SCIENTIFIC ABSTRACT VILESOVA, M.S. - VILIKHER, M.M.

SOV/79-28-6-.2o/63 Investigation J.n the Field of the Synthasiq of X-Alkylbexamethylene Diaaine Derivatives and Their Polyconder-satioas. V. Some Problems Ccnc~rninr the Reaction Kinetics of the Redu,-'.tivjn Alky'Latica of Haxamet-hylene Diamine carry out the -,ompaxison with various alkylating compounds. The investigaiior, cf ihe rea~:tLut of the reduction alkylation of hexamethylen6 diaming with aldehydes and ketones at in- creased (Ioc- .. .1550 atmospheraj) as well a.,; at normal at- mospheri.~ pressure showed that thi3 reactilica appa-rently is of suctie-A rhars,,~tqr whi:,.h is limlited b-,y the diff,.:.zlon stage of the reavtllor, ccmpr,nent ~" solut'.,:n and ~,atalyat. It was shcwn that the reaciioa velocity dot!s n,,-t depend. on the con- centration, of the components and their c-.onversion in the reaction prv:.ass (Figs ! .. 5). 0,1 the cther hand it also considerably depez-&~i !:n the struct.).re of the alkylating al- dehyde or ketrn--. It wa13 found that the reactions of the redu.:tion alkylatit.,i --f hexamethy1ene at nurmal presjuxe and above 5~~ at=.6sphexas ab:.,olu~ta pzess-,.~x& axe of zar~'--',h order, and within the i-rtei- ral cf f -om 1, o tc, 4o ata,)spq,_%iqa they are of first ordEr; thi6 f4c"_ _*an to explained by the ir.-- compl6te zucticr. sat-urat--cn. -,f the catalyst within. this pres- sure intezval. It was :hown that the above mentioaed reaction Card 2/3 velcooity is the orte hand d.~pandsnt cna th,~ relative polari-  SOV/79-26-6-2o/63 Investigation in the Field of the Synthesis of 11-Alkylhexamethylene Diamine Derivatives and Their Polycondensations. V. Some Problems Concerning the Reaction Kinetics of the Reduction Alkylation of Hexamdhylene Diamine ty of the alkylating compounds and on the other hand by the steric hindrances caused by the structure. The second fac- tor plays a Ale only in the case of ramified carbonyl com- pounds. There are 8 figuresy 3 tables, and 3 references, 2 of which are Soviet. SUBMITTED: May 25, 1957 1. Alkyl derivatives--Synthesis 2. Methyl hydrazines--Chemical reactions Card 3/3  KIABANSKIY. A.L.; MMOVA, H.S. S~ruthesis and plycoudensation o1 I-alkyl derivatives of hexamethyl- enediarAne. Part It Synthesis of N,fkalallcil derivatives of hexamethylenediamine, Zhur. ob. ktdm6 28 no.'4tlO66-1072 Ap 158. (Nexanediamine) (Alkylation) (Kim 11s5)  V, " / '!,,- - -PI ) 1- 7 ~ " I t " ") I k /, I ICUMAMIT,, A.L.; VILZMA. H.S. Synthesis and polycondensation of N-aliql derivatives of hexa- methylensaiamine. Part 2t Synthesis of N-monoallWl derivatives of hexamethylonodlaxlne. Mmr. ob. khlm. 28 no.4tlO73-1075 Ap 158. (Hexanedimmine) (Nlu 11: 5)  l'olyme--s' jo:!-2 B-3,0P,4,395  VILESOV, N.G. [Viliesov, N.H.]; LEKAYE, V.M. (Lekae, V.M.1; KUMETSOV, Yu-'r. ~Kuznietsov, M.P.) Carbon disulfide content of sulfur dioxide and methane. KhIm.pM m. [Ukr.] no.1:5-6 Ja-Mr 164. (MIRA 17:3)  VILESOV, Ye.N.) MAKSIY/)V, Y,~.V. Nikolai Nikitich Pallgov; on his 75th birthday. Izv. Vses. geog. ob-va 95 no.5r463-465 S--O 163. (YJqA 10:12)  ."! i I v , -!;r, , , :,.!I I ~. ".. ~, " ~: ~ , . ,',D unt, t':-e3 e7,7., - -L! -:y'~ F` '- . dr.~urava : ~- -. - . ' A J~ - a .% - I ~ f . M.4 j-, I -, t e r ~, ! v , (!,~) vf.  V1 L E YS 1-5- USSR/General Problems of Pathology. Metabolisn U-5 ,'.bs Jour : Rof Zhur Biol., No 13) 1958p r1o 61090 .I'Uthor : "lilcisis Inst Title !Mic Effect of Diet on the Growth of Cancer Orig Pub :Sveikatos aPsauga,, 1957) No 1~ 42-46 ,",bstract:Mice (4270) 12 days before they were innoculated Ehrlich's carcinom,, and following innoculation, as long as they lived, were kept on varied dLiet. Determination was made of: positive innoculation, the length of the latnet 'period, the vigor of the tumor's growth, the length of themices life) the weight of the tumors. It was observed that the growth of the timor was retarded when the calloric intake was decreased, or Xnen the diet was rich in vegetable proteins and fats, as well as in lecithin. The 3rowth of the tumors was noticably retarded when the nice were p1cce," on an autoclaved diet with vitamin i, added. la active growth of adenocarcinom was observed when the nice were fed foods rich in aninal fats, cholesterine, Ca;A 1/2  I US';R/General Problumn of Pathology. I'latabolism U-5 Abs Jour : Ref Zhur - Biol., No 13, 15~58, No 61090 carbohydrates, K2CO YNO"CO3,. KCI, vitanin B-1, B couplex and alkaline foods. Card *. 2/2 -  laghas, V. and ViLL., LIIAEj- ~1- flAnaphyluctic reaction cWring red-,,C.ion with 1-ri- cyclf,- blood circulation," Trudy med. fak. Kaunassk. jjt~L, V01. 1, LjI--'-3. Jn Lit'."uarian, R,isslarj A: U-28,88) Leto..jii Zhurnailnyl.,-. State-1, No. 1, 191.9. 0  USSR/General Pr3ble-r-is I-f Path-:)lo[~7 - Tw.-._)rs. MctabDlisu. U. Abs J~Dur Ref Zhur - Biol., No 2, 1959, 8754 Aut!'. -, r vileysbis, A.Yu. Inst Kaunas Medical Institute Title Alteratiin of the Malir_mancy FactDr in Twi-irs under the Influence of Food. Ori[.r, Pub Tr. Kaumnssk. mod. ill-ta; 1957, 4, 97-104 Abstract After the intraperitoneal iiijection of 1000 Eirlich ascites twyjr cells into :.,icL,, n:) tur.Lors develop in the rdce; a rwch larGer iwber :)f ttu.iDr cells is iiecded fDr the successful trai1spla;itati!:)n- If 1000 cells are injec- ted. Li an acall1ilar filtratu )f this tumir, the incidence of successful ' 'takes" am:)unts ti 5016. If the ti!.-.v)r cc:lls are taken frx,.i uice which have beQn ~;iven aut)claved fo~)d, the incidence of "takes" of the tmior decreases, and if Card 1/2 25 -  USSR/General Pr7)blems of PathjlDgy - Turiors. Metab-Aisn. U. Abs Jour Ref Z!,ur - Bi;-,l. I N,j 2: 1959) 8754 the tu,,iDr naterial is taken fr)i-.i -Ace which have received PIaHCO3in the f:),)d the Licidence )f "takes" is (;reater than In the cintr3l. The character if the diet ~jf the recipient -.iice exerts a similar effect. The character )f the diet exerts ao effect -)n the turi:)r cells als.j and Dn the nali(!