SCIENTIFIC ABSTRACT ARNOLD, I.V. - ARNOLD T. S.

MONTSKO, Tlbor, (Pees, Rakocsi ut 80, Hungar7.); TIGYI, Andres, (Pees, Fakoczi ut 80, Hungary.); LRNQLD,--Iatv&n# (9ecs, Rakoczi ut 80, Hungary.); TARJANI Jenot (Pecs# Rakoczi ut 800 Hungar7.) The effect of the patathyroid on the changes of serum proteins. Act& biol Hung 12 no.3:191-197 161. 1. Institute of Physiology and Biology, Medical University of Pecs, (Headt K. Lissak).  A11CLID, I.V1. Ideale In komaitativen Halbqruppen. Matem. SB-, 36 (1929)p 401-408. Kratkiy istoriko-bioernficheskiy spravochnik. V kn Teoriya chisel. M., Uchpedgiz (1939), 248-253. SO: Mathematics in the USSR, 1917-1947 edited by Kurosh, A. G.v Markusheviohj A. K.p Rashevskiy, P.K. I.SDscow-Leningrad, 1948  L 30120-66 -Acc-Ml- .AT6020301 SOURCE CODE t HUI AUTHOR: Arnold, Ka,--Arnolld, Ke.. Z/- ORGt Institute for Geodesyo Potsdam (Goodatischos Institut). TITIE: Now developments in the thopr"Of the geoid Vr SOURCEt Aeademiae scientiarum, hungaricaeo Acta technica, ve 52, no. 1-4, 1965~ 221-3 TOPIC TAM Earth gravity, geodany ABSTRAM This article is tho twct of the authorlet lecture aeliverod in Oct 1963, In recent years the gooid theory utilizes non-roducod gravity values taken at tho surface of the Earthe These values are introduced into the potential equation. By also introducing the effects of certath fr6di--air anomlioalta mathematical treatment becomes possible# Sam recent dovelopmsntpj~;based main_3jy on papers published by the author, were discuBseds orip art& hisi Lpriga art* in Gorman_.7 fj'PRJS SUB CODEs 08 SUBM DATEt none ORIG'PXFt 005 OMAEFt 001 Card  AXIOLD, K. ConsiOleration concerning the leterminfttion of the effect of defection of 41 4 sounding llae oa astronornical position deturmlaatloa; Uso, remarks by W. Hristow, and A. Tarczy-Hornoch. In Ger-man. p. -'~ 91. ACTA TECHNICA. (1-51gyar Tudomanyos Akademia) Dadapest, Hungary. Vol. 23, 110. 113, 1959. Youthly list of East hu:-opean Accousiloas LC, vol. 9, ao. 1, Jim. 1900, Uncl.  ������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������ce-WRIMMIR I  .W.mm.mm n F  1__ kl5a-Z 7. D-e ACC NRI AT6020300 SOURCS CODE:_ HU1250!+16'5- 1-_1010110V~0, 0 AUTHOM Arnold, X.-Arnolld, K. +1 ORG: Institute for Goodosy, Potsdam (Goodatischos Institut) d TITLU: G:q_ ~etiq~point determination with the aid of )~Itificial qatell-ite obsojj~at~ion SOURM Acadordae sciontiarunhungaricao. Acts. toohnica, v, 52, nos 1-2, 1965,103-120 TOPIC TAGSt photograpIV, goodesy, artificial satellite observation ABSTRACT: This article is the text of the author's lecture delivered in Oct 1963- The title subject was discussed in general,, It was pointed out that Moro detailed knowledge of the Earth's characteristics would also improve the usefulness of Guch observations; that observations involving one satellite only have sovoral potential sources of error; and that an inprovomont in photographic toohniques, especially in the area of taking pictures from-an angle, would contributo to the accuracy and use- fulness of geodetic point determination using satoUAto observation techni Orig. art. has: 6 fieuros and 11 formLlAss forig, art& in Gernan.7 JPRS SUB CODE: 08 / SUBM DATEt none Card 1/1 il __~  -10638-66- - ACC NR, AT003Z)jj SOURCE CODE: HU/2504/65/052/03-/0244/0249, AUTHOR:--Arnbld. K~ (Potsdam) ORG: none TIME: Accuracy of the equation for the EEAyiMtric correction tem SOURCE: Academia scientiarum hungaricaes Acts, technika, V. 52, no: 3-4, 1965, 244-249 TOPIC TAGS: geomagneti;-c disturbaxice, Wavier Stokes equation ABSTRACT: The accuracy of the gravimetrical correction tem in the equation used i~ the Stokes equation 'for calculating the geoid undulations or t~he disturbance p(~Lential at the earth's surface from free-air anomalie8s or the,deviations on the earthts surface in the Venig-Meinesz equation,, was investigated. It was shown that the 'next iteration' has only a negligible influence on the grayinetric correction tem. Orig. art. has: 4 figures and 5 formulas. EJPRS: 34,6721 SUB CODE: 08,, 12 / SUBM DATE: 16Mar65 / CRIG REF: 007 / OTH REF: OM LIS  AFU40LD.. Karoly Some questions relating to the water and gas conduits of Hotel Szabadsag. Epuletgepeszet 11 no.4tl48-149 S 162.  I .. I I . , It I . : . ., .. I . , . I , t. .. ! ` I, I I I . .1 I I t - , 1; , , Pl : I " . . . , '. - : ; -~;. . !., I , 1... I , ii. ', I., ., 1,..  K.V. ijIILYA--.-V-uV, I-1.1 OBRAISOV. ~b-V. Forest Ecoloa Animl world in steppe forestry, 1huch. vop. polerashch. les. Wo. 1, 1951 Monthly List of Russian Accessions, Library of Congress. July 1952. Unclassified.  IA -11 -.Vf - -- - - - - - - - - - ATW- -. Forest InsecLs 6 Forest-s'eppe origins and the character of the infiltration of for.-s'u insr3cL-.s to siueppe durini! affores:.aluion of the steppe. Zool. zhur. 32 No. 2, 1953. 9. Monthly List of'Russian Accessions, Library of Congress, 0une 1953. Unclassified.  AFANASIYEVA, Ye.A.; RAMINICH, N.I.; NOSOVA, I M.; GOLUBEV, V.N.; DOMIAN, G.I.; AMJOLtDl,,-X-vV-,; OBRAZTSOV, B.V.; NIKIFOROV, L.P.; GIBET, L.A.; VORONOV, A.G.; SKOKOVA, N.N. Brief news. Biul. MOIP. Otd. biol. 69 no.4:150-160 Jl-Ag 164. (MIRA 17:11)  I L. V. Thermal I ower equipment for hoisting-trmnsportim- mac!dne-s Mossinia, Izd-vo Narkomercliflo-a SSS", 11/145. (Mic ~3-337* Microfilm T-9 1. Hoisting nachincry. 2. Conveying machinery. I. Akimov, Pavel PeLrovich  ARNOWD, L.V. 25676 *todika opradeloniya Velicbinb Isparitellnoy Poverkhnosti V Dvukhkonturnykh Kotl&kh, Trudy Imningri in-ta. Inthenerov Vod transports., VYP. 15, 1949. s. 186-91 SO: LICTOPIS I No. 34  KHkNDOV. Z.A.; GENIN, A.B.; ARROLID. L.V.. redaktor; VOLCHOK, X.M., tekhaichaskiy redakCo-r Nas powered marine engines] Sudovye gazosilovye ustanovki. Moskva, Izd-vo Mintoterstva rechnogo flota SSSR, 1951. 370 P. 14icrofilm) (Marine engines) ~MLTJA 10:2)  AWSANDWY, A.S.; KMFm'D,,L.jV., redaktor, professor; SHEMMKOVA, Z.V. PA 0. G.r rodaktor; VOL )VA., y6. ,, tekhnicbeskiy redak-tor (Marine boilers] Sudovye kotellrqe ustanoyki. Pod red. L.Y. Arnollda Moskva, Gos.izd~-vo vodnogo transporta, 1954. 462 p. (KI.RA 8:10) (Boilers, Marine)  ARNOLID. Leonid VladLmjgX&j6,Wofes8or; ZIROZHEK, V.V., redaktcr; ~Wf._, P.M.-MOMIcheakiv redaktor. [Steam boilers and boiler equipment of river boats. Parov7e kotly I kotelInys ustanovki reobnM sudov. Leningrad, Izd-vo *Rechnoi trans- port," 1954. 480 p. (MM 8:4) (Steam boilers, Marine)  ~-j 1,;'-v r, k1-411 To ALIMSANIZOV, Aivirty Sywateglavevich; KUMMRTSXV, F.Ya., redaktor; AMUL~ L.Y,., retsesseat; PRISYAGIN. V.V., rateeizoat; SHLNUNIKOVA, Z.V., Maitor; KRASYATA, A.K., takhnichookiy redaktor. [Thermal calculations for water-tube beilere of ships] Toplovsi raschot sudovykh vedotrubnykh ketlov. Hookys., Isd-ve "Rechnsi tran- sport*, 1956. Inp. (K6RA 9:6) (Boilers, Marine)  AIJKSANDRGY, Audrey Bvyatoolayovich; J,, professor$ redaktor; . SHIANNIKOVA, Z.T., radaktor A.K., takhaichs- ikly redaktor [Marine steat-boilers) Sudorye kotellaye uotmnovki. Isd. 2-08. parer, Pod red. L.T.Aronl1da, Moskva, Isd-vo "Rechnol transport." 1956. 455 p. (KLRA 10:2) (Boilers. Marine)  SMUCHMO, V.M.; ARNOLID. L.V.. otv.red.; SANMn, N.V., red.isd-va; - rmr - . PzTnSON' NX-rvd "w [Atlas of designs of marine steam boilers; supplement to the book].Atlao konstruktsii sudovykh parovykh kotlov; priloshenle k knige. Leningrad, Isd-vo 'Norskoi transport.' 1957* 92 P. (Boilers, Karine-Design) (MIRA112:3)  . I- I .' iujZ U, 1,, _ V SiGLUCTWWO, Valentin Mikhaylovich; SBROZHHK, V.V.. reteenzent;" Qlt a .