 0. A, 40. 40444. W C(.h *CO# wfoc no W Pawk, 41frokill td No And nAkt-11" the M of the beat W dhoma. 4111 two th4o"'b" ML from K - I /P) am the but awsew" 4 4 Drbye and Hinwin fuloetkoodl. Proved, Iliad @ftswactary, thodd, futictifts hapa WOPPI b temp. ratove. Tbw vahw wa wo do of The empillkal torto dopeadetsoce a for COo the formula cd telky sood Asd 39. M11), for sro. 10.49 + 0A Itle, SrCOI the fmmulac:r _Gnmoor and &b 24, 1801) far CaM. Tbnw M-athm re. Ar of the 4evehVeoseut of A4 9A 6 costIts Atot "ev*41,98, "lots V the P@@*"Qts give aw z fustraw, r a bo + SAW dwid. x&, Tw Iole MM *xptl. vothm of - 2. at 01). &W ow ON Jim. 9 11M)", are In 43.1 111,017.13.314 ni'1117.10,117, CIA, -AM 'ltw@nl tot "%I -juat". I a NO. aj W PAH9911041 611PIF 11141 "1 61*11611611, goo MILT co". ) was Ant nLk-d. from the entropLes, at MIX, 1*0 obtallaod with t1w &W c(the Debyr and Himirin flowfloom, goo . do" tbg givitte I - 34-341 antl htwv .111. (av.) - MOM to 0 U-66M avotragirli: the rnWts of the tort, lurtbcKk, It. I, (CX. load I - 33.20. With AF - - 5=1 + sAa X Ijar %0: i @ WS r - 2X, X 10-1 X 2- + (&kml I T, am A + Ruin au (CA AFv= - -433W cal. nwk and alin, - - 3dm ew./. %0 ovill ; n6de. In a6mmeat within um7p with the cawnwork 1411,11 WIL9111111 00 of 'drillsol. of K. and r1riticle"evs (C _c 40, 49"d). N@ Thm ::00 No 0 titgn&nft CLMWOrA?M 19 Iowa 111VIN111111'. 'Atio QRST cog k,@_et , - u u AV go AS vo, 0 0 a 00'0 AD a ikift@ 0 0 0,04 0 41 0 e 0 0,10 411 0 0 0 .0 0 0'.00 *-Ole 0  The bw d IN bW, Shm owbommor, A. K"w"w ad W&A .obblwo (MMW66" IVA. y A&W. NNA To dab do 000. PANW-d- Of DIM dw C-L *dt Thedim- an 3 thm obbiud wm ammod 4=2rat 21k M a" 430*. Fma d, r d@ dsft do bog 4.1 knodw id 9K by do ru.6- lko+cos-lwC%w@&Mm--3AbW. UsingOw &ad Romw for dw bmt d Immobw .=,C&@SME @d C6 dw bcol of formaxim G1 Dem fma wwmmts @ cakd. Pw Be + C as va*te) + Hmn - -M ". U. G. moorr  -P c@,rc,onates of Inv of D. 'Ic PC-3,jeelic n Cal Tnst :n n@ o 31 D 0 n C 11 1) '@ _, oo C,@jjc'jjdatei DC n d i enc Ps T, -Dect-:1I:er  /Themiochmilstry and alomic struct,.irv. Vill. T-, t@. study of the group It (alkalinri, e@,.rth) A, i,. Ic , 3VII-tinskil "'Ild M. Sp. SLIkIlawwa. U.S.S.R., Mv. !T _q.A_j_!'qj 8L  STAKIDZIOVA, Y. S. USSR/ Chemistry Physical chemistry Card 1/1 pub. 4o - 2/27 Authors I Kapustinskdly,, A, F,, and Stakhanova, M. so Title I Thermochemistrv and the structure of atoms. Part 7. Investigation of carbonates, elements of the second (basic) group of the Mendeleyev system Periodical t Izv. AN SSSR. OW, khim. nauk 4., 587 - 597, July - August 1954 Abstract : By sti-ldying the heats of solution of Mg and Ba in acid and thermal dissociation of Be and Sr-carbonates, the authors were able to determine the standard heats of formation as well as the heats and free'energies of thermal dissociation of Be, @%, Sr and Ba-carbonates. The applicabil- ity of the law of thermochemical logarithmic curve, for the study of carbonates of els@ments belonging to the second (basic) group of the D. I. Mandeleyev periodical syutem., was confirmed on the basis of the results obtained. Twenty-eight references: 17 USSR; 9 USA and 2 German (1900 - 1953). Tables; graph; diagrams; illustrations. lastitatioa The D. I- Mendeleyev Chemical Technological Institute., Moscow Submitted November 12, 1953  USSR/Thermodynamics. Thermochemistry. Equilibria.Physico- B-8 Chemical Analysis. Phase Transitions. Abs Jour - Ref Zhur - Khimiya, No 8, 1957, 26067 Author I A.F. Kapulinskiy, M.S. Stalthanova Inst t Ploscow Institute o-f-o-hemi-s-t-r-y--a-r-id-Technolo~y Title : Heat of Dissolution of Silts in Water and Rule of Thermoche- mical Logarithmic Curve. Dissolution Heat of Lithium Fluoride. Orig Pub Tr. Mosk. khim.