~iancy fact)r which may be is.)IrLted fr)n theu. -- A.Ya. Sinay Card 2/2  VILEYVIS, Yu.Yu., Cand Tech (dis ) I'- ne imental -0,0 and theoretical StIldy Or Lhe process of' -drying ha*-1 in t~ 11 stack,rin a woc 'i!d meadow zone." Pos, 1956, 16 pi with granhs (Min of Agr IJ.;.-)R. 11c.:3 lnrt rX Mechanization arid Electrification of Agr. Chair of "Machines for the Meenariization of Animal Husbandry") 130 co~,ies (KL, 2e-58, 105) - 27 -  APOSTOL, A.; TUKIIA, I,[Toukila, Ij- DVMITUSKU, IN [Doumitraskou, Nj- SAIDZHANU. A. (Saldjanou. A.J; YILBZHMKIY. K. [Vileginsky. Kj (Bucharest) Now data on pathogenesis of pulmonary tuberculous in connection with bronchoglandular tuberculosis [with summary in French]. Probl.tub. 35 no.5:95-100 157. (MIRA 10:11) (TUBERCUWSIS. PUIXONARY. pathol. pathogen. of tuberculous In connection with broncho-glandular tuberc.)  VILFAN, Bostjan, dipl. ing. el. Choosing parameters for magnetic memory systems with linear aelez:tion of magnetic cores. Automatika 5 no.2:122-12'7 '64. 1. Joz,-f Stefan Nuclear Institute, Ljubljana.  VILFAN,, Marija Problema of research are problems of society, Automatika 1+ no.2:8748 263. 1. Clan Izvronega odbora glavnega odbora SUL Slovenije.  V ILFAN, S. --'w'. The origin of the term opasilo. p.-237-. (Slovenaki Etnograf. Vol. 9, 1956, Yugoslavia) (11 SO: Monthly List of East European Accessions (EEAL) L,O, Vol. 6, no. 7, July 1957, Uncl.  VTLIFLUS',!, R. T.: Villflush, R. T.: "An attempt to synthesize chemically and ther- mally stable glass and a study of its properities." Ydn Higher Education USSR. Belorussian Polytechnic Inst Jxieni I.: V. Stalin. Yansx, 1956. (Dissertion for the Degree of Candidate in Technical Science) SO: Kni7hnaga IAt.QPj-qI# No 27, 1956.- Yvscow. Pages 94-109; 111.  f-j.A., inzh. (Odessa); NUDELIMAN, Ya.L., doktor fiz.-matem. nauk, pro't. (Odessa) Stability of rectilinear rods with elastic longitud:nil connections. Isol. po teor. sooruzh. no.13:183-187 164. (14IRA 18:2)  VILGELMI; Z.~ BRUNSHO R., DOIMWSKIY TS. "New Nuclear Reactions Produced by Fast Neutrons in Tin" Byull. Polskoy Adad. Kauk. Otd. ins No 3-4. 1953,, pp lol,',D4 Reactions Sn118 (n,p)ln"8and SJ16 (n,p) In'l6from irradiation by fast neu- trons were studied. According to the nuclear shell model,, the cross sections of such reactiopq should 6be below average. Authors compared their results with those of F00(npVj=r- known from literature. The obtained cross sections were accurate within 20%. (RZhFiz., No 11., 1954) so: w-33-187, 8 Mar 55  BOBROVSKI, Lekh [BobrowskJ- IEzh],~ VILIGELINI,, Zdzislay (Wilhelmi, Zdzislawl; - GURSKI, Eugenyuah tGorald, gilje-iliiiWzj; AR-TSIAOVSKI, Andzhe7 (Marcinkowski., Andrzej]; SOLTAN, Andzhey (Soltan., Andrzej]; YASKUIA, Maryan (,Taekulas, Marian] lach.. the pressurized electrostatic accelerator. Ihikleonika 8 no.1:1-28 163. le InBtitut yadernikh isalklovaniy, Varshava 9 1 Varshavskiy universitet, Varshava.  IP' Vil 'I; UIZ, The S, o f r6.3 c i i, i,ki I-a 1 2 -?] :r !nlyV f izlki  400600900004066 00 00600000000000000 O'be 010. v I$ Is 11 16 If 1.0 *A. Doi "Omew j, I A-A, a As r Is I I w I i I 'A 1- 1 A-1 00 A 00 A OON :0 0 od 0 Cc 00 .00 Quand"vis meommurvoilivoto and ~piwa ad we". W~"M' V- N- 1'64PIMOV- PlIM'skst"IskYA PFO-- IT.-NO-4. '13 -9(106W -M*11~7A.717 %t,t h,.d. 4' ~~trs f1cmi the rellut~ lwklwy 11141"liv (,If th, 60 941tillift 1"llplaw 411(imirta 4 11W disks. --f tilwir &at in mult vk,s~l- 00 are sirwilb"l, W. A 001 V 00 A rf 0 0 0 0 0 le 0 0-4-0 U.) we my apow too oleo t1if I I d 0 1 W.,,s.6 idTALLUOtGK&LLITIBAIUQRCLASSWKAT" A=-.- KIM it All, at a It a an If x kill A 1 14 4" 0 a i ~9 0 00*000041110*0010*90 : 0 0 0 0 IS 0 0 0 0 0 0 0 0 a 0 0 4111 -00 .00 60 0 =041 coo zoo coo xoo Zee 990 400 too !100 000  VILGUS, Emil Progressive design of tools for toothing in the Vitkcrricke zelezarny Klementa Gottwalda National Enterprise. Stroj vyr 3.1 no.7:334-337 163. 1. Vitkovicke zelezarny Klementa Gottvalda, n.p., Ostrava.  VILGUS, Emil A now type of hobbing machine for mak-In worm gears with a great number of travels.' Strojirenstri 13 no.4:211 163. 1. Vitkovicke zelezarny Klementa Gottvalda, n.p., Ostitva.  VILGUS, Idroslav, inz. Sources of labor productivity growth in auxiliary services of metallurgic plants. Frace mzda 10 no.l2s548-550 D 162. 1. Nova hut Klementa Gottvalda, Ostrava - Kuncice.  -I .,11. li- ~, I - ;~,, . ota,,-,l ~j . I rlrjdhin!~ f,,Lrola Ath -.Z- -I. 'I , I - " 'Vol. 2, *:c. 1C, Prague. `0: Lonthly List, c,,f East, ,*~ccesz;icms (EI.AL) LC, Vol ~-4, ';o. C', June 1,7ncl.  MREK, Frantiriek, inz.; VILGTJS, Miroolav, inz.; VDJTEK, Bohumil, inz. Development of' the orgnnization of mnintenanco nnd repaIr service in metallurgic enterprises. Podnik organizace 16 no.11:493-496 N 162. 1. Nova hut Klementa Gottwaldat Ootrava-Kuncice.  Oxygen Enrichiml 111ULIMS-lu pilda-w-i"IfuAlsliku do kiiplomy. (CuT.11.) M pr'- 17- Mial- Slivirenalt; l,'v 2 vo. M-7WF Efficiellcy 0f% of twicluptnt; eqW, D 1e! '14 7"  inz.; MAREK, Frantiselt, inz. Labor productivity measuretient in the metallurgic equipment maintenance service. Prace mzda U no.4:187-188 Ap 163. 1. Nova hut Klementa Gottwalda, n.p., Ostrava - Kuncice.  fi V//_ t(; O's ELI USSR/Soil Science - Physical and Chemical Properties of Soils. J-2 Abs Jour Ref Zhur - Biol., No 2, 1958, 5756 Author Inst Institute of Socialist Agriculture of the AcadmW of Scien- ces BSSR. Title The Volumetric A=onian-Formaldehyde Method of Determining the Metabolic Absorption of Soils. Orig Pub Sb. nauchn. tr. In-t sots. 9. kb. Akas Nauk BOM, 1936, No 4, 137-142 Abstract The method developed by the author consists in taking a quantity of soil with the carbonatesremoved, extracting the soil electrolytes by using distilled viter, and mea- suring them. Using an 0-5 N. ammonium acetate solution the various exchange cations and the total absorbed bases are extracted and measured (in separate portions of Card 1/2  -S E C-14- ben Of Ammonia, VOWI 1-0.6.4 MP.