-IM otvetstyeanyy redaktor; SANDUR, N.V., redaktor lzdatollstvv; DRGZHZHIIIA, L.P.. tekhnichaskiy redaktor: PETERSON. R.N.. tekhniche- akiy redaktor [DeRIguo of wrinv 'boilers] lonotruktoit sudovykh parovykh kotlov. Leningrad, Izd-vo "Morskot tranaport," 1957. 155 P --[Collections of drawings of structural marine boiler elemental Atlas kongtruktaty sudovykh parovykh kotlov. 92 1). of tagrame. (HLRA M-10) (Boilers. Harine)  PHASE I BOOK EXnDITATION 1054 Arnolld, TAonid Vladlydrovich, Profeosor Termodinamika I teploperedecha. ch. I: Termodinsimika, (Thermodynamics and Transmission of Heat. v. 1: Thermodynamics) leningrad, Izd-vo "Rechnoy Transport", 1958. 367 p, 6,000 copies printed, Ed.: Akimov, P. P.; Tech, Ed.: Volchok, K. Mi PURPOSE: This is a textbook approved by the Ministry of the River Fleet of the Russian Soviet Federative Republic for students of water transportation engineering Institutese COVERAGE: This book covers the first part of a course In thermodynamics and heat transfer, and deals vith the fundamentals of engineering thermodynamics, T.he author gives due attention to physical aspects of the phenomena studied, with consideration of the kinetic theory of matter* In the first chapter., the author gives a historic outline of the development of thermodynamics and meentions names of the most promihent scientists of this field, There are 8 Soviet references. Card 1/1,  Thermodynamics and Transmission of Heat (Cont.) 1054 TANZ OF COI?FMM: Ch, 1. Lav of the Conservation and Transformation of Energy 1, The subject of thermodynamics 3 2. Law of the conservation and transformation of energy 4 3. Thermal equivalent of mechanical work 7 Ch. II. First Law of Thermodynamics 1. Preliminary information and definitions 10 2. First law of thermodynamics 12 3- Equilibrium and reversible processes 16 4. Parameter of state and egnation of state 21 5. Parameter of state - absolute pressure 22 6. Parameter of state - specific volume 24 7- Parameter of state - temperature 25 8, Mechanical work of a charge of volume 28 9. The pv diagram, Graphical representation of vork 11~0 10. Internal energy 31 1.1. Heat 34 12, First lmr of thermodynamics applied to the flow of a liquid 35 Card 2/11  Thormodynamics and Transmission of Heat (cont.) 1054 13. Potential energy of pressure 39 14. Bernoulli's equation 40 15. EnthalPy 41 16. Heat capacity 43 Ch. III. Perfect Gas 1. Division of gases into real and ideal 45 2. Equation of state of an ideal gas 48 3. Avogadro's law 49 4. Dalton's law 52 5. Mixtures of gases 54 6. Internal.-energy of an ideal gas 56 7. Throttling of an ideal gas 59 8. Entbalpy of an ideal gas. Mayer,s formula 61 Ch. IV. Heat Capacity of Ideal Gases 1. Heat capacity of an ideal gas 63' 2. Heat capacity as a function of temperature 65 3. True and averep heat capacity 68 4., Experimental data on beat capacity 71 Card 3/11  Thermodynamics and Transmission of Heat (cont.) 1054 5, Heat capacity of a mixture of gases 75 6. Graphs of u.-t and i-t for gases 76 Ch. V. Thermodynamic Processes With Ideal Gases 1. Preliminary information T9 2. Constant volume process (isochoric process) 80 3. Constant pressure process (isobaric process) 81 4. Constant temperature process (isothermal process) 83 5. Adiabatic process 85 6. Polytropic process 91 7. Investigation of polytropic processes 96 80 Application of the equation of polytropy to the investigation of real processes 99 Ch. VI. Gas Mixtures 1. Gas mixtures at constant vol=e 103 2. Gas mixtures at constant pressure 105 Card 4/11  Thermodynamics and Transmission of Heat (Cont.) 1054 GIh. VII. Second Law of Thermodynamics 1. Cycles 2. Second law of thermodynamics 3. Efficiency of a cycle 4. Carnot, cycle and its efficiency 5. Theorem of the thermal independence of the efficiency of the Carnot cycle from the physical properties of the working medium (Carnot theorem) 6, Mathematical expression of the second law of thermodynamics for reversible cycles 7. Entropy Ch. VIII. Heat Diagram 1. Heat diagram 2, Entropy as a function of parameters 3. Basic thermodynamic processes and gases in a heat diagram 4. T-s diagram for air 5. Carnot, cycle in a heat dingrem, Generalized Opxnot oycle 6. Absolute thermodynamic temperature 10T 108 Ill W 3.17 120 124 129 130 131 W 139 142 Card 5/11  Thermodynamics and Transmission of Heat (Cont.) 1054 On. IX. Second Law of Thermodynamics for Irreversible Processes 1. Change of entropy in an irreversible compression of a perfect gas .146 2, Value; of the integral jfV'7 for irreversibb processes 147 ,F 3. Law of the increase of entropy 150 4. Physical meaning of entropy 151 5. Losses of the working capacity of the system in consequence of the irreversibility of processes 154 6. Entropy as a static conception 157 7. Natural science and the second lav of thermodynamics 162 Ch. X. Differential Equations of Thermodynamics 1. Relationship bellimen specific heat capacities and the characteristic equations of state C. 165 2. Application of the differential equations of thermodynamics to ideal gases 169 3. Differential equations for u, i, and a. Card 61 U  Thermodynamics and Transmission of Heat (Cont.) 1054 Ch. XI. Brief Information on Real Gases 1. Van der Waals equation 2. Investigation of van der Waals' equation 3. Equation of state of a real gas of M.P. Vukalovich and I.I. Novikov 4* Reduced equation of state of van der Waals 5. Experimental data on real gases 6. Joule-Thomson effect Ch. XII. Saturated Steam 1. Evaporation and boiling of a liquid 2. Pressure curve of a saturated steam vapor (curve of the equilibrium of phases) triple points 3. Process of vapor formation in the p,v system of coordinates 4, The heat and enthalpy of a liquid 5. Enthalpy of a vapor 6. Enthalpy of a liquid and a vapor 7. Ts diagram for saturated vapor 8. Upper boundary curve 9. Clapeyron-clausius equations Card 7/3-1 172 173 178 179 ~183 187 191 193 196 200 204 206 208 210 213  WV. Thermodynamics and Transmission of Heat (cont.) 1054 Ch. XIII. Superheated Steam 1. Equation of state of a superheated vapor 215 2. Heat capacity of a superheated vapor 217 3. Process of superheating, Enthalpy and entropy of superheated vapor 219 4. Representation of the enthalpy of a vapor in a T-s diagram 221 5. i-s diagram 222 Ch. XrV. Thermodynamic Processes With Vapor 1. Study methods of vapor processes 225 2. Isochoric process vith vapor 226 3. Isobaric process vith vapor 228 4. Isothermic process with vapor 231 5. Adiabatic process with vapor 233 6. Process of vapor throttling 236 Ch. XV. Flow of an Elastic Liquid 1. Basic equations of the flow of an elastic liquid 238 2. Character of cross-sectional changes of the flow depending on velocity 239 Card 8/11  Thermodynamics and Transmission of Beat (Cont,) 1054 3. Change of the potential energy of the flow Into kinetic energy 90 4. Critical pressure relations 210 Ch, XVI. Outflow irom Nozzles 1. Outflow from narrowing nozzles at sub-critical velocities 2,47 2. Outflow from narrowing nozzles at 9 --- P r I PCIO :.'5- 3. Thavork of the outflow 253 4, Laval nozzle 255 5. Influence of friction on the process of the outflow 258 6. Representation of work for an outflow with friction in pv and Ts coordinates 260 Ch. XVII. Performance of a Compressor -1. Ideal piston gas compressor 264 2. Multistage compression 268 3. Performance of an ideal compressor In a Ts diagram 271 4. Performance of a compressor taking friction into account 273 Card 9/n  Thermodynamics and Transmission of Heat (Cont.) 1054 Ch. xx, Cycles of Gas Turbine Power Plants 1. Principle of work of gas turbine power plants 2, Cycle of a gas turbine power plant with an isobaric heat supply 3. Cycle of a gas turbine power plant with an isobaric heat supply and with regeneration 4. Cycle of a gas turbine power plant with an isobaric heat supply Ch. XXI. Cycles of Refrigerating Plants 1. Refrigerating capacity and refrigeration coefficient 2. Cycle of the steam compression refrigerating plaint 3. Cycle of a steam compression plant with dry compressor opbration and with precooling of the condensate 4. Requirements of a cooling agent Appendixes Bibliography Insert: i-9 and T-s diagrams AVAIIABIE: Library of Congress Card U/11 IS/Mea 1-30-59 317 319 321 324 327' 330 334 33T 335) 362  24(8) PHASE I BOOK MCPLOITATION SOV/2940 .Arnolld Leonid Vladimirovich, Professor Termodinamika i teploperedacha, Ch. 2: Teplopereditcha (Thermodynamics and Heat Transfer,, Pt.