-tekhnol. in-ta, 1956, vyp. 22, 21 - 29 Abstract The lines of calorimetric determination of dissolution heat (L) of LiF in water at 250 were drawn. The installation des- cribed earlier (Kapustinskiy A.F., Klokman V.R., Izw. AN SSSR. Ser. khirfi., 1943, No 4, 259) was used. The mean value of L was -1.18:t 0,02 kcal per mol, which confirmed the results of the determination of this mac-nitude carried out earlier in an indirect way (De Forcrand, Ann. chim. phys., 1911, 24, 256). The value of L of an infinitely diluted solution is -1-33 kcal Card 1/2  IUSSR/Thermodynamics. Thermochemistry. Equilibria. Physico- B- Chemical Analysis. Phase Transitions. Abs Jour : Ref Zhur - Khimiya, No 8, 1957, 26o67 Abstract : per mol. The applicability of the rule of thermochemical loga- rithmic curve (Kapustinskiy A.F., Izv. AN SSSR, Ser. khim., 1548, No 6, 568, 581) to the dissolution heats of allcaline halides was shown. The disagreement with this rule notimeable in the series LiI - LiBr - LiCl - LiF and revealed by LiF was stated and e3Tlained. It was shown that the rule of the thermoche- mical data of total heats of dissolution of ion pairs (cation - anion) of alkaline halides. The limits of the application of the rule were discussed. Card 2/2  USSR/Themodynamics. Thermochemistry. Equilibria. Physico- B-8 Analys-'s. Phase Transitions. Abs Jour Ref Zhur - Khimiya, No 8, 1957, 26o88 kuthor A.F. Kapustinskiyj N.M. Selivanova, M.S. Stakhanova. Inst Moscow Institute of Chemistry and Technology Title Thermochemical Properties of Lead Oxalate and Entropy of Oxa- late Ion in Aqueous Solutions. Orig Pub Tr. Mosk. khim.-tekbnol. in-ta, 1956, vyp. 22, 30 - 37 Abstract The solubility of PbC204 (I) in water at 250 was determ@ned by the polarog-raphic method; it proved to be B.W x 10- mol per lit., the solubility product LP 7.2 x: 10- . The heat of the precipitation reaction of I Pb(NO _aq + H 3)2 _ ,O,,-aq ,10. + PbCOq(cryst.) + 2NHO aq was measured cUorimetrically. The experiments were carried out'at 250; the cal6rimeter described earlier (RZhKhim, 1956'-46308) was used. The fol- lowing was computed using the encyetimental data and the va- lues of auxiliary magnitudes from the bibliograpby:A H298 Card 1/2 Card 2/2  U T H, 02 S J -tinz!: Stal:hnnova K: 7u iy A. F. _ _ , , , TITLE: Sup-_rsaturated Solutions and Their SpeCjf4C Heat (Parosyshchennyye rastvory i ikh teployemkost') PERIODTCII,T@: Izvesti-ya vysshil:h uc;-ie1bnykh zavederi.y. Khiziiya kfii-.Aches- te!-@hnoloL@-Lya, 1105S, 11Tr 3, PP 7 - 14 (USSR) A D ST @1' C T Althou 'A, the colutions under reviev, were repeatedly investlz:,ated (Refs 1-13), their heat capacity has never been determined. This probler. is, however, interestinJ as to the clarificetion of the formation m e ch, -ch systems -as well as of the minute- %nism of s'.. scale operation of their trarsItion in'to the stz,_ble state. T',7e--,-e are e,.ren no attempts to be found in publications to fill t'lat r@ap. In the present papper C' e s heat of the syzte:-:ls the -.an--e of th pec if c -F 0 in a 0 C00211a-H S 0 and 11a C'T1 _H 0 Cu(NO ) 1 2 2 2 2 2 2 3 3 3 concentr,ation rn.-@@e of from a otate near saturation up to considerably supersaturated solutions, as well, Card 1/4 as p7-rtial molal quantities are investigated. The  2 SE)IU, Lon@ ;u@d T 3; S ov / I -a a-;e , its sialected be-Ion- @-o "nose t'-t a- -_ to oversatur-tod sol-ution@ with a 1:=0 inrhu,-tion poriod. in t'-..e crystallizat ion of t*'acso s@@lts out of su,-,ersaturaLcd rolitions the :),ase is relatively -low,d oo@par.ted. Stirrin and tlo rate oi.- cooli-* d o no 11 ex-erc i se con.-, i Ier- ble influe:lce u,,;on t@-e Value of t`-.- mc-tasta':@Jle limIt. T_@'@Ics 1-3 Pre@;ont t"..2 reoults. T'Oe -@p-jare-_-.t raolni specific heat Fit c,-,,.lculated by equatlor (I) (Ref 18) . The do enderce of on VT, in the Oolutionc mentioned act 2@_-O is oceii in figures 1-3. 04-1 t'.Ie basis of t-,:? res@@-Its obt-,-.ined t-e @2ut'iors come to t@-_e followinj conclu@.-io:-z;: 1) A prccedi_-,I@ su,,er- o-f the solutions is Dossible onlly up to a certair. limit. Beyond it-, the ouperSaturated solutions can-not be proclhueed any lon@;er by the --thod -s confJ-ed t'-,,--t the influence in quection. It exerted by stirri-i; upon tl,@- in,"liction periods of tle s-.-st em. i -, the 1 3 ss t*,, e "M -- -r the cuDersat,.irat i-o,.-. is (Fiju2ovskiy and Komarova) 2) T.