-Idd. d~po,'17. "6'. aad In 'I olic Solis of White Russian Tyel'otoss a) S. S. R. 1. P. Vll'gusevkh. Sbarmlik Nahzh. sos";J); SeT WkTjos. ' Mad; Nauk Beloruss. rvd , 1~ S.S. R-. 1953, No. 2, 7"7; Releml, 2hur.. Biol. 1953, No. 32W,-Lab. cxpt3. were performed with 0.1-0.0N Cl- salt solus, atpl-154-6.0. It was shown that the rate of In-4 teraction between the turf *oU and soins. of N114, P. and Ca salts Is proportional to tile cationle conen. of these suits, Well decomposed lowland turf wAl has a far greater vol. and cutlarde absorption c4tpacity than the mineral types of wAls, Under ouine expti. conditions of p1[, type, and copens,; of salt soins, the rale of cationk, absorption for tach of the: toils tested depends upon the vol. exchang"Apecift, physi- tojciern. properties of the -oil, the intensity of its cu Elvation . and the degree of preexisting absorbed cations, KHj* and K+, absorbed by the turf. Min" type of soils an easily and furgely eluted with HtO and weak solus. of AcOff or  VILIGUSIVICH,I.P., kandidet khimicheekikh nauk Xffect of peat on variations In the exchange capacity of 90115. Izv. AN BSSR no-1:10-115 J&-F'55. (MIRA 8:10) (Pont) (soil physics)  V-10milliums -AS PROCSISIS AND psoprellts .01, low 110,41 4: r4 dh 7L F I:t j 747 ?'$Q---AM 4W A-- J, 00 R. T. 00 001 es zoo Joe Zoo g4b 0 NOTALLONGOCAL UVI*ATWI CLAWOOKATIOM IS" swelav. mw II Sefton% T- Islaeo .&. &'v za Go S 6 AM I I oe 0 0 0 1 W u 9 Aw 40 r a 4"i 7" "MOO I SO I '00 too  VILICICU DaTPr-U,-Jnz.; GAMS, Marta, inz.; FILAJDIC, Mirko, dr inz. Determination of copper, iron, and phosphorus in the soybean oil, and influence of various technological processes on their quantity. Kem ind 12 no.3:136-140 Mr 163. 1. Laboratorij za analizu zivotnih namirnica, Biotehnoloski odjel, Tehnoloski fakultet, Zagreb. 2. Clan Redakcionog odbora, "Kemija u industrijil (for Filajdic).  G 2 A F FS15TE-R; , Andn'tic y t! I h el:~ 7. 1 Thr! Ap! szka 7%ti i Ze~' c of neu i ons, 6 VA-t I 7,m ha,~,  BARANOVA,N.M.- IASS, Yu.B.; BOGDANOVICH, V.V.; VILIGOS Ye.F.; GRAZOANTSEV, I.I.; GRYAZVOV, V.I.; r"IZON, V.M.; !,'.OLYAVKO, G.I.; MOROKHOVSKAYA, M.S.; NOSOVSKrY, M.F.; ROE10DANOVA, M.P.; SOSNOV, A.A.; SHEVCHENKO, Ye.S.; USUNKO, I.S.; Prinimali uchantiye: BONDARI, A.G., inzh.-gidrogeolog; SACHENKO-SAKUN, V.M., st. topograf; SHYLUKHINA, A.V.~ cit. teklmik-geolog; STOPIK, M.A., nt. teklinik-goolog; R~XJTOVSKAYA, L.A., tekhnik-, BETEKHTIN, A.G., akademik, glav. red.[deceased] [Nik.opoll manganese-are basin] Nikopollskii margantsevo- rudnyi bassein. Moskva, Izd-vo "Nedra," 1964. 534 p. (MIRA l7t6) Institut geologicheskikh nauk AN Ukr.SSR (for Baranova, Molyavko, Romodanova, Usenko). 2. Nauchno- issledovatellskiy institut geologii Dnepropetrovskogo gosudarstvennogo universiteta (for Gryaznov, No8ovskiy). 3. Trest "Dneprogeologiyall (for Bogdanovich, Kabrizon). 4. Trest "KiYevFROlogi-yall (for Bass). 5. Trest I'llikopoll- Marganets" (for Villgos, Grazhdantsev, Sosnov).  VMHELM, V, Curves in Minkowski space. p. 283 (CASOPIS PRO PESTOVANI MATMTIKY) Vol. 82, no. 3, July 1957, Praha., Czechoslovakia SO: Monthly Index of East European Accessions (EKAI) LC, Vol. 7, No. 3, March 1958  VIUIELM, V. Karel Rychlik' s Uvod do (Introduction to the An a boock review. icke theorie mnohoclenu s realn,,mi koeficier. P. 370 (CASOPIS PRO PESTOVANI MATEMATIKY) Vol. 82, no. 3, July 1957, Praha., Czechoslovakia SO: Monthly Index of East European Accessions (EEAI) LC, Vdl. 7, No. 3, March 1958  VILIGEW, Vatslav [Vilhelm, Vaclav) (Praha 2, Na Bojisti 3) A remark on complete lattices represented by sets. Cas pro pos mat 87 no.1:76-80 162i 1. Ceske vysoke uceni technicke.  7-7 g -, -- ~.- -- -. -_ Z=~-=- --- --- - -" i -,, '. -- --, -5-.- i ~I . ot -If I : .1 , . I..  - . . 1 1 ~ I r ) ~ I , -~ C ! p " ,,, 1--- '44 1 ~ - '! ~ -\,., I --- ~ . , . ~ I ~ I I   VILHZIX, Vaclav (Praha) -'! r--] ~ --I Joruan - Ho-lder theorem in lattices without finite chain condition Cwi th summary In Jkglishl. Chokh,set.shur. 4 ao.l-.29-49 Mr 154. (MLRA, 7:6) (Lattice theory)  Vllhelm#_VdclAV and Vitnef Oestmir. Continuity In metric ~'cer- T~ 'pis V&t. MU. 77,14 r-1 73 (1952). (Czech) f'his is a partly exprititory article. A novelty is the intro- duction r 'Cauchy continuity: a mapping f of a metric space X with n.etric p onto a metric space Y with metric a is mid to be Cauchy continuou! if Jf(x.)j.%.j is a Cauchy sequence in Y whenever is a Cauchy sequence in X. It is noted that uniform continuity implies Cauchy continuity which implies continuity. A large number of theorems are proved, of which the following may be taken as typical. The mapping f is uniformly continuous if and only if the condl- tions A.BCX and P(A,B)-O imply oU(A)j(B)]-O. Elegant proofs are given, for metric spaces, of Urysohn's lemma and Urysohn's extension theorem. It is shown that Caachy continuity and uniform continuity can be preserved in applying Urysohn's extension theorem. E. iretviff.  90A too 00 .004 sea g0& ood sea 4141o 004 slow *0 al ew; Swe 11 6j Al Ad All il A`3 A'a 0 too", go aft 01#wl#f-tl .so co .00 C -00 mandm Plow" abellined. F. l M M _#d6 21. w ' o w 2 M am JTZ M :, nvo O 0 w PRO (if 0 0- 1; (3) (1) 41)34A.NUS ZID(! NWAea 13D 90 340L~ 4a 3D X86 N '75 (5) (1) SO a., Nor "M ' i" 0 c., lf.0 k`u hit 4* I lit 7 * too - w w m wU9 02tred. Optimum readla wrr~ obtaiava w" (4) or (a) on a Umpla with Me* a Zo andenvat fmm a cya" bath. CW. Am. (c) wee zoo zoo Alit-ILA w1k U II AV 00 got a K N 91 WIN Now I'm 10 a "OT404060 1660690966 sees Go** 0 0 4 wS, "so -00 1=0 :eggs its no* 0 It 14 11 a a .1 9 0-0 0 0- 0 0 a *ease sees so*!  