*2: Heat Transfer) Leningrad, Izd-vo "Rechnoy transport," Leningr. otd-niye, 1959- 188 p. 6.000 copies printed. Ed.: P.P. Fedorko; Tech. Ed.: K.M., Volchok. PURPOSE; This is a textbook for students of the ship building and machine depart- ment of vater-transportation institutes. It may be aldo useful to students of itachine-bailding schools of higher technical education. COVERAGE: This book is the second part of a textbook "Thermodynamics and Heat Transfer".. It considers-, the three basic aspects of heat transfer, i.e., con- dixction, c6nvection and i~adiation'p basic theorde,sof similitudej,and heat trans- fer probletaw in recuperative beat exchangers. The author mentions the following Russian scientists vho have made recent contributions to this field; Academi- cians M.V. Kirpichev,,,(deceased) and M.A '.'Mikheyev and also S.S. Kutateladze, A.M. Gurvich, G.M. Kondratlyev', N.B. Vargaftik, D.L. Timrot and G.L. Polyak. Card 116 1  Thexmodynamics and Heat Transfer (Cont.) SOV/2940 There are 7 references ,,all Soviet TABLE OF CONTMITS: Preface 3 Introduction 5 Ch. I. Heat Transfer by Conduction 6 1. Temperature field and temperature gradient 6 2. Fourier law 9 3- Heat conduction coefficient 10 4. Differential equations of heat transfer 13 5. Boundary conditions 17 Ch. II. Heat Transfer by Conduction in Bodies of Simple Fom for Steady-state Conditions and Boundary Condit---,,s of the First Order 21 1. Heat conduction through uniform flat surfaces 21 2. Heat conduction through multileyer flat surfaces 23 3- Heat conduction through uniform cylindrical vaJ-U 25 card 2/6  Thermodynamics and Heat Transfer (cont.) SOV/2940 4. Heat condaction, through multilayer cylindrical walls 28 5. Simplified method of determining heat transfer through cylindrical walls 30 Ch. Ill. Heat Transfer by Conduction in Bodies of Simple Form for Steady-state Conditions and Boundary Conditions of the Third Order* Heat Transfer Coefficient 32 1. Heat transfer through flat surfaces 32 2. Heat transfer througb cylindrical walls 34 3. Thermic resistance 36 4. Critical thickness of the 11asulatioif'of'oylindrical pipes 38 5. Heat transfer thfougb ribbed surfaces 40 6. Heat conduction through bars (ribs) having, a uniforis cross section 42 . 7. Heat transfer through ribs 46 Ch. IV. Convective Heat transfer 50 1. Differential equations of convective heat exchange 50 2. Equation of a viscous liquid flow 55 Ch. V. Theory of Similitude 59 CELrd 3/ 6  T hemodynamics and HeatTransfer (Cont.) SOV/2940 1. Concept of similitude of pbysical phenceena 59 2. First theorem of the similitude theor7 62 3. Second theorem of the similitude theory 65 4. Third theorem of the similitude theory 67 5. Hydrodynamic similitude 69 6. Thermal similitude 72 7- Criteria of similitude 74 8. Criterial. equations of convective heat exchange 77 C& VI. Heat Transfer in Forced Flow of Liquid 79 1. Flow of liquids in pipes 79 2. Determining mean temperatures and velocities of liquids. Determining temperature factor 81 3- Equivalent diameter 84 4. Heat transfer in a liquid flow In layer form throu& pipes ana channels 85 5. Heat transfer in a turbulent flow of liquids in pipes and channels 90 6. Heat transfer in transversal flows over smoota pipes 93 7- Heat transfer in transversal flows over banks of ribbed pipes 98 card 4/6  ..Thermodynamics and Heat Transfer (Cont.) SOV1290 8. Heat transfer in flows of Uquids along f34Lt surfaces 9. Hydrodynamic heat transfer theory Ch. VII. Heat transfer in Free Flows'of Liquids 1. 'Pree,flow in nonrestricted volines 2. Heat transfer in free flows 3, Heat transfer through air layers Ch. VIII* Heat Transfer When Aggragate Stato 6 a .1. Boiling of liquids .2. Heat Transfer during boiling of liquids 3, Heat transfer in condensing steam 4. Influence of various factors.on heat transfer in .condensing steam Ch. IX. Basic Lava of Heat Wiation 1. General information on heat radiation 2. Low of absorbtion 3. Steph.an-Boltemanle lav of radiation 4. Kirkhof's law card 5/6 101 103 108 108 log 113 U4 114 117 121 126 129 129 131 133 136  Themodynazics and Heat Transfer (Cont.) SGV/2940 5. Lainbert's law 140 6. Radiation Of gases 144 ,'Ch. X. Heat Exchange by Radiation Between Solid Bodies 150 1. Effective and resultant radiation 150 2. Heat exchange by radiation between two bodies with plene- -parallel surfaces 152 3- Heat exchange by radiation between two bodies, one enclosed inside the other 153 4- Protection from heat radiationiscreeip 155 5- Heat exchange by radiation botween two bodies arbitrarily located in space 156 Cho II. Heat Exchange Apparatus 162 XT '~Yves of heat exchangers IQ -2. Water equiva-.1ent, of the beat cba*rier 164 3o Thermal tension 165 4. Deteizination of final temperatures of heat carriers 171 Bibliography 174 App6ndixes 175 AVAILABLE: Library of Congress AC-Sup Card 616 2-15-6o  KONAKOY, Petr Xuzlmich, prof., doktor tekhn.nauk; FILIMONOT, Sergey Sergeyevich, kand.tokhn,nauk; KHRUSTAIST, Boris Aleksandrovich, kand.tekhn.nouke, ARNOLID, L.T., prof., retsenzent; IAMWIIN, Y.T., prof., doktor toldifi.-nauk, nauohnyy red.; SHLEMUEOTA, Z.V., red.izd-va; BOMOVA, V.A., tekhn.red. (Heat exchange in the combustion chambers of steam boilers] Teploobman v kamerakh agoraniia parov7kh kotlov. Koskva, Izd-vo "Rechnoi transport," 1960. 269 p. (MIRA 13:5) (Boilers) (Furnaces)  Pam I BOOK MMOMMON SOV/4310 Arnolld Leonid Vladimirovizh Viktor Sergeyevich Markov,, Vladimir Mikhaylovich -~~ ~Sei===~p=WtVW~t;ovich F~edorko Sbornik zadach po tekhnieheskoy termodinamike i teploperedache (Collection of Problems on Applied Thermodynamics and Heat Transfer) Leningrad.. Izd-vo "Rechnoy transportp" LeningrMakoye otd-n1yej 1960, 292 p, Errata 934p inserted* ~.,000 copies printed. General Ed.: L,V. Arnolld,, Professor; Reviewer: P,P. Akimov, Docent; Ed.: N.V. Golovanov; Tech. Ed,: K,M, Volchok, PURPOSE: This book is intended for students in water transportation institutions taking courses in thermodynamics and heat transfer, It conforms with the program of the Leningrad Institute of Water Transportation. COVERAGE: The book consists of 501 problems on thermodynamics and beat transfer. it is subdivided into 16 sections, Each section gives a theoretical introdue- tionj, formulas., and one or more example of calculations, Tventy-three appendixes Card _~/G>  Collection of Problems (Cont.) SOV/4310 provide tables and graphs of thermDdynamic values, Cho, 1j, 4.9 3.1.9 Up and 1.5 were written by V.S. Markov; Cho. 3P 5j, 10., 12, and 13 were written by V.M, Seliverstov., and Cho. 2j, 6.,8., 9., and 16 were written by P.P. Fedorko; Ch. 7 jointly by V.B. Markov and.V.K. Seliverstov, Cho. 4j, 7., U., 12p 1% 14., and 15 were written with the cooperation of L,V. Arnolld. No personalities are mentioned. There are no references. TAE= OF CONTEM: PART 1. APPLIED TEE=Dr14aCS See. 1. Parameters of the Thermodynamic State of a Substance 3 See. 2, Fundamental Lava for Ideal Gases 7 Sec. 3- Mixtures of Ideal Gases 14 See. 4. Specific Beat of Ideal Gases 22 See. 5, First Law of Thermodynandes 29 See. 6. Thermodynamic Processes in Ideal Gases 35 Card 2/6  SELIVERSTOV.. V.M.; ARNUID, LY.,-;red.; VOLCHOK, K.H.,q tekhn. red. (Marine steam-power plants; methodological manual on the section "Marine boileren (heat calculations of auxiliary and waste heat boilers)]Sudovye parosilovye ustanovki; Taetodiche- skoe posobie ~b razdelu "Sudovye kotly" (teplovoi raschet vspomogatellnogo i utilizatsiomogo kotla). Leningrad, Izd-vo "Rechnoi transport," 1962. 