-..C- ao--2re@l L-:Decifi r-- 2/ 4 heat of the above mcntio-cd cl-Its  Supersaturated Solutions and Their Specific Heat SOV/153-5a-3-2/30 for various concentrations. In solutions near saturation it. is expressed by a usual linear dependence of @s onf-m (]@ increases with the concentration of the solution). The apparent sDecific heats remain constant in.,gupersaturated solutions. It is therefore assumed that the structure of hydrated ions in a metastable state is unvariable. 3) In supersaturated systems the apparent specific heat of the salt is equal to its partial molal quantities. The specific heat of the water in the solution is equal to that of pure water. It was assumed that in the homogeneous phase the hydrated ionic forms pass, at a homogeneous point-corresponding to the sa-tur-ation, to a state that corresponds to the equilibrium with the solid phase; furthermore it was assumed that the supersatur-stion mechanism does strictly speaking, not differ from the I? supercoolinj mechanism of the liquid. There are 3 figures, 4 tables, and 18 references, 17 of which Card '1/4 are Soviet.  Su, 1, (., n; a t u @--. tu e .-I Sa I u t I o n s an d T h e 1. r S p e c i fi c H ea tSOV/1 :-)3-rj8-3-2/'2o ASSOCIATION: Mosl-ovskiy khimiko-tekhnolo-icheskiy institut imeni D.I. u 1 6 Me:-,deleyeva (moscow Institute of Chemical TachnoloGy imeni D.I.Mendeleyev) Kafedra obshchey i neorganicheskoy khimii (Chair of General and Inor.-anic Chemistry) SUBMITTED: October 9, 1957 C ar d 4 A  STAKHANOVA, M.S.; VASILEY. Y.A. Study of the additivity of heat capacities in mixtures of potassium and sodium chloride solutions. Part 1. Izv. vys. ucheb. zav; khim. i khim. tekh. 3 no. 5:829-833 160. (MIRA 13:12) 1. Moskovskly khimiko-tokhnologicheskiy Institut imeni D.I. Hendeleyeva. Irafedra, obahchey i neorganicheskoy khinii. (Potassium chloride) (Sodium chloride) (Heat capacity)  KAYUSTINSKIY, A.F.;_VAKHMOVA, M.S.; VASILIYEV, 11-A, Densities and heat capacities of mixed aqueous solutiorA d lithium and potassium chlorides at 25@* C. Izv. AN SSSR.Otd. khiz. mauk no.12: 2082-2089 D 16o. (MIRA 13:12) 1. ]Chimiko-tekhnologicheakiy institut im.D.I.Mendeleyeva. (Lithium chloride) (Potassium chloride) (Heat capacity)  and r.I. tzlr6y 4@' 7--;,,-. @f MIDDICALI Zhmr- p;` , 5 Th. ..%hax. th. -:,,n@ bi O..a4 water (rid. 1). n@ %aken %- the ..nvt- I I Qr to of 1:-,. 177. h-40 :@hlo I Car4 1/3 4Z.1 -4. . ...... the "ift. h-" of 1'-@ 4-p-.4"'t -L 7y I.&A -x&I*t. .4. -.he st,.=Jt!3 .: U@- AJ at YOC 204 L. -%.r Cal 25 0 --I@.Z3 f .2"04 2. -%Or - -9.17 k041-1.1 fr.* .=*@Zr :,I L.At of f@'ts. f i , --204 V, trca the ..A@ standard - ISCOI .1. - . "6.24 k..I/-I*, 21 ..z.1daring 140 h-% 1-d 1.1%4 fra., 1, "to'e, %h. of Le. An .41.r -% fco.el 1. be 3 " 15 t 2 ... I. T. V- -.7., n4 1. 1 *xi-taky%. .. -11 .4 0. T.- 3-0110, are ..otj*--,I I. -,te tw. Tmr. @ 2 Cig= a. 2 tabl.m. " 13 -fer--i T S-I. 3 A=-e-can. f pre ..b, "d I 2/3 L330CIATICY[c 0,111ko- 9 Xb..2. rich. okIZ IntsItat in. D. 1. .1, (Xn.111,ste of Ch..Icl To.hcol.gy L.-A @. 1. so .... ). J..Istvt I*. T. 1. Lend- @-'Uve (Polytechnic t T. 1. Lenin. L.r,ko,)/ JM=IMDI Ju2'r 27. 1958 car*  DRAKIN, S.I.; UJDRYAVTSXV, LA.; SKbIVANOVA, H.M.;,_STAKRANOVA. M.S. I Anatolii Fedoravich Upustinakii; obituary. Zhur. fis. khim. 34 no.34 no.12:2848-285d;zD 160, (KM 14:1) (Ka,pustinakii, Anatolii Pedorovich, 1906-1960)  STAKRANOVA, M.S.; VASILEV, V.A. Activity of water in salt solutions and its deviation from additivity. Zhur.neorg.khim. 6 no-5:1240-1242 ,V 161. (KUU 14:4) 1. Moskovskiy khimiko-tekhnologicheskiy institut imeni D.I. Mendele_ya.va, kafedra obshchey i neorganicheskoy khimii. (Activity coefficients) (Salts) (Water)  STAIUIANqVA,,.LI,-S_.-_VASI LEV, V.A. Activity of water in three-component solutions of alkali metal chlorides. Zhur.fiz.khim. 35 no.8:1839-28/*5 A 161. fZk 14:8) 1. Moskovskiy khimiko-tekhnologicheskiy institut imeni D.I. Mendeleyeva. (Alkali metal chlorides) (Water) (Activity coefficients)  KUDRYAVTSEV, A.A.; SELIVANOVA, N.M.; DRAKIN, S.I., dots.; MAYYER, A.I.; SAMPLAVSKAYA, K.K.; SOLOXHIN, V.A.; SUKHANOVA,_ I M.S.; BUNDELI, A.A., prof., retaeusent; hT9Pff'RN_i9- M.Kh., 0 @@r khim. nauk, prof., red.; MELIXTKOVA, T.I., red. (Laboratory work in-general and inorganic chanistry] Prakti- kum po obshchei i neorganicheakoi khimii. (By] A.A.Kudriavtsev i dr. Moskva, Mosk. khimiko-tekhnol. in-t im. D.I.Mendeleeva. Pt.2. [Work in the chemistry of elements] Raboty po khimii ele- mentov. 