VILIAMOVITSCH, E. A. 0. SKIRSTIMONSKI, Trans. State Inst. Appl. Chem. USSR, 1934, No. 19, 86-95  a 00 so 00 4 go 1 *0 004 004 soil Pat 10 11 a u w Is Is u a w a A I I ft-L n m x a a a is 0 a p a a 0 4 a a . k . i t;. f. ; b I & . ! . ! , 71-10 L"IRITV" CWIWICAllft 1414vi "if Owf 19;0 40 000000900*00000000 .00 000 *00 000 see we* Ago@ we* see see "Do  W18-0 4-0 A 0-6-0 A 0*00*00*0* 6 c 0 w 0 4 x $I cli At IS AIR r4oval 1 -.4toe'at, "!S~ 004 004 004 004 008 son 00. 00 *02 .00 *01 Poo coo ~j" Poo Fee A ee* *e. I ;'" too too 00. 00 .700 JIM" 00. 00. 0 r09 one limilleold 4xv 11141"ad all 9 d J as J, .1 4' virm 00 0 0  Mirko, dr, d p1. iri7. k#tm.; Pavorka, dip]. lyz. FKART, Nada, 'Li3nnicar Selection of the most suitaile method for detf-rmin-Ing ni~vpl in hydrogenated lipide food. Kem ind 1-3 .7 1 . 1. Faclilty of Technolf- , liotachnological S3ctIon, Zagreb.  T T 1 01 -5 Category U (D~ C C'U K Abs Jour Ref Zhur Fizika, No 1, 1957, No 2343 Author Yakovlev, I.A., Vilichkina, T..S-, Mikheyeva, L.F. Inst Moscow State UrAVe_r_sT_T_y_,UWR- Title O~alescence Phenomel:,.e.,a upf.-a fbase Trarisforiaation :Lri juartz Orig Pub Dokl. AN SSSR., 1956, 107, No 5, 6,75-677 Abstract The temperatuxe deperdeoce of the intensity of molecular scattering of light in quartz was studied iD. the 15--600" ibterval. A beam of lightfrom an Hg lamp propagated alorg one of the nxIs ef a crystal 16cated In an oven. The vertical temperature grad-teat d-1.1 not exceed 0.01 degree/:mm, amd the horizon- 0 tal gradient, along the light beam was 0,03 deg/mm. The cycle 150 --- :~, 6000 -> 15 lasted 72 hours. Neax~ thecA ~:! P phase -transition pot,:tt (573G ) the temperature changed at a rate of approximately 0.3 degree per hour, CA the curve ITA20 f(t), where I Js the inteasity of the scattered polarized light, there is a linear section in the 15--5000 imterval, with a sharp X-sh~pe& maximum at the phase transition temperature. La addition, when one of the e-,,d faces of the crystal reaches the phase-transformation temperature, there occurs at that end face a band 4of optical inhamogeneity, which scatters light strow3ly (approximate- ly 1.4 X 10 more than at 2(P), a-rid which is similar to the fog band, and which Card 1/2  Category USSR/optics - J-IIYSI'cql cpt-1-cs Abe Jour Ref Zbar - Fizika, No 2.; 1957,No 2343 K-5 shifts tovard the other en! w-JJth rising temperature. This band, 1-3 mm thick, cuts all the tTansverse sections of the crystal ard is surrounded on both sides with trw-6pwent pr-rtioas of the crystal., correarmdlng to the -YN and/'- phases., Ar, Investigratim. of tte. dependence of I on shown t t the-,, dimensions of t1v ~~ptical irregularities are less thar. >~ (the 1/-\ talaw holds). All the phencme-na sx#~- reversible and can be repreduced many times. Card 2/2  VMIIIIC I A. More on the classification of tunny fishing boars. p. 201. MORSKO RIBARSTVO. (UdruzenJe morskog ribarstva Jugoslvije) Rijeka. V01. 7. No. 8. Aug, 1955. SOURCE: East European Acce3sions List, (EEAL) Library of Congress, Vol. 5, No. 8. Aug. 1956.  VILICIC, A. Are ships the cause of poor fishing? P. 56. MORSKO RIBA- RSTVO. (Udruzenje morskog ribarstva Jugoslavije) Rijeka. Vol, 8, no. 2. Feb. 1956. SOURCE: East European Accessions List, (EEAL)~ Library of Congress Vol. 5.' no.11, Nov., 191:16.  VILICICt A. VILTIGIC, A. The econoi i(! asprict of trhwllrit~. 1). 20.1. Vol. 8. '4o. 7, July 1?5(. FG(SVIC) RIU~RSTIG AGRIGULTUIRE Rijeka, Yugoslhvia So: ast Eurof.ABan Acces:3ion, Vol. 6, N'o. 2, Februt;ry 19r7  ILICIC, A . Tuna fishirl,r-, -ill 1954. ~-) - 'I I - MORSKO RIDiiOTIO) Rijeka, Vol. 7, no. 3, rlar- 1955. CX!: Monthly List of European ,,ccessions, (EEAL), LC, Vol. 4, ro. 10, -ct. 1955, Uncl.  " . , -- -I , ~; -1 Li! - i -, ;i . Turin flshin,- in 4he tdria~dc lea; odr ~~..rmy -'sheries -'!, 1J"3- r 5 IiI L -1 . . " . ;~,-,,, .'-,L. ~, i io . 1/2 , 1954 , -ic4 r,ra ~ , , 'L' u,-os lavia ) CD: i-Ionthly lAt of 1;ast A!-,uro.,)ean Lcce,ssiO-,-I L., Vol. 4, ..,). 1 Jan. 1955, Uncl.  vutdra, *Tuna fishing in the adriatic Sea; this year's season% p. 1 (Morsko Ribarstvo, Val. 5. no. 1/2, 1933, Zagreb) Ust Xurop"n Vol. 2, Np 9 SO; Month List of B=Xk= Accessions,/Library of Congress, Septomber 1953, Uncl.  FILAJDIC, Mirko. dr. ing. (Zagreb); VILICIC, Davorka, ing. (7-agreb): "TAHO- Adamvic,, Vlasta. (Zagreb) Organoleptic evaluation of lipide fcodstuffs. Kem ind 11 no-1:3-11, .;--t '42- 1. ZjVneI I.- T)Oznavanje i analizu 74votnih namirnica Tehnolos"7op, fakulteta Sveucilista u Zagrebu, Zagreb. 2. Clan Redakcionog odbora, "Keiaija u inlustrijill (for Filajrlic).  lj"'acii.. ~.'ULUTATWI OF RnUFMATCRS. Bounjakovic, il icic, 71. atid 5IWov.1c, B. (Forsche Go iota Ingenieurw.p .-oT Jup 1. V.U.I. Forexhunt-,skeft 432,5-26; al-str. i;~Chez. Abs'tr., 1952 volo 46, 3010), Heat exchangers can 1e ci~aracterized I*a-atio Q/(tl-t2) of the heat Q trananitted. frcr-, one fluid to the other and the difference in temperature tj-t2 of 'Lot.. fluids "--e~ore tLey enter the a..aratuB. The characteristic Odepends on t..e construction and runner of workirg (flow velocity, counterfUm. para-lel flow, etc.); it can be calculated for a co:.