18 p. (KRA 15:9) (Boilers, Marine) (Waste heat engines)  OVSKn I--G6orgiy Andrey-eviclirUSIN-) j-kand-ftekhm. -nauk, --- - retsenzent; ARNOL'D,_L_,VL., prof., red.; MITARCHUK, G.A., red. izd-va3 POLIMAYA, R,., tekhno red, [Thermodynamio analysis of processes in steam-gan mixtures) Termodinamicheskie raechety protsessov parogazovykh smesei. Moskva# Mashgiz.. 1962. 183 p. (MIRA .15:6) (Themodynardco)  ARNOLID Leortd Vladimirovicb; IOSIFOV, Mikhail Rikanorovich; AKIMOV, P.P&J, prof.j. re iinzent; SURNOV, S.A.y red.; VOLCHOK, K.M., tekbn, red. (Thermodynamics, heat txansfer., and power equipment of hoist- ing and conveying machinery]Termodinamika,, teploperedecha i teplosilovoe oborudovanie pod"emno-transportnykh mashin. Pod red* L.V.Arnolida. Leningradp Izd-vo "Rechnoi transport 1962. 440 P. (MIRA 15:111 (Gas and oil engines) (Hoisting machinery) (Thermodynamics)  SIZYKH, Vasiliy Afanaslyeviah; ARNOLID, L.V., reteenzeng; SMANTSER, A.I., retsenzent; MAJOTI-T.-S., -red-.; KAN, P.M., red. izd- va; RIDNAYA, I.V., takhn. re . (Automatically controlled auxiliary marine boiler units] Avtomatizirovannys sudovye vapomogatellnys kotloagregaty. Moskva., Izd-vo "Rachnoi transport," 1963. 133 p. (MIRA 16:5) (Boilers, Marine) (Automatic control)  ARNOL D.,,LvV-; IMYZHANOVSKIY, O.L. ...... . A new aponles of ground beetlea from the gonus lAmnaitJo Motsah. (Coleoptera, Carabidae) living in soil clefts of the steppe zonee Trudy Zool. inat. 34t13J,-1)4 164- (MIRA 18:2)  I AR!:01-1 1 -)-31,i..%, . A 6 'o, - C:. i I -I i on Idau 11 .),T. t~,!n-.ral TI V:66 6 1 11 & we 1 .9 (colec'LAarFt, C1.1,;:U -" f~ . 1 .1 Kuvakhotan. Trtzay 4"ool. in.,' t . 3,1. - L61... ~ '1 -1 %).+ ,( 11 "i"t 18 : "! )  ARNOL I -, ...... Now species of Otiorrhynchus Gorm.(Coleopteral Curculionidae) fron Transcaucasia. and northern Iran. Dokl. AN Arm. SSR 38 no.4: 251-256 164. (NIRA l7t6) 1. Zoologicheskiy institut AN SSSR. Predstavleno akademikom AN Armyanskoy SSR V,O.Gulkanyanom. I  *d obwe" wo ow low-uhn $Wbm- ow "a pUce tobn of ow SWAPJM ded Oow, spty and lubd WLJQ Is & 21 N. and 00 a t. :J.. nep$cUvvly. tatistbw WPC#. OAW VA SI&Iiomt m ow A"swg Hoo. amC tubm me".  '14, I Problems concerning accelerated building of electric power plants, p. a., ZA SOCIALISTICKOU VEIXJ A TECHIIIIIKU (Pripravny vybor vedecRych technickch spolecnosti pri eskoslovnske akademii ved) I-Iraha., Vol, 5., No. 2. Feb. 1955 SWRCE: East I~Iropean Accessions List, (LEAL) Library of Congress, Vol. ~,, No. 12, December 1955.  MMIZIL, Donald H.. red.; XAZARITOVSXIY, M.V. [translator]; TIKHWIROV. F.A. [translator]; ARNOLID.-N.A. [translator]; PETRUKHIN, V.I. [translator]; KATSONASHVILI,-'B.-ilt'.-'C'tranalatorl; AXSENOV, S.I. (translator]; BAKANOV, S.P. [translator]; SHAPIRO, I.S., red.; ADIROVIGH, B.I., red.; MEDVICDRV. Yu.T.. red.; NAXHIMSON, I.G., red.; TEUSNIN, N.L., red.; BELEVA, M.A., tekhn.red. [Fundamental formulas of physics. Translated from the English] Onnovnye formuly fitiki. Moskva, Izd-vo inostr. lit-ry, 1957. 657 P. (HIRA 11:5) (Mathematical physics)  ARNOW inzhener; RUMOV, Te.G., in2hener. H.rdromechanization on the projects of the Ministry of Construction of bhe U.S*S*R. NOT*tekh. i pered. op.v stroi. 18 no-717-10 Jl '56. (Hydraulic engineering) (Dredging) (MMA 919)  AID P - 5o78 Subject USSR/Engineering Card 1/2 Pub. 128 - 7/26 Authors Prikhodlko, N. A., and N. P. Arnolld, Engineers Title : Automatic machine lines for the processing of stepped shafts. Periodical : Vest. mash., 5, 16-g6, MY 1956 Abstract In accordance with the designs of ENIMS (Experimental Scientific Research Institute for Metal-Cutting Lathes), the experimental "Stankokonstruktsiya" Plant manufactured in 1949-1952, four automatic machine lines for processing shafts of electric machines. Three of these automatic machine,~- lines were put in operation at the "Vollta", Mednogorsk and Tomsk plants manufacturing the electric machinery. The fourth automatic line is tested at present by the Khartkov Electric-Machine-Building Plant. The design and operation of these automatic machine  Vest. mash., 5, 16-26, MY 1956 AID P - 5078 card 2/2 Pub. 128 - 7/26 lines are described and discussed in detail. On the basis of the satisfactory results of their operation, the Ministry of the Electric Power Equipment Industry entrusted ENIMS in 1955 with the designs of three new automatic machine lines for processing shafts. 3 tables, 19 illustrations and diagrams. Institution : None Submitted : No date  ARNOLID. 114V. -, VY0011, G.Ye. -, Motion pictureo on subjecto in the field of technoloff. Politelth.obuch. no.9:70-71 S 159. WIRA 12:12) (Technical education) (Motion pictures in education)  -ARNOLID, N.V, (Hoakwa); VrGON, G.Te. (Mookwa) Training films in biology. BiOl-v Shkole no.2:95-96 *-Ap 16o. (Motion pictures in education) (MIRA 13:8) (Biology--Stud.v and teaching) I I  ARNOLID., N.V.; DMN, Z.I-. , starshiy inzh. What is the right place for repairs of the mercury.-arc rectifiers of eloctric locomotivee. Elek.i tepl.tiaga 5 no.11:18 N 161* (MIRA 14:11) 1. Nachallnik otdela proyektno-korwtruktorskogo tekhnichaskogo byuro Glavnogo uprayleniya po x*montu podvizb~ogo sostava i ItgotovIeniyu zapasnykh chastey, (Mercury-are rectitiers-Maintenance and repair)  ARNOWD, O.A., arkhitektor Architectural decoration of accomadations on the atomic icebreaker "Lenin." Sudostroenie 27 no.8:14-18 Ag 161. (MIRA 14:9) (Lenin (Atomic ship)) (Naval architecture)  ARNOW. R. '--AWW"WAUW" The blast-furnace dust, Arh, hige rada 5 no,2:213-220 1954. 1. Klinika saiprofesionalne boleati, Ham; radnja primljena 5,VI..1954. (SILICOSIS In foundry workers) (OCOPATIONAL DISJUSIS dillcosis In foundry workers)  38073. ARNOLID) R._ R. Issledovanie magnitnykh sistem fromkogovoriteley. Soobshch. 130. Trudy nikfi (Nauch. - Issled. Kinofoto in-t), vyp. 10, 1949, s. 166-81  -- i - --- .- - - " I 1~ A I ". 38075-__AMQL!D..-R.-R...AND BOLDTNEOV, 1. M,. Gromkogovoritell dlya kinopc-redvizhki. Soobshch. 132. Trudy nikfi (Nauch.-isaled kinofoto in-t), %,3T. 10, 1949, s. 223-34  9(2) SOV/112.,,L)9-4-8195 Translation from: Referativnyy zhurnal. Elektrotekhaika, 1959, Nr -1, p 258 (USSR) AUTHOR- Arnol d, R. R. TITLE: Some Characteristics and Parameters of Magnetic Heads PERIODICAL: Tr. Vaes. n.