1963. 122 p. (MIRA 16:10) (Chemistry--Laboratory manuals) (Chemical elements)  SIAKHANOVA, I.I.S.; jVA6ILBT, V.A.; YEPIKHIN, Yu.A. Activity coefficients of alkali metal chlorides in mixed aqueo4p solutions. Zhur.fiz.khim. 37 no.2:354-360 F 163. (KUta 16:5) 1. Khimiko-tekhnologicheskiy institut imeni D.L*ndeleyeva. (Alkali metal chlorides) (Electrolyte solutions) (Activity coefficients)  L 17714=0 EPR/hE'FPF(c)AWP(q)AWT (m) /BDS AFFTCASD Ps-',/Pr-,4/Pi-4 RMAIWI.TDIJW ACCESSION 14R.- -AP300"4'0*6-6------- S/0076/63/037/007/1568/1574 AUTHORS$ Stakhanova, 11. S.; Vasilev, V. A. (Yioscow) ITITiEl Volume and heat capacity changes in aqueous salt sol-aticna. It The !',systems CsCl-LiCl-H sub 2 0 and CsCl-ITACI-H sub 2 0 f r fv@ (v SCURCE 41 Al fizXLeskoy khimii, 7 hurn v- 37, no P 1963P 1568-1574 ITOPIC TAGS: aqueous salt solution, CsCl, LiCl, PaCl, H sub 2 0j, water 1ABSTRACT; Authors studied the heat cal3acity and volumetric characteristics of !the systems CsCl-LiCl-H20 and CsCl-NaCl-H20- Authors wanted to clear up the linterrelationship between these properties and to determine whether the law 0'r additivity wpplies to a composite solutionv 'Authors were also interested in iverifying, on the basis of new experimental material, if certain classical relation-,-, -Iships known for binary solutions could be applied to ternary mixtures. Pycno- metric method was used to determine the density. Adiabatic calorimetry was used Ifor determinatioi of specific heat capacity. Methodology were described by authorsi, in an earlier paper (Izv. AIN, SSSR. Otd. khim. nauk, no. 12, 1960j 2082). Concentration ratge was 0-5 to 5 moleeo Heat capacities were determined with an ia'jccurawj of + or - 0.05@ Accuracy of pycnometrio density measurement was + or !0.001@o. Authors*also present data on the heat capacities of solutions of lithium,  L 17714--63 1 CESSION URs 1C A?3004066 !,eo(lium, and cesium chlorides alone, Deviations of.:both propertiesf@om the additi- ivil;y have been observe& for all systems. Correlations which were found were Itreated in term3:of ion effect on solvent structure. Approximately linear equa- @tions have been found to correlate heat capacity with volume. These equations 'De:@ndt the calc lation of the difficult-to-measure heat capacity (G35) from a 'known volume (T) with an accuracy of Ool-Osejo, "We wish to express our thanks ;to Proeezoor M. !Kh. Karapetyants for his attention: to this. work*" Orig. art. has% -Y-oriulas. @5 figures, 3 tables, and 7 AS, IATION. M Mc oskovskiy khimiko-tekhnologicheakiy institut im. D. 1. Mendeleyeve. Moscow 0 - chemical engineering institute). 'SMI.IaTTRDs 180ct62 DATE ACqj 15AU963 MICLt 00 1SMI CCDEt P -H, CH NO FM SOVI 003 CTHMS 012 [Ca;-d 2 /2'  STAKIUkNOVA, M.S.; YEPIKHRI, Yu.A.; KARAPETIYANTS, M,Kh. Volume and heat capacity changes in aqueous salt solutions. Part 2. Zhur. fiz. khim. 37 no.11:2570-2573 Nf63. (MIRA 17:2) 1. Moskovskly khimiko-teklinologicheskiy institut imeni D.I. Mendeleyeva.  YEEIKIIIII, Ya.A.; Sal@IaL'-NOVA, KL-LAPETtYA!!TS, M.n. (Moscow) Changes in volwao and heat capacities in aqueous salt aolutions. Part 3. Zhur. fiz. khim. 30" no-3:692-696 Mr 164. (MIRA 17:7) 1. Moskovskiy khiT.-dko-tekhnologicheskiy institut imeni D.I. Mendeleyeva.  DRAKIN, Sargey lvanovi---h, FUDRYAVTSEV, Aleksandr Andreyevich; SELIVANOVA, Nadezhda Mikhaylovua; MAYYER, Antonina Ivanovna3 SAMPLAVSKAYA, Kira Karlrvna,, SOLOKHIN, Viktor Alekseyevich; g44MPYA,jiariya Sergeyevna; ALAVERDOV, Ya.G,, red.; FEDOROVA, t.p.!,-,@red.; KARAPEVYANTS, M.Kh.,red. (Laboratory work in general and inorganic chemistry] Fraktikum po obshchei i neorganicheskoi khimii. Moskvas V-Ysshaia shkola2 1964. 