-.bination of heat exchangers if it is known for each of them. Tan referencea. C.Aa  swam% at O&Zif Cf thp UA toint-fa, 1951. WIM cop be W brAwfen difff-4" the f it-" t -I I twl 10 va"lilive of IIWW I! f..r 1k fLj%Vq% two fidids. . ic. are. I'l Ilow. t'a" of I %him V ( tion ween of the f h"t ti,id*. Owt the t tyl- Cl. 11%U111*4 of,di fiow)- eftlell "'Unt.'r tu 0,, to r be v -11. beat ese ics. tion Ad Of bl-lf Ilvdi  YILICKY, Jiri, NOr WAKWQ'11-1"Ulwik'y~~-~~.e'-- - Recurtences of eye diseases in dependence of weather changes. Cesk. ofth. 11 no-4-5:312-322 1955 1. Statni lecebna pro tuberkulosu v Novem Smokovict ocni odd. Primar KtMr J.Telicky (1U. diseases inflams.. intraocular. chronic. recur., off. of weather changes) (CLIPATZ Weather changes, off. on recur. of chronic intraocular Inf lam. )  VILIKANOVA, T.I. - P ------S;-Zn9 -flow and special features of it@ formation in the northern part of the Surap"n territory of the U.S.S.R. Trudy TSIP no.54,- '7&99 '57. (Kim 100) (Russia, Northern-Stream measurements)  0 0 f41 I I I o 0 o 0 0 0 0 0 0 a a 0 0 0 00 a I I 1 0 - V~ - "' " - sW -~ 1 t " o 0 0 0 ? o 0 o O A , A L 4 j n A U of m O'S a. # : 4 L-1 A -A--j-L J. P a Y I I A Y I I a Uio I ' 1~1 It 0, is it go 4! 00 00 Uidti*tkln of 11411613a boot voliption 6"4 boot Wilate in .00 distilleries, V. daj ). Ott - sim. Ab4d. Chow Z0411 .00 t ! 4.-Tbe uldimatiovi of sugar beef& pf"Mi") 00 a to'. dIfficulliet;Iif. (quin(al) is( sugar bert pt(Ave"I 111.71.Wair, .00 cause the vroody tume caused flogging of the app.; 1 -1. f l f it !Lh(m,t %I ing o -d them yielded 5.bl.ofak. Its the hand ~llwrutg clay cau4ed diffwWtk-*; I q of thew yorlibil 40 o z caused diffmdtift by tingling the steam cmAcf anti in 9 1 i ld d 4 B t k f e e . . a . tet ops y -nism.; I q. yielded 6.3 1. o ltowh 2 1 06 . if ate. per a.-. foots. 3. zoo zoo go see ~ MITALLUNGKAL LITIRATUNN CLASSWICATION Too $4jj#j C.. 0" I -11 -j I -4)(~ 4 00' ; U I V~ An A I a rw 0 '1 a At 01 1 It a K K aIt Of ' ; 013 0 * * * 0 0 0 0 46 0 0 0 0 0 0 0 0 0 Cs 0 0 0 0 0 a a :1 i 0 0 0 0 0 0 0 00 09 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 0 * 06 0 0 0  4v --o a**#* 0 0 #- ou u 1) 4 1) '1 11 14 tt U 11 11V A I A..l I ~X-. J-- A- L a ~x F Q x I v W. -A --I 00 4 so mw diftweltioll Is &A i'Wss&4 00 H O~tTbc OmPhl, Of the to, cm, 1% air" am", d = ftwo 1~ml liffectinia the bl"lPh. 00 #,,1), of If 00 43 j Z; 00 06 00 00 00 IF A 0 - I L A m9T&LL&ORGKAL LITCRATUNt CLASSWKATION u a All so &I pf fp 11 WIN KUM Iteg 09: 0 o 0 0 000 0 0 0 0 :10 0 Soo 00 000000000 e! ~g!d 0 0 4 0 a 0 0 0 0 -5 0 0 0 SA -J* 0 - 0 * # # f 0 a 0 6 0 0 6 0 a )1 h jo it a )9' a s' li I] m a is IP 16 .4 4, at 4: ii; a at* I AA W CC SIP Etiv jj f a i _s -go c -00 ape" so., IIW*rj-um Vinasm frLmn.36 disfilp4" an4 poutwo with OW-W- ibe stork4point of the c%murr. at the vinaws. A. P.-C. -00 '00 zoo -00 so Zee too CZ- COO n 'xAn' %mod 0 goo 0000 00 900 0 0 q * o 0 9 0 000 e  Ole 0 0 * 0 0 -0-4-0-0-6-w-g-W of! 00 00 W.-MOVIIIN'" 000 all uUms aduliff4fifullue've A .1.1 A~ 1 0 -AO .00 A sh" pg;."Zw on". Vkhv viu- 00 3*1"617 ", W-9(10*).-Okwrpbr with -00 00 g UK W pA%,g*d--. 00 00 00 00 so so 004 00, 00 00 ire " tolaso -to MOT doe 4m:0910 Ul; 0 00040,0004094a, 0:;; oo:::i::: 00 000*00000000 : .00 ~00 .00 .00 goo -00 9100 '00 goo 400 goo 1200 boo tjoo '00 A 0 .in, too &w-am tp%~ is. Ire An I I a ad 0 a 9 do "Put 006000600000000060, 000000000900*000*0  0 * o o fit 0 0 V.,- ql*ll all t p #1 it u it 14 it 0 A, u1) kit 0, IN 6. so* A a L-A N q. pg tg 4 Igo 0: a 1, 1 "bog *mew, Its o mies, sow 0 If * 1,0 ilt lro#4oAm r 40 0 a UJ&v-VWk"vV"- j,m. .4laoisif &nd % -- 4Yulh4Plk' X0111 M ;2(lVj4) 00 . . '4"j. zr""MA4 10, obtalactl from C&MIPaSnk de PAchutw w ummult"k fcw j. 1. !iumon conmtwWkm. by ho"Wipal distil , the Ulowind t", - AcH 0.08, M*wCO purititts wwa fousid. GA and too- -r(lit 3.7%. After rrPmtc4 kwic'MR1 dism- tbv sk- !tul contaltud 1% loo-proU. tiven ubm the boo offmalle- *0 4 nwat of dists. itipp. &Ad depliks"ator was Used. Can- Co dad Joe-PrOM a- M & 00 w,&*# for h Tv"lont smaly" 00 00 00 .00 -00 41 f6cl UN, K wfffATv.l it Alur-k &fm. It. .1". 6 600-0 Os 0 0 0 0 0 0 0 ro- 0, goes* o 0 o o see *go,*, -07,00 -1*6 44' 0 0 94 0 0 a 0 * 0 0 0 All .00 -00 .00  . , ~% ; -1 1711-1-- 1~_. I ~ . ~ ," ~ - , ;.M. ~. - . - . I .-- VILMTMN, M. 1. - Fruiting of pine in northern Karelia. Trudy Xar.fil. AS SSSR no.16:5-18 159. (MIRA 13:4) (Karelia--Pine)  USSR/Forestry - Forest Management. K-4 Abs Jour : Ref Zhur - Biol., 140 5, 1958, 20135 Author : Kishchenko.. T.P-,Yjjjb_yncn., M.I. Inst : - Title : Seed Sources for Clearin'-s in Spruce Forests. Orig Pub : Tr. Karellsk. fil6 AN SSSR, 1957) vYP& 7) 69-96 Abstract ; In connection with the necessity of raising the evvective- ness of the seed sources the various types of seed sources were investigated in 1951-1954 in the Derevyansk and Vidansk woods of the Petrozavodsk timber tract. It was established that with dense concentrations of fellinGs in spruce woods it is practical to set aside snow protection seeding strips not less than 15 meters in width along the sides of the min lines and branches of the lumber hauling railroads. It is admicsible to have between the logGing railroads seeding strips with an area of 0.2 hectares) with spruce communities on hilly relief, and contour Card 1/2  USSR/Forestry - Forest Management. K-4 T Abs Jour : Ref Zhur - Biol., No 5, 1958) 20135 stripping on flat relief. The principles of tree selection and the techniques of allotment are described. Card 2/2 - 37 -  I- I- I ~,;,T p - 4-. 2r?-! : TILIKAYNER, X.I. Flom of Karelian spruce forests. Tinxiy Xar. fil. AN SSSR no.7: 5-14 157. (MI.BA 10:9) (Xarelia-Spruce) (Forest ecology)  VI L f.-, Kq "// T-M ViiHGH,M,O, VILIKAYMUI, K.I. Seed trees in cutover areas of spruce forests. Trudy Kar. fil. AN SSSR no.7:69-96 157. (NLRL lotg) (Urelia-ftruce) (Reforestation)  .v '~.% T. , "t ,~ 11 111, Ir Trec.,i of the Karel -)-I tanish fi,-.(j Th(- Lr k lorigtic Jn:( ~. r . Cand Blol 3cl, Karel .-)-Finni:ih Affil iate, Acad ,;Ci ji, ;i! , 1 (itZhBlol., No 1, Seo 54) SJ: Sull, 432, 2A Wr 55  YAKOVLEV, F.S.; VORONOVA, V.S.; VILIKAYNEN, M.I., kand. biol. nauk-, nacumy red.; PANKRASHOV, A.P.,, r-e&.-;-TCDniVWkA, K.M., tekhn. red. [Forest types in Karelia and their natural zoning) Tipy lesav Karelii i ikh prirodnoe raiouirovanie. Petrozavodsk, Goo. izd- vo Karellskoi ASSR, 1959. 