-J. in-ta zvukozapisi, 1957, Nr 1, pp, 47-69 ABSTRACT: Parameters of playback, recording.. and erasing heads are considered without their matching with the amplifier or oscillator. High-frequency characteristics of playback heads with various slits (narrow, wide and tra 'Ipezoidal) are analyzed. The parameters determining the efficiency of a playback head are considered. M.V.Ts. Card I I I  A-1"ZOLID, R.R.; AP0110311011A, L.P.j v.3., rod.; VASILIVs:-.IY, D.P., V_qO3L:.j'V&iIY, A.A., re,; GRIBKOVA, G.L,, red.; GRIGORASH, G.L., r7!e.; KAZ7A-',N'-,Y, B.Yo., W_RY'10171T~O, V.I., red.; PUS&:T, L.A., roe..; Ye.I., re(l.; ROZEINFUT, F.A., red.; MADIKIDI'Ll, B.A., red. for trwr!ratusl Magnitnye golov':l dlia -,'ralcozaPisi- 195z1. 153 P. (Moskva 9 S i yi V e o uzn A, Ul y ,..-.apisi. Trud , no.3). 41T.R-1 12:4) recorders and recording--Equipment and supplies)  24(l) SOV/112-59-2-4063 Translation from- Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 2; pp z67-z68 (USSR) AUTHOR: Arnol'd, R. R. TITLE: Magnetic Heads for Sound-Recording Equipment (Magnitnyye golovki dlya, apparatury zvukozapisi) PERIODICAL: Tr. Vses. nA. in-ta zvukozapist, 1958, Nr 3, pp 5-155 ABSTRACT: Magnetic heads are examined that were developed for recorders using a 6.35-mm, tape and for playing back the tapes in cinema. These heads can be used in: (1) radio-broadcast tape recorders operating at 38. 1 and 76. 2 cm/sec; (2) reporters' and miniature portable tape recorders operating at 9.53 and 19.05 cm/sec; (3) general-purpose tape :-,ecerders operating at 4.76. 9.53 and 19.05 cm/sec; (4) dictaphones operating at 2. 38, 4.76, and 9. 53 cm/sec; (5) low -power -consuming tape recorders; (6) sound-recording and sound- reproducing equipment used in wide-screen and panorama-type cinema; Card 1/ 3  SOV/ 112 -59 -2 -406 3 Magnetic Heads for Sound-Recording Equipment (7) equipment for reproducing magnetic records In cinema films and for dubbing them; (8) equipment for simultaneous recording and reproducing two or three channels on a 6, 35-mm tape. Thirty new typea of magnetic heads and their characteristics are described in detail, among thern* (1) type MPV heads w1th a low-reluctance rear gap; (2) type MG- 1 1V heads with emphasized lower f:!equencies; (3) miniature economical MG-1S, MG-2S, and other erasing heads; (4) erasing and demagnetizing heads with a type SGPM permanent magnet for I- and 2-track recording; (5) type MG-14V miniature heads (8 mm diameter, about 1. 5 g weight) intended for cinema projectors; (6) miniature heads with narrow slits (3-5 microns) for reporters' portable MG-26 and MG-28 recorders. (7) four-channel magnetic-head units for SV and SZ wide- screen cinema; (8) nine-channel magnetic-head units for MG-22 and MG-25 panorama-type cinema; (9) economical and highly effective erasing heads with a number of slits, MG-17S, MG-20S, S-02-2, and others; (10) type MG-24 Card 2/3  SOV/112-59-2-4063 Magnetic Heads for Sound-Recording Equipment combined heads (recording -erasing, universal -erasing) - Pasting together the core sheets, joining the cores, and imbedding the heads in shields (if the latte'r is provided) are done with a specially developed EKS-1 epoxide glue and EPS-1 ep6xide paste which ensure constant head parameters in time with temperature variations from -700 to +60OF and at high humidity. Description of the heads is iRustrated by sketches, drawings, and pictures. R. R. A. Card 3/3  saw ic 11 Jon um) JL IL wm. & JL % IL -I& ~m In mwm A. A. mft (c 10 An 16 WM) AL IL A"$w AL r. Aff-w "Ut"NOO-OMOCAVULMOR laxopas pp--~ a IL rr..-* to ~ (e as is -M) IL a r."- .A----A . ---rw .... . A. UL r"b~ L L IL IL bq~ K A. K.~ f. L K"~ JL IL T. AL Amom L r _Sma. "Wlwoml ~Iwl" 'a, A.. A. atm. Ifs-f  ARNOLID,, R.R.---- Effective width of working slits of recording and reproducing magnetic heads. Trudy VXLIZ noo5:10-18 159o (KML 3-5:4) (Magnetic recorders and recording)  AMOLID, R.R.; KALANTPROVA, M.S.; SKOTNIKOV, V.Ya. Study of different types of magnetic recording heads with oores made of new magnetic materials, Trudy VNAIZ no.7:18-34 160* (MIRA 14:4) (Magnetic Acorders and recording) (Cores (Electricity))  27W S/167 ,/60/000/012/002/005 9/1 7 7/0 DOWD113 AUTHORSs Arnollds R.R.; Kalantarova, M.S.; Skotnikovp V*Yas TITLEt The use of now soft magnetic materials in magnetic heads PERIODICALs Tekhnika kino i televideniya, 1960, no. 12, 13-20 TEXTs The authors disouss the possibility of using new soft magnetic ma- terials in the magnetic head cores of sound rooorderso Information is given on new alloys developed at the Institut pretsizionnykh splavov TsNIIChM (Institute of Precision Alloys of the TsNIIChM) , and on their application which was investigated at the Institut zvukozapisi (institute of Sound Re- cording). The main purpose of the investigations was to develop alloys wi 'th an increased wear resistance at a higher specific electric resistance and a higher initial permeability. Low-nickel (starting with 35-40% Ni) and high-nickel (starting with 79-80% Ni) alloys with various components, in- cluding some strengthening and carbide-forming elements together with an increased carbon content, were studied and technological methods for the production of new ferroaluminum alloys were investigated; these alloys known Card 1/3  The use of new..* 17W S/187/60/000/012/002/005 D035/1)113 I as "alfenol" (W16 (Yul6l) and 11termenoll, ( 1016MCYul6Nb are superior to ferzoniokel alloyse The following two now alloys were developedt (a) the 79 NXL)(79NKhO) alloyq based on a 78% forroniokel alloy with chrome and lead additions, which has initial pl raeability of up to 30,000 Go/Os at an elso- trio resistance of 0.65 ohmemm /m and high resistance to mechanical defor- mation; (b) the 38"C5 (38185) alloyo based on a 30* ferronickel alloy with a silicon addition, which has initial parmgability of up to 5pOOO Go/09 at an electric resistance of up to 1.08 ohmoamz/m. These alloys can be success- fully substituted for the 8014X&(801KbS)9 798M(79NN)o and 50 NKOOOMS) alloys. A new method of measuring the wear resistance of thin laminar ma- terials, devised by the Institute of Sound Recording is described. The method consisted in subjecting a TX25mm Plate, 0-15-0,30 mm thick, to abra- sive wear by a magnetic tape (100 m) in order to find out how much of the plate was rubbed off* At nMT-3 (PRT-0 11~�-Vussnt for measuring the micro- hardness (135-fold magnification) and a "type I" tape which had a speed of 76 om/sec and a tension of 250 9P were used. In order to find out if the 8OMS'alloys can be replaced by ths 79NKbO and 30NS5 alloys,eteop the Institute of Sound Recording also tested the alloys directly in the ragnetic heades For this purpose the &01 (V-01), 3 -01 (Z-01), and mr-28 (MG-28) magnetic heads were used. The reeults of these tests are indicated in terms Card 2/3  The use of new*** 27413 S/187J60/000/012/002/005 D035/Dll3 of the quality factort the.shunt coefficient (ratio between the useful mag- netio flux through the head and the magnetic flux of the tape)9 and the parallel lose resistance* The dependence of the initial eleotroaooustio parameters of the heads on mechanical effects occurring during the pressing- out and gluing of the tempered plates into packets was measured on a ballis- tic device. The results of these magnetic measurements (ohange in ragnetic properties) are given. There are 3 figures, 5 tables, 3 Soviet-bloo and 3 non-Soviet-bloo references, The three references to the English-language publications read as followes Rettinger# M,O Magnetic ;nead wear investiga- tion, JSWTE, 1955t 64, no* 4P 179-183; Lufayt E.W., Reath, W.T., Alloy improves magnetic recording, Eleatronioev 1955, 28, no. 6j 137-139; Kaoh- man, J.F., Buehlerv W.J.t 16 percent aluminum-iron alloy cold rolled in the order-disorder temperature range, J. Appl. Physet 1954# 259 no- 39 307-313- Card 3/3  CZECHOSLOVAKIA Organie Chemistry. bynthetic Organic G Chemistry* Abs Jour: Ref Zhur-KhImIyaj No 12j 1958# 39539- Author : #ruQ1!A,_ahorxu_ Inst :Not given. Title :Synthetic Reactions of Dimethylformamidet Is General Method for Synthesis of Beta-Aldehydes* Orig Pub: Chem* listys 19571 51, No 6. 