268 p. NIU 18:4)  ,AVO,"! i@@.NGU (Mosk va V YEV , V.P. mo@-v a T,:1 1 117 Y1,; Poskv a) Coml,arative study of the heat capacities and densities of aqueous electrolyte solutions. Zhur. fIz. khirr. 38 no.10.2420-2429 0 164. (1,11RA 18:2) 1. Moskovskiy khim--'Iko-tekhno1.ogicheskiy inslAtut imeni D.J. Mlende- !Fjyeva,  I @11.; STAKH.".NOVA, M.S.; KAPAPEVYANIFS, M.Kh.; VLA61'141KO; K,K, 1eats of dissolution o@ sodium. and potassiiLm ch-'@ride mixtures In aqu-@- solutions. Zhur. fiz. khim. 19 no.5:1245-1-"!,68 IW 165. us 0 (MIRA, 18:8), 1. Moskovskiy ordena Lenina khImiko-tekhnicheskiy 1ns'Ui'-,ut im. D.I. Mendeleyeva.  ACC NR' ARG033763 SOURCE CODE: UR/0058/66/000/007/AO12/AO12 AUTHOR: Bazlova, I. Gadzhiyev, S. _N.; Karapetlyants, -Y' M. Eh. TITLE: Procedure of measuring small heat effects with the use of a thermistor SOURCE: Ref. zh. Fizika, Abs. 7AI12 REF SOURCE: Tr. Mosk. khim. -tekhnol. - in-ta im., --D. L. Mendeleyeva, VyP, 49, 1965, 32-34 TOPIC TAGS*: heat effect, thermistor, measurement, aqueous solution, lithium chloride, sodium chloride/KMT-1 thermistor ABSTRACT: A brief summary describing the experimental use of the KMT-1 type thermistor in calorimetry is given. The sensitivity of the circuit used by the authors amounted to 0. 0003C. The heats of mixing have been measured for aqueous solutions of lithium and sodium chlorides. [Translation of abstract) SUB CODE: 20 :Ord  -6 IL L7 im Ukajv 1402. UNSPECIFIC INHIBITORS OF INFLUENZA VIRUS HAMMAGGLUTINATION IN SERA OF PATIENTS WITH FEVER (Russian text) - Sta.k.h.ano,.-A. - VOPR. VIRUS. 1957, 6 (367-371) Graphs 3 In turpent i ne- induced inflammation an increase of 0-haemagglutinin inhibitors was noted in the first few days; the quantity of a-inhibitors increased later. In- vestigation of paired sera of patients with febrile Illnesses other than influenza revealed an increased content of Inhibitors in acute phase sera in comparison with convalescent sera. t  GORBUNOVA, A..S.; STAKWOVA, V.M.; =HKINA, A.N.; OLLI, V.D. Comparative effectiveness of the carbon dioxide, Vibrio comma filtrate, and potassium periodate methods of serum treatment in the elimination of nonspecific influenza virus A2 hemagglutination inhibitors. Vop. virus. 4 no.6:750-753 X-D 159. (MIRA 13--3) 0 1. Institut virusologil Imeni D.I. Ivanovskogo AMN SSSR, Mosk7a, i Gosudarstvennyy nauchno-issledovatellskiy institnt mikrobiologii I opidemiologii Yugo-Vogtolm SSSR. Saratov. (IMMUNE SZRUHS) (INFLURNZA VIRUSES immanol.) (HWAGGLUTIMATION)  GCF"OVA, A.S.; LOZHKINA, A.N.;,STAMNOVA, V.N.; ISACHEWO, V.A. Itiology of the Influenza outbreak of 1959. Test. AM9 SUR 14 no.10:19-23 159. (KIRA 13:6) 1. Institut virasologii imeni D.1 Ivanovskogo AM SSSR. (nDWMA5  ZHDANOV,V.M.-. STAKHANOVA,V.M. A st-ady of human sera for antihaemagglutinins to influenza- like animal viruses. Acta virol. 4 no-3:187-188 MY 160. 1. Ivanovskj Institute of Virology, U.S.S.R. Academy of Medical Sc iences,Moscow. (INFIBENZL VIZJSAS. immunology)  STAMNOVA. Y.M Antigenic pattern of type B Influenza virus strains isolated in 1959. Acta virol.Engi.Ed.Praha 4 no.4:246-249 J1160. 1. Ivanovsky Institute of Virology, U.S.S.R. AcadeaW of Medical* Spiences, Moscow. (INPWUZA VIRUSS immunol)  RABKINAY S.A.; TSAIJZITER, G.M.; Outbreak of influe'nza in January and Februa-ry 1959 in Chelyabinsk. Vop. virus. 5 no. 1:44-49 Ja-F 160. (HERA 14.2) 1. Chelyabinakaya gorodskaya sanitarno-epidemiologicheskaya stantsiya i Institut virusologii imeni D.I. Ivanovskogo A14N SSSR, Moskva. (CHELYABINSK-INFLUEIIZA)  STAYMANOVA V I Respiratory viruses in horses,, swine, and ducks and tkeir relation to human influenza virus. Vop.virus. 6 no.5:568-572 S-0 160. (KIRA 14:7) 1. Institut virusologii imeni D.I.Ivanovskogo AMN SSSRt Moskva. (INFLUENZA)  STAKHANOVA, V.M. "A comparative study of human and animal influenza viruses." Report submitted for the lst Intl. Congress on Respiratory Diseases of Virus and Rickettsial (h-gin. Prague, Ctech. 23-27 may 1961.  ZHDANOV, V.M.; STAKHANOVA, V. Early appearance of thermolabile antibodies. Vop.virus. 