189 P- (MMA 15:4) (Karelia-Forests and forestry)  I ) J (4) PHASE I BOOK EXPLOITATION, SOV3154 Viliker, David Semenovich Laboratornyy praktikum po gidromekhanike (Laboratory Course in Hydro- mechanics) Moscow, Fizmatgiz, 1959. 351 P. 8,000 copies printed. Ed.: Ye.Z. Rabinovich; Tech. Ed.: N.Ya. Murashova. PURPOSE: This textbook is intended for post graduate students specializing in hydromechanics and studying pertinent laboratory procedures. COVERAGE: An attempt is made to review fundamental laws, principles and general equations of physics applicable to hydromechanics the concepts of density, gravity, viscosity, pressure, velocity are explained and methods used for their determination In fluids with the aid of different measuring devices and calculations are illus- trated by a number of examples. Hydrostatic problems and different aspects of fluid flow in circular and non-circular pipes and In their various sections are discussed along w1th hydromechanic equa- tions and methods used for determination of velocity distribution in fluids, shock wave propagation, loss of pressure, etc. Flow of liquid from an orifice, the structure of the outflowing jet, its Card 1/19  Laboratory Course (Cont.) SOV/3154 range, altitude, and discharge rate are also discussed along with different types of weirs, the flow of liquid over a weir, the flow of liquid in open channels, and the effect of the bottom slope and wall roughness of the channel on flow characteristics. The author also surveys the filtration of liquids and gases in a porous medium and presents equations and formulas applicable to subsurface flow of fluids in formations consisting of fine or coarse grain sand. The author also analyzes hydromechanical laws governing the movement of bodies of various shapes in a water stream. In this connection he also analyzes the electrohydrodynamic analogy. The test described 96 allignments which students specializing in the lab- oratory work must fulfill. Each assignment conjists In a descrip- tion of the laboratory unit necessary for the reapectlive labora- tory test, the problem example, and the method applied to solve the problem. No peraonalitJm are mentioned. There are 13 Soviet references. TABLE OF CONTENTS: Foreword 9 Ch. I. Basic Definitions and Measuring Instruments Density 11 Specific gravity 11 Relative gravity 12 Card 2/19  Laboratory Course (Cont.) SOV/J154 Specific voluine 13 Methods of determining specific gravity and density 13 Viscosity 18 Viscosimeters 19 Pressure gaging 26 Gaging the rates of flow and fluid discharge 36 Determining the fluid 1evel 43 Assignment 1. Determinirig tbe coefficient of dynamic viscosity with N.Ye. Zhukovskiy's viscosimeter 45 Assignment 2. Determining the coefficient of dynamic viscosity with a capillary viscosimeter 47 Assignment 3. Determining the coefficient of dynamic viscosity with a visco'simeter which has two coaxial cylin- ders 48 Assignment 4. Determining the coefficient of dynamic viscosity by the method of damping out oacillations of a disk 49 Assignment 5. Determining the coefficient of dynamic viscosity on the basis of the penetration of a thin plate Into a viscous substance 50 Card 3/ 19  Laboratory Course (cont.) SOV/3154 Assignment 6. Determining the coefficient of kinematic viscosity of a liquid by using Engler's viscosimeter 52 Ch. II. Hydrostatics 54 Basic definitions and equations 54 Assignment 7. Determining the tractive force required to lift a circular valve inclined towards the horizontal line at an angle 56 Assignment 8. Determining the tractive force holding the damming shield Installed in a hydraulic channel- 58 Assignment 9. Determining the shape of the fluid level In a uniformly rotating cylinder and the angular fluid velocity 59 Assignment 10. Determining the shape of the free surface of the fluid level in a uniformly rotating cylinder whose rotation axis is inclined toward the vertical At an angle 62 Ch. III. Flow of Fluids in Pipes Basic concept and formulas Concept of a boundary layer 64 64 66 Card 4/19  Laboratory Course (Cont.i SOV/3154 laminar fluid flow in a straight horizontal circular pipe 66 Development of laminar flow in a circular pipe (head sec- tion) 68 Laminar flow in non-circular pipe 71 Turbulent flow In a circular pipe 76 Quadratic law of friction 78 Basic hydromechanic equations 81 Bernoulli's equation 83 Hydraulic shock in.a pipe of uniform cross section 85 Hydraulic shock lwa pipe of variable cross section 86 Assignment 11. Determining the critical value of the Reynolds Number 89 Assignment 12. Measuring the distribution of velocities of laminar flow in a circular pipe 91 Assignment 13. Measuring the distribution of velocities in .--: -, .-_ . .&4r*e'tAngular pipe 95 Assignment 14. Measuring the distribution of velocities in a pipe with elliptical cross section 97 Assignment 15. Measuring the distribution of velocities of a flow in an annular space 100 Card 5/19  Laboratory Course (Cont.) SOV/3154 Assignment 16. Establishing the dependency of axial velocity on the Reynolds Number under conditions of laminar flow 102 Assignment 17. Determining the loss of the pressure head of laminar flow in a circular pipe 103 Assignment 18. Determining the loss of the pressure head of laminar flow In an elliptical pipe 104 Assignment 19. Determining the loss of the pressure head of flow in an annular space 105 Assignment 20. Determining the coefficient of kinematic vis- cosity on the basis of the loss of the pressure head laminar fluid flow in a cir- cular pipe 106 Assignment 21. Determining the complete loss of pressure head of laminar fluid flow in a circular pipe 107 Assignment 22. Measuring the distribution of velocities in various cross sections of the primary seg- ment of a pipe log Assignment 23. Determining the loss of pressure head in the primary segment 110 Card 6/19  Laboratory Course (Cont.) SOV/3154 Assignment 24. 