1082-1090o Abstract: A general method Is described for the preparation of dialdehydes RCH(CHO) 2 (I)p.by the formylation of vinyl others RCH=CHORt (II), aoetals RCH2CH(oc2H5)2 (III)t and alpha-chloroethers RCHpCHC1OR' by means of (CH3)2NCHO (IV) and COC126 Card 1/8 0  CZECHOSLOVAKIA / Organic Chemistrys Synthetic Organic G Chemistry. Abs Jour: Ref Zhur-Khimiya,, No 12, 1958,, 39539- Abstract: 0.1 l6e5(fr, ether -700); CO~# 871 130/0-35P 45-46; C6H5CH2s 70, 13516,159 08-5-109. To separate (VI) the alkaline mixture is extracted with alcohol.-benzene (1:1)p the excess of (IV) is removed by vacuum from a dried extract and (VI) is precipitated with dioxane, By the addition of picric acid to the aqueous solution of (VI) the pierates were obtained ((CH3)2NCH=CRCH=N(CH3)p) Oc6H2(NO2)3' Are cited Rs yield of(VI) In %0 M.P. Of (Violin OC2j.,M.P. of picrate in OC: HP 351 188- 190, 1 .5_14 5; CH It 20P 178-160o 127-126; C2H5, 30P 169-5-1716 '1 68-99; C5HllP -0 -, (hydrosco- pie)* 113.5-124.5; C6H5v 26.5, 236$ 114.5-115,5. Card 4/8 7  CZECHOSLOVAKIA / Organic Chumistry, Synthetic Organic G Chemistry, Abs Jouro. Ref Zhur-Xhimiya,, No 12, 19569 39539 Abstract: HP 73-73; CH30 88-89-5; C~H5' 69-70; C H7' 58.5; 'so-C3H7 p 62-63; C4 Hqv 54-55; C5Hllj ;i; C05s 92- 93; C6115CH21 136-137. By the aotion of aniline, it is possible to sepa- rate (V) in the form of anils# and (I) in the form of dianils, To the mixture of 0*05 moles of (IV) and 0903 moles of Cocl2 is added with cooling 0.025 moles of (III)# R=H,, heated for 15 minutes (600c.), and after 12 hours ioe is added, and Oal moles of sod- ium acetate and 12*5 ml of a 4N solution of HC1 salt of aniline and 5 ml of a 65% HC104 - A HC104 Card 6/8 8  CZECHOSLOVAKIA / Organic Chemistry. Synthetic Organic G Chemistry. Abs Jour: Ref Zhur-Khimiyas No 12, 19589 39539- Abstract: 1,4753 and 1-3 9 of Mp R = C2H5 (originally alpha- ethyl-beta-dimetliyl-acrolein)t M.P. 135-1400/12rnm (bath temperature), (VII) was synthesized also by boiling of 0.015 moles of sodium salt of (1), R = C2H59 with 3 ml Of C2HOR in alcohol for 9 hours; yield 1-3 grams. With a 30% (CH3)2NH# (VII) gives (V), R = C21f5* Card 8/8 9  004 000 *0 a **a **a go' god 004 goo OOW ;-Oo 60 Goo are o. 11"s Ly To). Tile complete analysis own ~72(0 Pi-It. T. ILI.FYUL- I I r 7- 8 CO 894- with 9D% KOH. ieheu AL 4 end IN69*4stion, OW IS and Ou frissAin 'IMC WMI" Is JUI". 9%4 rWdu vaslwl WAMilvA. with 1% XOU &W " with 920. sad disiolved hk w"w"% RN ras'SiOU + wuhlAP an nL&de I %-'. I a(*" Is Wn for electrolytic IPA ddwaisalas (Ilktitp,/3-5 Wts The 35 Wo.). Oax. of KAQ- so I N541 0040 and , J Sue tMte, had tbj 1,16 W~W th t given by a si;04W "" 10-00% The HN solution MN at 6w 047w, ~hL, 2~00614- with eq. 0 *M *of Wb" Is ibialaud to which NiNt is Ob ."It-bkU. t1g, tt. + P 4 01i WWAhW lot& up to 350 SW him Coloration il t i Standard "lution (0 - =WO ~ ! M141" `=I in the lWt a Mis T4 50%RMA-bea-ed &q. sulphosalk)-fic acid 044 "It 69., N116 to 014 at ooloar frym violet Who WO is odded, t, Wilitre and t be tWomdon With Mi a OAMud PAution 1 goo goo be* 100 too W 0 V sI 9 A a 3 9 V F-u-S A, W-"A, 4L .81 Vila" 'A a *I *'see 6000060600*4116096 0001e00 0000*0000*00*0 019 0 0 * 0 0- 0 0 0 0 0 o 0 0 0 o 0-0 0 0 * 0 00 OIL 000006000000  11 u it 4 .811 On Mbkl? Is it 41 41 1-t-, , A Q U a 0 r* A 09 A M. .9. 1.4tol 011"101,14 .-1. J' @A INIM RWW Udbft flit L)OkMIRW C"PO Ald flu int Brew ' 00 arka' l4b.). 19M. 4. (1). Klirw)v and T. I. !ej&wd4via lAborateria (11 ) in ifir-AVI'll in 141 C Of 0 1 7U brual (0-A rin It - - . n. n.) g tlww)lutkm 1111111M it, Niex.. no-utraliml 3tIIfN0 the FraskEW with fir ve , stiluthm, all,12grul. of KI, frestol with 3-4 (frols ofgh"t XIIF with N11 611 , , , , r"rCu 0 Se . ' pnviltitate removed and t eive" oif4%;% S (I at - 111ralIA; A grell.lof A i, "'; VllMtl'h 0' K Q J Ille bix-ralvol Ig 1-1-6 c.c of 6 tne a ontinutA untilthr ivlk)w titrated.roore t."wit volutinti too longer bemmes Mue after 2 minutes. -1). X. H. ;b 0 Pj .1 AS$ ILA atTALLOCKAL WERAIVIll CLASSIFKAUCh O-V act 5 AT so is ~ I I 10 0 a to It 0 of a a it a K a a It K 0 0 0 0 0 0 0 0 111 * 0 * 0 0 0 41 U 0 0 0 000 0 0 0 * 000 0000 0 foe too %0 . 9 v Aft A 1 11 'W 0 xtlWilnng it 0 0 0 0 0 0 ~* 0 0 * 6 0 0 *0 * : : :  100A Ogg 09,3 OOV oom cd a' in wee"m d m1subdum gxb by d0. JJCL or ppUL 01. PTO w0 r"Wic LIWITAMMU tl"*ATWI C%AWCATNN goo"., SI..421 z z . -to 4~ 'I 00 do of hunbdm W. 1. J. Kux0v 1. Pm&, IM 9, -10% of Al. fwmd me" osuwum at =00 sq. QSV! T~, 466 coo COO 6100 goo Vff goo goo goo tsoo DO* woo ilia, iiiii ~0 AIR I S 5 IM 0 0 N I IF 01 9 A 6 3 2 00 0 0 0000000000~ 0 00000 00000*000000*11 0 0 00060000066*6066**  ,A 09 a w 00 go 00 I 1 0 10 9 U N 13 U a T_ I. tk""1042; 231-2--Twh. NaCl Q ks.) It dLuolved b, II- HvO, Stirred and cooled to 3-4*-. the pptd. W k ACL2H III OePd., dkWvtd in distd. 11,0 and cgm.4. to a ratio of 1:0.7-0.8 NACI: 1180, WA &pin tookd to 3-411; tht ~Od- RAC1.2140 is dried at 1"-. annimov. NACI. A SM cryft - lotcly Pore SM.. xMispoff It tat -I;-l-.%,-Tq I I 1 -1 T u a &I so $I u a is w K" * 0 0 a a : 0 0 a 0 1* 0 0 0 0 0000 0 0 0' *A-* - &pill I am G-V All " hd a 06 1 1 IF m I a 4 v 116, I 0 Ve 0 0 0 0 * 00 0 0 0 * 0 40 a 0 0 0 0 0 0 0 C* 40 wee woo too ::  00 *0 00 so so 00 '13 00 so 00 A.T_A.L&~W"ICAL UlInOW51 It Al~ 0o0 ~: - - *~- V --7 ,T rp ep peepia-twe -m"1 too 00 00 ,to q0 Is : 00 Its A ISO i O & 48 + Idth nftmllod SL 90 400 too too AIWICATAN too too 061 I A K t I aw a a I I  0*0 -so*.. I v sit 1233114 S. a 41 u a 46. a c a v 4 0 JL L o T Ill A v .4 . L Lvj 0 -4 F 4 a$ a 0 Ts' f 0. Sul." ..W. WHI : 0 O'be ~44*Prpl 100 26m" p" swim 4141016 SU4" Aq A*A aum aqj U, P30mvp aq am qo"x P so *"N A 1911 9W 6ftR p -J4 000T .", 3g 'IV 'Pul" n I- -me" oplwo"m -if pw 00 F- sqj -=no 94r tRi CAC-01 is OPH 10 m- 06 e ;r,=M" Mq PAAIJ Or lap an "I"No as 0 ML 'V"N ppf4 01 0( 1O)aw 6"m 04r 191 IT v Os Pi?Wv "L Put aavp*N 0* W, "Mood %a qf7' 1040I.P*4 4" 90 Vf Pf'r. . I I I a a i n TI I I A t 4 0 '"I"T."T .004600 0 a  AfMOLI D., T. I, ARNOLID,, T. 1.--"Investigation of the Process of Interaction of the Oxides of Nitrogen with Ozonized Oxyjan and Attempts to Synthesize the Higher Oxides of Nitrogen."' Acad Soi USSR. IVt of General and Inorganic Chemistry imeni N, S, Kurnakov. Moscow, 1955. (Dissertation for the D"e of Candidate in Chemical Science). 30. Knishnaya letopis' No 2. 1956  AHNO11), T. I. "Iwreatigation of the Ineraction of Nitrogen Oxides With Ozon- ized Oxygen and Research on the Synthesis of Higher Nitrogen Oxides," dissertation for the degree of Candidate of Chemical Sciences by T. 1. Arnolld, Institute of General and Inorganic Chemistry imeni N. S. Xurnakov, Academy of Sciences USSR, Zhur- nal Neorganicheskoy Khimii, Vol 1, No 10, Oct 56, p 2429 The purpose of the work was the investigation of the complex proc- esses which take place during the formation of the higher oxides of nitro- gen. It is pointed out that data on the substances in question are of interest, because these substances are of importance as strong oxidants. Efficient procedures for the synthesis of N204, N 205 , N206, and 100% DN03 under laboratory conditions were found. It was est&blished that N205 ex- erts a stabilizing effect on 100% HN03. In the investigation of the Inter6 action of nitrogen [oxides] with H202, formation of peracids was observed. (Coment: Nitric acid and nitrogen tetroxide are of importance aa components of propellant mixtures.)  