7 no.3: 321-324 My-Je 161. (KM 14:7) 1. Institut virasologii imeni D.I.Ivanovskogo AM SSSR.. Moskva. (INFLUENZA) (ANTIGENS AND ANTIBODIES)  Zi-ANTI-YEVA, Ye-M.; STAKJIAi\,'OVA, V.11@1,, ZHD@NOIV. --nto P32 and labeled '-:a" r ':!0*:Fc"L Licn infected Iry ipembrare cf chickan embryr,-g (MIRA no.4-.,233-237 M-r-Ap 161+. i,, Institut v--rusO"Ogii imeni Ivariovskcgo A.@114 SSSR, Mos@nra.  G. A. 'AKWOVA V M., kand. med. nauk SKMOVAP kand. sailskokboz. nauk;I S.1. Biological properties of the influenza virus of andmaldi Veterinariia 41 no,4:7-12 Ap 164. (MIKA- 11. 8) 1. Moskovskiy ordena Trudovogo Krasnogo 2;nameni institut na odnogo khozyaystva imeni G.V. Plekhanova (for Smirnova). 2. Institut virusologii imeni D.I. Ivanovskogo AMN SSSR (for Stakhanov4-  KLISEI@KC, 6,. f'- -M-1-11 , ".", V M 3, 1 @ @x -., , 1 @ i Q V " ,, - @@. 14 . .; 2 @ I i :dy' TI PY E V f' @ , 'Y e. . % I . ; E, *1 i () ' I 'i 1 41 R .11 .. ". "T@,.e study of virus-cell interaction by electron autoradiography." report submitted to 3rd European Regional Conf, Electron Microscopy, Prague, 26 Aug-3 Sep 64.  KL I SEIKO G@ A STAXHp.N()Vll ZHANT I YXVA U.N. Z I IDANOV, V.M. Ele--.-tron autoi-adlog7vaphy 0.1 tissue cultare --.ells I-rifected ne ciass i-al ru, with tl fuwl plague v s. Volp. v- is 9 no.." 1-51-@'155 Jl-Alc t6L 1. Lmerui D-@I. Aml -BO'SP, Moskva.  - .@l ST AH " NIOVA , V @ 1 4 @ ) Z I i @@' !N:p "a*"' "A' I @'=- -uer-,,,a ,i,uses with radloisotoPes. Mr-ady 'S'Ll b 11, Labeling in'l -- I I I i 1 1 121 1 i-4. @ Labeling specific antLbc;dip-s with, radtolsottlopes. lbid.3122-12.4 (NIRA if:5  31MVdIA1,11"", %, , S.-' .; , ye.- @ 'I .,Ii.1- -.I.I @ I I . - Genebic re-cimbinations between relaced infblenza viruses. Biul. eksp. blol. i med. 58 nD.8:94-97 4-a 164. 18:3) 1. Institut virtisologh imeni D.I. Ivanovskogo AM&I SSSR, Moskva. Submitted July 28, 1963.  Z H D A N OV,  1,11HOANOV9 V.M.-, STAKIIANOVA, V.M.; YERSHOV, F.I. Polyeltstronic organization of viral RINA. Vop. virus. 9 no.5t564-569 S-0 164. (ERA l8s6) 1. lnstlitut virusologii Imeni Ivanovekogo AMN SSSR, Moskva.  STAKHANOVA, V.M.; Z11DANOV, Y.M. Study of the condition of Influenza vir-us recomb-ftatlor. Genetlka no.5:44-52 N 165. : (RIPA 19:1) 1. Institut virusologil imeni D.I. Ivanovskogo AWN SSSR, Moskva. Sulmitted @@y 26, 3.965.  ZIHDAITOV, V@1-1@.; STAKHANOIR, VJI. Genetic recombination of influenza v-Lruses. Genetlkca no. 0a 47-55 D 165 Nll@ 19.11) 1. Institut virusologil Amtmi Ivanovskogo A1,24 SSIR, Moskva.  "Oral 'u.-dLties of oi. Ill-L StIldonts of Ull'-I IFIXth, ":)0- 1 Irkutsk State 1.1 bnon.i. A. ".. '@Iidanov, jrkutsk, Yll (Diss,jrtatlon for De,:;ree of Co-mclidate Ln Pedagog---hcal Sciences.) SO: *Knl@zhna,@-a Leto'Pis', ','o. 2@-;, ?Ioscow, jun 55, r@P P-7-1041  VETROV. Yu.A.,kand.telchn.nauk; DIOITIS'YEV, A.I.,inzh.; STAKHEVICH, Ye.B.,red.; AOREYEV. G.,tekhn.red. [Resistance of rock to cutting] Soprotivlenie gornykh porod rezaniiu. Moskva, @GLZTMIZUT- 1951-113 IL (rharkov. VSeSoiuznYi nanchno-issledovatel'skii ugollnyi institut. Nauchnye raboty) (MIRk 12:1) (Rocks--Testing) (Bxcavating machinery) (Xining machinery)  YEGURNOV, G.P., kandidat tokchnichaskikh nauk; VTOU v- 13-, redak-tor; CRLOV, Te.I., redaktor; ALADOVA. Ye.I., takhnichaski3r redaktor; FROUROVSKATA, V.L., takhnicheekly redaktor [Open pit mining) Otkrytye gorzWe raboty. 2-e izd., perer. Moskva, Ugletakhizdat, 1954. 5?4 P. (MM 8:4) (Coal mines and mining)  STAKII&VICH, Ye.B., gornyy inzhener; TRAKHKAH, A.I., gornyy inzhener. Performance of ESh-10/75 excavators in open pit mines of the "Vakhrushevugoll"trust. Makh.trad.rab.8 no.1:14-16 Ja-F '54. (MIR& 7:2) (Excavating machinery) (Coal mines and mining)  ,,!', ye, B.- and ',' @-` ' I I ' ' V ,'I . -IT jjj!Ljj ! - j fIL, , : . ,t r . "The Boi@oslovskiy Delosit", Ugoll, No. 12, 1950. SO: W-17658, 3 Apr 1951  VETROV, Yu.A., kand.tekhn.nauk; DIONISOYF.V, A.I., inzh.; STAKENVICH. Ye.B.. red.; ANMIU, G.. tekhn.red. [Transactions of the All-Union Coal Scientific Research Institute; resistance of rocks to cutting] Trudy VseBoiuznogo nouchno- issledovatel'skogo ugollnogo instituta nVUGI"; soprotivlenie gornykh porod rezaniiu. Moskva, U,-,letekhizdat, 1951. 