6-~ermining the resistance coefficient of turbulent flow In a circular pipe ill Assignment 25. Deteminlng the loss of pressure head in circular pipe with rough surface 113 Assigrunent 26. Determining the realstance coefficient of the fluid flow in a pipe with reetangular cross section 115 Assignment 27. Determining the resistance coefficient for a conic divergent,~Xpe 116 Assignment 28. Determining the coefficient of local resis- tance in a bent circular pipe 118 Assignment 29. Determining the loss of pressure head caused by a sudden enlargement . 120 Assignment 30. Deter-mining the coefficients.of local resis- tance 122 Assignment 31. Determining the discharge coefficient with the Venturi flowmeter 124 Assignment 32. Determining the value of the shock pressure and the velocity of shock wave propagation when the gate valve of a pipeline is suddenly shut 125 Card 7/19  Laboratory Course (Cont.) Asaigrunent 33. Determining the place on the basis of a shook Assignment 34. Determining the value the velocity of shock pipeline with varying SOV/3154 of pipeline leakage curve 132 of shock pressure and wave propagation In a arose sections 134 Ch. IV. Flow of a Liquid From an Orifice. Water Jet 137 Outtlow under continuous pressure 137 Outflow of liquid with varying level 143 Structure of an axisymmetrie jet and the distribution of velocities in various cross sections of the jet 145 Outflowing jet 147 Jet pressure 148 Reaction (pressure) of a liquid flowing out of a vessel 150 Assignment 35. Determining the compression coefficient flow rate*-f , and discharge coefficient when a liquid flows out of a circular orifice made in vertical wall 150 Assignment 36. Investigating the cross sectional shape of a jet flowing out of an orifice with a rectangu- lar cross section in a thin wall 153 Card 8/19  Laboratory Course (Cont.) Assignment 37. Assignment 38. Assignment 39. Assignment 40. Assignment 41. Assignment 42. Assigrment 43. Assignment 44. SOV/3154 Determining the trajectory of a jet and the change in its diameter 154 Determining the maximum range and altitude of a jet 156 Determining the compression coefficient E, flow rate I , and discharge p when the liquid flows from a nozzle 158 Investigating the ch ge of pressure along N cylindrical nozzle, ich depends upon the rate of liquid flow 159 Determining the tit-,ie when the level in a vessel will drop under conditions of unsteady liquid discharge 160 Determining the time when the liquid level In a vessel will change under conditions of con- tinuous liquid inflow and unsteady outflow :L62 Measuring the distribution of velocities in a free jet cross section 163 Determining the center, boundary layer, and the main body of a free jet 164 Card 9/19  Laboratory Course (Cont.) Assignment 45. Assignment 46. Assignment 47. Determining the on a barrier Determining the discharged from Determining the ejector SOV/3154 amount (of pressure) exerted 166 reaction strength (pressure) a vessel into the atmosphere 168 efficiency of a water-air 170 Ch. V. Weirs 174 Basic concepts 174 Copputation formulas 176 AsAignment 48. Determining the discharge coefficient of a liquid flowing over a non-submerged thin-walled rectangular weir- 183 Assignment 49. Determining the change in liquid discharge dependent upon the height of flooding when there is a continuous pressure on a thin-walled rectangular weir 185 Assignment 50. Determining the discharge coefficient from a weir having a practicable profile 186 Assignment 51. Determining the discharge from a weir having a wide sill 188 Card 10/19  Laboratory Course (Cont-) SOV/3154 Assignment 52. Measuring the pressure distribution over the surface of a weir having a practicable pofile 190 Assignment 53. Measuring the distribution of velocitiez and pressure in cross sections of a free stream flowing over a weir of a practicable profile 192 Assignment 54. Determining the discharge coefficient of an open Ve6touri flowmeter 194 Assignment 55. Determining the flow coefficient of a tri- angular thin-walled weir 195 Ch. VI. Flow of a Liquid in an Open Channel 197 Steady flow 197 Unsteady flow 200 Hydraulic jump 205 Assignment 56. Measuring the distribution of velocities in a horizontal rectangular channel 207 Assignment 57. Determining the discharge change caused by the bottom gradient of a channel with a given depth 210 Card 11/19  Laboratory-Course (Cont.) SOV/3154 Assignment 58. Determining the liquid discharge by measuring the channel depth in two cross sections 211 Assignment 59. Determining the depth of a channel with a given liquid discharge and sloping bottom 213 Assignment 60. Stuoying the Influefice of the shape of the channel cross section on the discharge of a liquid 214 Assignment 61. Determining the pressure loss and the rough- t 4 ness coefficien 4n a channel having walls of varying degrees of roughness 216 Assignment 62. Determining the fall-off curve in a rectangular channel 218 Assignment 63, Determining the distance L existirgbetween two cross sections of a stream flowing In a channel with a given depth, liquid discharge and bottom slope 220 Assignment 64. Determining the height of a weir in a channel on the basis of channel depth and liquid dis- charge 222 Card 12/19  Laboratory Course (Cont.) SOV/3154 Assignment 65. Establishing the dependency of the curve shape of a free stream flowing in a rectangular channel with a weir acoording to the slope gradient of the channel bottom 224 Assignment 66. Determining the conjugate depth and the length of hydraulic jump In a horizontal rec- tangular channel for given liquid discharge and a given value of another conjugate