5 (2i" SOV/62-58-121-2/22 AUTHORS: Makarov, S. Z., Arnolld, T. 1. TITLE, Investigation of Systems With Concentrated Hydrogen Peroxide (Izucheniye sistem s kontsentrirovannoy perekislyu vodoroda) Communication 16: Solubi!Jty Isothermal Lines of the Ternary System Sr(OH )2 .-H 202 -H 20 (Scobshcheniye 16. Izotermy rastvori- most-` troynoy sistemy Sr(OH) 2-H 202-H20) PERIODICAL: Izvestiya Akadem.-i nauk SSSR. Otdeleniye khimicheskikh nauk, 1956, Nr 12, PP 14071-102 (USSR) ABSTRACT: In the present paper the Eclutions of chemically pure and catalyst-free H90, at concentrations of from 0-5 to 97%, as well at) the ch(imioally pure Sr(OH'j%2were used aa initial prod- uct3 in investigations of the system Sr (OH)2_H2O2_H2O . The latter, which contained no carbonic acid, was twice recrystal- lized in the nitrcgen currert. The investigations of the inter- act.~cr& between Sr(OH )2 and H202 of different concentrations Card 1/3 were carried out by meanR of the salubilf.ty method at -10, 0,  SOV/62-56-12-2/22 Investigation cr Srstem-s - With Concentrat'ed Hydrogen Peroxide. Communication - 16: Solubility Isothprmal Lines of the Ternary System Sr(OH ) H 202-H20 2 20, 30 and ;00. The following compounds were found according to the method of radic-als: Sir-:;nt:*L'.1M Peroxide, oc-Dhydrate SrO 2* 8H20 and strontium peroxide diperhydrate SrO,.2H 202' The prnsew,e of an earlier unknowa ,~uwpound, the strortium peroxide monoperhydrate SrO 2.111,02P was detected. It is stable at a concentration of from 2.9 to 9.0% H,01? in the liquid phase at 4 500. The data gf.ver, in publf.oat-lan4 co;i:;Pxn!ng the presence of semi- and hexahydrate forms were not confirmed. The only hydrate form is the catohydrate of strontium peroxide Sr020 8H20. There are 10 figures, 5 tables, and 8 references, 1 of which is Soviet. ASSOCIATION: Inatitut Obshchey i neo~rganicheskoy kh-imif imeni N.S. Kurnakova AN SSSR (Instl-tute of General and Inorganic Chemistry imeni N. S. Kurnakov AS USSR) Card 2/3  5 '(2) AUTHORS: Makarov, S, Z.) Arnolld, T. I. SOV/62-59-5-3/40 TITLE: Investigation of Systems With Concentrated Hydrogen Peroxide (Izucheniye sistem a kontsentrirovannoy perekislyu vodoroda). Communication 18. Physico-chemical Properties of the Solid Phases of the System Sr(OH) 2-H202-H20 (Boobahcheniye 18. Fiziko-khimichookaya kharakteristika tverdykh faz siatemy Sr(OH),_H20 2-H20) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh naukp 1959j Nr 5, pp 774 - 780 (USSR) ABSTRACT: It was found in a previous work that in the temperature range from -10 to +500 the octahydrate of strontium peroxide SrO,.BH 20 and the mono- and diperhydrate of strontium peroxide SrO 2' 29 202 and SrO 2*H202 are solid phases in the system mentioned in the subtitle. In this work the compounds mentioned, which are hard- ly known or not known at all, ware investigated. A thermal ana- lysis, an investigation of heat resistivity of the compeunds, Card 1/3 and an X-ray investigation were carried out (Figs 11, 12, Tab-  Investigation of Systems With Concentrated Hydrogen BOV/62-59-5-3/40 Peroxide. Communication 18. Physico-chemioal Proper- ties of the Solid Phases of the System Sr(OH) 2-H202-H20 lea 5-7) and miorophotoe taken (Pigs 13,14). With thermal treatment the compounds decompose. The heating curves and de- composition diagrams of the individual compounds are 91hown in figures 1-8 and tables 1 and 2. Moreover, the strontium pirc.-VI-1- de compounds were dehydrogenated. Dehydrogenation was carried out in various ways: by drying in the exsiccator at 200, in the drying chamber under atmospheric pressure at 100 0, and '&.i vacuum at 500 (Analyses Jn Table 3)*-The following compounds could be found individually by these methods: SrO 21 SrO 2' BE20, SrO 2*H2021 and Sr02 .2H202 . Active oxygen was separated from the perhydrates with an exothermal effect UP to 75 0 and from strontium peroxide with an endothermal effect at 450 The water originating with dehydrogenation was gradually removed 01 at 80 and 100 . The hydrates and perhydrates investigated of Card 2/3 strontium dioxide change into it by dehydrogenation. The stron-  Investigation of Systems With Concentrated Hydrogen SOV/62-59-5-3/40 Peroxide. Communication 18. Physico-ohemical Proper- ties of the Solid Phases of the System Sr(OH),_H202-H20 tium peroxide compounds investigated, except for the diper- hydrate, are stable at room temperature. The compound SrO2.2H202 decomposes already at -50 (Diagram Fig 9). The X-ray and crys- tallo-optical inveatigations~Diagram Pig 10, Table 4) confirm the determination of the individual compounds of strontium per- oxidefound 'in the investigation of the system Sr(OH)2-11 202-H20. There are 14 figures, 7 tables, and 9 references, 2 of which are Soviet. ASSOCIATION: Institut obahchey-i neorganicheskoy khimii im. N. S. Kurnakova Akademii nauk SSSR ( Institute of General and Inorganic Che- mistry imeni H.S. Kurnakov of the Academy of Sciences, USSR) BUBMITTED: July 24, 1957 Card 3/3  S/062./6o/ooo/oi1/oo1/oi6 B013/B078 AUTHORS: Makarov, So Z.,ctm2LL~~ I., Stasevichl No Not Shorina, Ye. V. TITLE; Study of Systems With Concentrated Hydrogen Peroxide. Report 214 The Ternary Systom Cu(OH) 2-H202-H20 PERIODICAL: Izvebtiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1960, No. 11, PP. 1913 - 1920 TEXT: The formation of copper-peroxide compounds has been studied in. relation to the effect of hydrogen peroxide upon the active (eeg., ttblue") copper hydroxide. H20 2 of different concentrations which had been carefully purified by vacuum distillation and chemically pure cop- per hydroxide freshly prepared from CuSO 4* 5H2 0 were used as starting materials. The investigation was done by the conventional solubility method at -3 00, -200 , Ool and 200C. Results of the chemical analysis of liquid phases and of the residue were entered into the Gibbs tri- angle - CuO - H 20 - 0-502 act; for -300C Fig.1, Table 11 for -200C Card 113  Study of Systems With Concentrated Hydrogen S/062J60/000/011/ooi/M Peroxide. Report 21. The Ternary System B013/B078 C!U(dff) ~-H 0 -H 0 2 2 2 2 - 0 0 Fig.21 Table 21 for 0 C Fig.30 Table 31 for 20 C Fig*4p Table 4. A now compound with a high active oxygen content (CU02,H,02-H20) waa found besides the familiar copper oxide compound Cu026H2O. The now compound is formed in the liquid phase at an increased H202 concentration. The boundaries of the solid phases - ice, Cu(OH)20 Cuo 2%H20, and Cuo 2-H202-H20 are fairly easily determined by investigating the residue if one does not consider the*solubility of Cu(OH)2 in the liquid phase. To plot the complete isothermal lines of solubility$ the variations of solubility of Cu(OH)2 in the liquid phase at OOC and -200C were eyste-, matically investigated (Figs. 5 and 6, Tables 5 and 6). At OOC the solubility of Cu(OH)2 in water amounts to 0.23-10-4%. At the points of coexistence of two solid hases a considerable increase of solubility is observable. With Cu(04 + CU02-HO2 there are about 12.0-10-4% CuO