113 pe (MIRA 14:1) (Rock)  TR,&EIKAN, A.I.. gornyy inzhener, STAKH&VIGH. Ya.B., gornyy inzhener. Ways of increasing labor productivity and lowering the production cost of coal in open-pit mines. Ugoll 29 no.6:22-25 Je '54. (MM 7:6) (Coal mines and mining)  DIDKOVSKIY. Dmitriy, Zakharovich, inzhener; NIKONOV, German Pavlovich. inzhe- nor; STA)MVICH Yokaterina Borisovna, inzhener; SOKOLOVSKIY, Mikhail Mironovich, Inten r; TRALIMN. Aleksandr Ivanovich. iazhener; NAZAROV. P.P., otvetetvannyy redaktor; OXEMIMRSKO, V.A., redaktor izdatelletva; AIADOYA, Ye.I.. tekhnicheskiy redaktor [Kanual for the skilled worker in open-cut coal mines] Spravochalk gornogo mastera. ugollnykh karlerov. Izd. 2-oo, ispr. i perer. Moskva, Ugletekhizdat. 1956. 372 p. (HIJU 9:11) (Coal mines and mining)  TRAKF4AN, A.I., inzhener; STAKHEVICII . ,'R .--inzbensr, '7404 - @rw wd,iii-A'M @ -W�RMIM Resources for reducing time-consuming operations in coal minme. NfAkh. trud. rab. 10 no.8;16-19 Ag '56. (KLRA 9:10) (Coal mining machinery)  STAKU. @ VINITSKIY, K.Ye.; t . Y @.@ e.; YAHSHCHIKOV, S.M. - - V. ,,, Coal mining in the German Democratic Republic. Ugol' 31 no.6; 3a-42 Je 156. (MM 9..8) (Germany. last--Coal mines and mining) I--  ALATORTSEY, S.A., T)rof., doktor teldm.nauk; AlTlaM7EV, A.V., kand.tekhn. nauk; ANCH@JHOV, I.L., inzh.; BALIN-90Y, S.I., inzh.; BELOUSOV, V.G., lnzh.; VINNITSKIY, K.Ye., kand.telchn.nauk; VLASOV, Y.M., inzh.; VORONTSOY, N.P., kand.teldin.nauk; GIP*W1, M.K., inzh.; GLUZMAN, I.S.. kand.takhn.nauk; GURIM, S.V., Imnd.tekhn.nauk (deceased]; DEMIN, A.M.. kand.tekhn.nauk; YEGURN(W, G.P.. kand. tekhn.nauk; YHFIMOV, I.P.. inzh.; ZHUKOV, L.I., kand.tekhn. nauk; ZELITWM. H.M., inzh.; KOO.ACHEV, M.N., kand.tekhn.nauk; KOTOV, A.F., inzh.; KTJDINOV, G.P.. inzh.; LAPOVENKO, N.A., kand. tekhn.nauk; MAZUROK, S.F., inzh.; RMINIKOV, N.V.-. MUDRIK, N.G., inzh.; NIKONOV, G.P., Imnd.tekhn.nauk; ORLOV, Ye.l., inzh.; POTAPOV. M.G., kand.tekhn.nauk; PRISMSKIY, G.V., inzh.; RZHE-VSKIY. V.Y., prof., doktor."-ekhn.nauk; RYAKHIN, V..A., kand. tekhn.nauk; SIHKIN, B.A.. kand.tekhn.nauk; SITHIKOY, I.Ye., inzh.; SOROKIN, V.I., inzh.; STISYUK, V.N., kand.tekhn.nauk;,W ICH, Ta-B, inzh.; SUSHCHENKO, A.A., inzh.; TYUTIN, I.F., inzh.-, TYMOVSKIY, L.G., inzh.; FISEWCO, G.L., kand.tekhn.nauk; PURRANOT. B.M., inzh.; SHATAM, M.G., inzh.; SHESMO, Ye.F., prof., doktor tekhn.nauk; TMIPIGOREFT, A.M., glavnyy red. [deceaBadl,- (Continued on next card)  ALATORTSEV, S.A.--(continued) Card 2. KIT, I.K., zanestitell glavnogo red.; SHES!HKO, Ye.F.. zomestitel' otv.red.; BUGOSLAVSKIY, Yu.K., red.; BY1MOVSKAYA, S.H.. red.; DIONISIYEV, A.I., lmnd.tekhn.nauk, red.; KOZIN, Yu.V.. red.; SOKOLOVSKIY, M.M., red.; YASTREBOV, A.I., red.; DRMIDYTJK, G.P.. kand.tekhn.naulc, red.; KRIVSKIT, M.N., kand.tekhn.nauk, red.; LTUBIMOV, B.N., inzh., red.; MOLOKANOV, P.L., inzh., red.; REISH. A.K., inzh., red.; RODIONOV, L.Ye., kand.teldin.nauk-, red.; SGA- VUTSKIY, S.O., inzh., red.; TRAM4AN, A.I., inzh., red.; TRYMCV- SOY, L.G.. inzll.. red.; VIDELEV, A.S., doktor takhn.naiik, red.; hILUKHOY, A.N., kand.teldin.nzauk, red.; TM-12LUM'YAN, T.G., red. izd-va; FROZOIROVM[AYA, V.L.. teldui.red.; KONIRATIYETA. M.A.. telr-hn.red. (Continued on next card)  ALATORTSEY, S.A.---(continued) Card 3. [Mining; an encyclopedic dictionary] Gornoe delo; entsildo- pedicheakii spravochnik. Glav.red.A.M.Terpigorev. Chleny glav. red.A.I.Baranov i dr. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po gornomu delu. Vol.10. [Minin'-, coal deposits by the open-cut method] Razrabotka ugolInykh mestorozhdenii otkrytym. nposobom. Redkollegiia toma: H.V.Mellnikov i dr. 1960. 625 p. (MIRA 13:2) 1. Chlen-korres-oondent AN SSSR (for Melinikov). (Coal mines and mining) (Strip mining)  MELINIKOV. N.V.; VINITSKIY. K.Yu., kand.tekhn.nauk; STA ij.j KM inzl,. -- --- - - -W Possibilities for using heavy-duty walking dragline excavators. MekhA avtom.proizv. 