Card 2/3 6  Study of Systems With Concentrated Hydrogen 8/062/60/000/011/001/016 Peroxide. Report 21. The Ternary System B013/BO78 Cu(OH) 2-H20 2-H2 0 and with CuO 2*H2 0 + Cuo 20 H202about 9-51-10-4% CuO are dissolved. I similar process is seen in the solubility diagram at -20 00: Cuo 2*H20 + Cuo 2*H20'- 8-76-10-4% CuO. There are 7 figures, 6 tableal and 6 reforenoest I-Boviet, ABBOCIATIM Institut obahchey i neorganicheskoy khimii im. N, Be Kurnakova Akademii nauk BOOR (Institute of General and-Inorganio Chemistry im*ni 3.,B. Xurnakov of tfie Aosdemy of Science@ USSR) BUBMITTEDi June 150 1959 Card 3/3  8716 4 S/062/60/ooo/012/001/020 B013/B055 AUTHORS: Makarov, S. Z., Staaevich, N. N., and Shorina, Ye. V. TITLE: Investigation of Systems With Concentrated Hydrogen Peroxide. Communication XXII. Thermal Analysis of Copper-peroxide Com- pounds PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1960, No. 12, pp. 2090-2095 TEXT: The present papar is a study of solid phases of the peroxide type found during the investigation of the ternary system Cu(011)2 - 11202 - H20. Thermal analysis and dehydration over phosphorus pentoxide showed that the heating prooeos is accompanied by the decomposition of these compounds. The H O,iabsorbed in the liquid phase acto as initiator of this decom oBition. The hia ng curves of Cu.02 (Fig. 1),Cu(OR)2 (Fig. 2), C110-1120 (Fig. 3~, and Cu02-H2O2 OH 20 (Fig. 4) wore taken with the aid of a Kurnakov recording pyrometer with differential recording at a heating rate of-6 deg/min. Of Card 1/3  8716h Investigation of Systems With Concentrated S/062/60/Cioo/012/001/020 1~ydrogen Peroxide. Communication XXII. Thermal B013/BO55 Analysis of Copper-peroxide Compounds the copper-peroxide compounds studied, anhydrous NO 2 which decomposes at 110 - 120 0C with formation of NO and 0 2 was found to be the most stable. From its behavior at thermal decomposition, Cul~ H20, which is less stable, may be considered not a hydrate of CuO 2, but a compound of Cu(OOH)(OH). Cuo 2.H202. R20, a perhydrate of the former copper peroxide, Cu(OOH)(OH)-H 202 is the least stable. It was obtained for the first time. This compound is valuable inasmuch as the presence of bound H 2 02' under certain dehydration conditions, enables the preparation of higixr-quality copper on a wide basis. The compound might also be used as active oxygen-containing catalyst. The changes in the chemical compositions during dehydration of CuO 2.H20 and CUO 2. If202 -H20 are illustrated in Figs. 5 and 6 respectively. By careful drying at low temperatures and using possible to obtain products of stable 0,, and 6-5% H20' which contain free small weighed portions of-5 9 it was composition: 81.6-'. Cuo, 11.90% active Cu02 (CUO2contains 83.26% CuO and Card 2/3  87164 Investigation of Systems With Concentrated j/062/60/000/012/001/020 Hydrogen Peroxide. Communication XXII. Thermal B013/BO55 AnalysiB of Copper-peroxide Compounds 16.74% active 0 2)' It was thus found that anhydrous Cu02 of satisfactory quality can be prepared by rapid drying in vacuo of CuQ,-11202-H20. The structure of the copper compound CuO 2 obtained by dehydrating CuO2 .11202OH20 was confirmed by Debye-Scherrer radiograms (Fig. 7). The X-ray data of Cu 203and CuO 2 are shown in Tables I and 2 respectively. A. A. Kanishcheva and A. N. Zimina took the X-ray spectra on the YPC-70 (URS-70) apparatus. There are 7 figures, 1 table, and 7 references: 2 Soviet, I French, and 4 German. ASSOCIATION: Institut obahohey i neorganicheskoy khimli im. N. S. Kurnakova Akademii nauk SSSR (Institute of General and Inorganic Chemistry imeni N. S. Kurnakov of the academy of Sciences USSR) SUBMITTED: June 15, 1959 Card 3/3  'ARVOLID, T.I.- STASMCHO N.14* Preparation and propeirties of oodium perborate mnohydmte. Izv.AN SSSR. Otd.khim.nauk no.lltl921-1924 N 162. (MIRA 15t,12) la Institut obshchey i neorganicheekoy khimii im. N.S. Kurnakova AN SM. (Sodium perborate)  ARNM I D, - Cand-Chem S . Disaertationt "Comparative Investigation of the Kinetics ol.' Changes in Fog and Light Sensitivity During the Developing Process of Photographic Emulsion." 1911010 All-Union Sci-Res Inst of Cinematography--NIKFI. 'VecherYgLya Mo"Va sum 71  ARNOOS)h T.%..S. C, A Tompersh" -randeave of the of ripsaliss is 114 bougmpkk ealwal" and al ik dsvsby~ 4 . Wy Absi. mant TUB. .3. Arnaid and A. A. ROV. & N4%k S,S.Sft.~ ", 12t3-1609M).-Tbe polot of View, &(xvrding to which the centers of pbotowasidwily.- which take part In the production of The centers of The latent' Imp, and the fog maters produced in the courm of the 2nd peamit oI tha pionfogrophic emuh*A. haiv the maw P Ilic-Aft nature and an imned autocathlYlk-Aft at that Pening stage, full dcvtj*nwnt being asertlys inatterofthe At miewr"tal attaining The sin of a Visible "develop rZ, Ineal crnI*j,11 is borive out by The sindlarky of the dapes g' of the curves of The (1) (as d., IN. (without sation of 1100 I as a function of The length. h. of the 20d 11 waing, am". cvna. candlilonsoldvArknoncet, (2),Doxx a, Meti- of the length, la,uldevelopnvent.at const. 4. and (3) tistoptlead., P.01 the is"Ce asalunctionof the length, &.0lexposurvat ronst.1jaw44. 7U 3curves are allsbuilaria shape to the CUM of growth of the size of it development center as a jurwtion of id. IU common mechanism of the processes of W ripening, of expooure, arA of devek4motent is redur. tin" of Ag* I"% by the constituents of the rellatin of the develow. Inumuch as the reducing agents an always In vest eoven. thew Procraws are kiottically of the Ist ottler.- and, consequently, the tirne r necessary lot the attainawas of a definite t1se of the inciallic As grain, Le. of a definite optical d.. must be related to the. als. itnip. by Mae/ d(1/1) - B/N. Linear plots of In, against I i riot dit. t ICVVVI Values Of Do or P EIVV for the AainlW t A values mn&g (rom 111.9 to 41.9 kcal./niole. E decrease# with Increasing dm of the center (Increasing optical d.) particularly at the star of 2nd A Injf, much Ito in flit dovelopment prorem, With hithly r1pened- entuislons, and high D. the Activation energy shows a tendency to increase with the slae of the developed endis. The autowalytirally serrkrated powth of a center if, linimd not only with the Increase of the IrMsew? factor. I.e. the lum-aw of the no. of the rrsailvc Ag I Ions, but also with an fitcrease of the catalytic activity of the center witt, Ito increasing slar. The fail of the catalytic aceMly of a center past a certain crit. bite it ftutvd to the plwncwwnA o(solarization and (fig insvrsjuu. N. Than -  ~ev.'-"'n 'r ,Ira e sfeg;i'C4 k'.4 ~ , , .Ck im-p 1,,  S/081/61/000/020/080/089 B140110 kUTHORs irnol-ld, To. _S_,_ TITLE: A study of the process of negative color film treatment PERIODICiLt Referativnyy shurnal. Xhimiya, no. 20, 1961, 389# abstract 20L428 (Tr. Vaes. n.-i. kinofotoin -ta, no. 29, 1959, 43-58) TEM i mode of treatment of a negative oolor film using an after- developer solution instead of washing after the development was worked out* In examining the after-dove 'lopaent process in salt solutions of inorganic acids and their mixtures in their quality as an optimal after-developer solution, a 0.21~ solution of sodium metabisulfite was chosen. The studied process of negative color film treatment is characterized by a high con- stan6y of the treatment oonoitions, which ensures a satisfactory re- produoibility of results. 5lbstraoter's notes Complete translation] Card 1/1