14 no.lo:46-48 o 1606- (KIRA 13:10) 1. Ghlen-korrespondent Akademii nauk SSSR (for Meltnikov). (31xeavating machinery)  MELINIKOV, N.V.;. TINITSKIY, K.Ye., starshiy nauchnyy sotrudnik;_STAIUMICH, Ye.B., starshiy nauchnyy sotrudnik Xffectiveness of using the new power4ul walker draglines in strip mining. Ugol' 35 no.6:50-53 Je 60. (MIRA 13:7) 1. Institut gornogo dela AN SSSR. 2. Ohlen- korrespondent AN SSSR (for Mellnikov). (lb@cavating machinery) (Strip mining)  RZHEVSKIY, V.V., prof.,dokt.tekhn,,nai@k; BUYANOV,Yu.D.$ kand.tekbn.nabk; VASIL'YEV, Ye.l., kand.tekhn.nauk; DEVIN, A.M., kand.tekhn.nauk; KULESHOV, N.A., kand.tekhn.nauk; MEWSHOV, B.G., kand.tekhn.naulc; NEVSKIY, V.N.., kand.tekbn.nauk,- POTAPOV, M.G.,, kand.tekhnnauk; RODIOVOV, L.Ye., kand.tekbn.nauk,- SIM&ULN) @.A.q kand.tekhn.nauk,- SUKUNOVA) Ye.M.,, kand.tekhn.nauk; YUMATOV, B.P., kOnd.tekhn.nauk,, KHOKHRYAKOVI V.S., kand.tekbn.nauk; ALEKSP14DROV, N.N., gornyy inzh.; k-USTOV, I.I., inzh.; BUGOSLAVSKIY, Yu.K., gorrqy inzh.; DIDKOVSKIY, D.Z., inzh.; ONOTSKIY, I-I.L., inzh..,-.qT AEll@YI(LH,je.B., inzb.; GEYMAN, L.M.., red.izd-va; MAKMOVA, V.V.., tekhn, red.; KONDRATIMA, M.A., tekhn. red. [Handbook for the strip-mine foreman] Spravochnik gormgm-mstera karlera. Pod red. V.V.Rzhevskogo. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po gornomu delu, 1961. 572 p. (MIRA ll+*.,I?) (S+;ri-p mining) @ I  MELINIKOV, Nikolay Vasillyevich; STAKHEVICH Ye.B., otv. red.; TER-IM"LIYAN, T.G., @-ecl-.-l-zT--va,- PROZOROVSWA, VoLe., tekhn, red. - (Open-pit mining handbook for the engineer and tecimician] Spravochnik luzlenera i tekhnika, po, otkrytym gorr*z rabotam. Izd.4., perer. i dop. Moskva, Gos. nauchno-tekhn. izd-vo lit-ry po, gornonu delu, 1961. 799 p. (MLU 15:3) 1. Chlen-korrespondent Akademii nauk SSSR (for Mellnikov). (Strip mining)  14ELINIKOV, Nikolay Vasillyevich, akademik; SIMKIN, Boris Aleksandrovich, kand. tekhn. nauk; DEMIDYUK, Grigofty Prokoplyevich, kand. tekhn. nauk; VINITSKIY, Konstantin Yefimovich., kand. tekhn. nauk; UAMUGH,_Ye_Mter@ina Borisovna, inzh.; KRASNIKOV, Aleksey Sergeyevich, kand. tekhn. nauk; CHERNEGOV, Yuriy Aleksandrovich, inzh.; POTAPOV, Mikhail Gennad'yevich, kand. tekhn. nauk; CHESNOKOV, Mitrofan Mitrofanovich., kand. tekhn. nauk; NURMUKHAMEDOVA, V.F., red. izd-va; SHKLYAR, S.Ya., tekhn. red. (Foreign technique of open-pit mining]Tekhnika otkrytykh gorn.Vkh rabot za rubezhom. Moskva, Gosgortekbizdat., 1962. 379 p. (MIRA 16:1) (Strip mining)  POTAPOV, Mikhail Gennadiyevich, kand. tekhn. nauk; STAKHEVICH je..B., se-h @: ", inzh., retsenzent; KRASAVIN, V.A., inzh., ret zent; BTKHOVSKAYA, S.N.J. red.izd-va; MAKSPOVA, V.V., tekhn. red. (Open-pit mine haulage] Karlernyi transport. Izd.2., perer. i dop. Yoskva, Gosgortekhizdat, 1963. 296 p. (MIRA 16:10) (Mine haulage) (Strip mining--Equipment and supplies)  STAMVICH, Ye.B., gornyy lnzh. A-11-Unlon scientific and tech-nical conference on improving the equipment and technology of mining minerals by the open cut method. Ugoll 39 no.11%73-75 N 164. (MIRA 18z2)  USKOV, A.A., red.; RZIIEVSKIY, V.V., prof., doktor tekhn. nauk, red.; SOKOLOVSKIY, M.M., red.; MIKHAYLFIKO, I.G., red.; BUGOSLAVSKITY, Yu.K., red.; SOBITSKIY, V.V., red.; VIIIITSKIY, K.Ye., red. ; Ye. B. , red.; KRIIS, S.I., red.; NMOE, A.S., red.; SIIVIKOV, V.P., red.; SOPESHKO, N.F., red; BLAYVAS, M.S., red. [Studies of the All-Union Scientific and Technical Con- Ference on improving the equipment and technology of mining minerals by the open pit method] Materialy Vse- soiiiznogo nauchno-tekhnicbeskogo soveshchaniia po sover- shenstvovaniiu tekhniki i tekhnologii razrabotki polez- nykh iskopaerykh otkrytym sposobom. Moskva, Nedra, 1965. 285 P. (MIRA 18;6) 1. Vsesoyuznoye naucbno-tekhnicheskoye soveshchaniye po sovershenstirovaniyu tekhniki i tekhnologii razrabatki po- leznykh iskopayemykh otkrytym sposobom, Cheremkhovo, 196/+. 2. Moskovskly institut radioelektroniki i gornoy elektromekhaniki (for Rzhevskiy). 3. Glavrrjy spetsialist Gosudarstvennogo, komiteta tyazhelogo, energeticheskogo i transportnogo mashinostroeniya pri Gosplane SSSR (for Bugoslavskiy).  c- c'I Ic @di -.nd r !T4 \VIt 125@ - j C, f @ 7@11(' t 's I I i n f -