depth 225 Assignment 67. Determining the conjot-,ate depth and the loss of energy In a rectangular channel when there !a a certain pressure against the shield and mother -.onjugate depth of a certain value 227 Assignment 68. Determin' _ng the effect of the bottom slope on the length of hydraulic jump and on the con- jugate depth when there Is a steady liquid discharge and the shield is open at a certain height 229 Assignment 69. Determining the distance existing between a weir with a thin wall and a hydraulic jump when the bottom slope gradient and the liquid discharge are -lonstant 230 Card 13/19  Laboratory Course (Cont.) SOV/3154 Ch. VII. Flow of Liquids and Gases in a Porous Medium 233 Basic concepts 233 Determination of an effectIve diameter 238 Filtration formulas 239 Flow of ground and artesian waters 245 Flow of gas in a porous medium 249 Assignment 70. Determining 'Che fIltration coefficient for water flowing through fine-grain sand 253 Assignment 71. Ascertaining the field of' application of the Darcy formuls for water flowing through a coarse grain formation 256 Assignment 72. Determining the depression curve for water flowing thro,.;gh a formation which has a hor- izontal unde.-Ilying stratum '2159 Assignment 73. Determining 411-he depression curve for water flowing throDgh a formation which has an inclined wate.-proof underlying foundation 26o Card 14/19  Laboratory Course (Cont.) Assignment 74. Assignment 75. Assignment 76. Assignment 77. Assignment 78. Assignment 79. Assignment 80. SOV/3154 Determlnln6 -,he discharge and construct- ing a depression -~rve for a ground well which penetratef-, entire stratum 262 Determining the filtration coefficient of a formation a-nd the 'Liquid discharge of an imperfeat ground well 264 at4 Determining T-he f."Itr Lon coefficient of a formation and ~onstru~~tlng a depression curve for an art-esi-an well 265 Determining the Ilquld discharge and con- stru~:ting 3 depre3olon curve for a water- gathering sy6rt~4fll 267 Determ.1n,-Ing ',he nene,rability of linear sand stratum u_nd-~T, conditlons of a steady air flow 269 DetermlrunF, hange In pressure along a format-lon )-).nde-. conditions of a steady air flow 273 Determining th~~ -Jienge In pressure along a formation .;nder -ondl,tions of unsteady flow In the formp":140,i 274 Card 15/ 19  Laboratory Course (Cont.) SOV/3154 Assignment 81. Deterni'ning the change in the amount of air used under condi,,Aonq of an unsteady flow In the format-Ion 276 Assigrunent 82. Determi.ning the change in pressure along a sandy parabolic stratum and the amount of air used whIch depend upon the initial pressure 278 Assignment 83. Determ-4ning the velocity of propagation of a high-pressure wave aiid the change in pressure per time in. a given cross sec- tion of a formation 28o Ch. VIII. Resistance of a Body Moving in Water 284 Basic concepts 284 Resistance of plates in a lami-nar, s-,rean 285 Resistance of plates in a turbulent stream 286 Laminar layer on a plate 287 Head r6iistance Water surface waves 291 !dave resistance of a ship 295 Converting test results Of a model. to full scale dimensions 297 Assigrunert 84. r~!31~3tance, value in a 13ndnar and turb-dent. Jxo!~m flowtng around a sriooth Card 16/ 19 plate 300  Laboratory Course (Con,,-.,; SOV/3154 Assignment 85. Deter.,~-,.nin;, '~ne ji-itribution of velocities in a boundar% layer, of a laminar or turbulent strewn fiowinw, around a plate 303 Assignment 86. Deteriiriinin8 rhe_ h~.-akl resistance coefficient on the ba6ia of' the pressure distribution over the contour of a cylinder (plane stream) 305 Assignment 87. Determining the head resistance coefficient on the bas13 of the pressure distribution over a c-ontc-ul-, of a cylinder at different angles of Inclulence 307 Assignment 88. Determining the head realstance of a plaie of finite dimen3lon In a plane stream at different angies of incidence by applying the method of Pre33ure distribution over a Sur- face or by the gravitational method 3o8 Assignment 89. Determining "lie. valve of the contour resis- tance of a wirg-shaped body in a plane stream at (I.Ifferorit angles of incidence and varlatle st.r..,ara velocity 312 Assignment 90. DetermInIng, tht- reS13tanCe of a ball depen- Card 17/19  ~ I Laboratory Course (Con'..' SOK/3154 of a szre~L= Assignment 91. Deter~nlnjz~.,, Lt-~ ziLunber for a cylinJar in a pian~i 317 Assignment 92. EstaIbIII::,:)1r,,~, :epenlen--y between the vortex frequen~-.v %Ibratlon frequency of a cylinijer I.-i ~i 319 Assignment 93. Deterrnlnln~~ overall reulstance of a ship model 320 324 Ch. IX. Eleetrohydrodynaiatc Analo~-, 1. Electrical analogy "-,f :;I,eady strewn of an ideal incompressible 324 2. Electrical analogy of t:hf, p-,ayie steady stream of an ideal compressi, 'ble fliA,-d 326 3. Electrical analogy of the ~-O.,~-ady flow of ground waters 328 Schematic drawings of unit:~ A -9nment 94. Steady cl. -f r'.!1'(1 florning around a cylindoL 333 Assignment 95. Stream f1c:w-Ing arcurid a wing-shaped symmetric body prcfl!,-~ ir~ fhe application of the A and B analogy 335 Card 18/19  Laboratory Course (cort..) SOV/3-154 Assignment 96. Steady -' , ~., f 1owing around the sheet piling a J~ivl 338 Appendix: Tables.1 - 11 341 kbliography 352 AVAILABXZ: Library of Oongre3s TM/jb Card 19/19 3-17-6o  VILIKHFR, M.H. Dlagmos-13 c' spinal dnd zhclesteall~-3 orIginating an late sequelara of tubemuloua reningitis. Zhur. nevr. i peikii. 64 ne.9-1295-1300 164. (MIP,,! 17:12) 1. Kllnika nervnykh bolezroy (zaveduyustcedy - prof. Allperovich) Vinnitakogo medlt31nakcgo InstItum I Vinr.-,t,sKiy oblastnoy pro t1vo Luberkulezr)rf dlspan-.-r (playn- Yr n Goretakaya).  VILIKHM,M.M.; YAROSLAvsKrT, L.S. (VinnitB&) Clinical aspects and treatment of cholesteatomms and leptopeLchy- meningomyelitis. Vraoh.delo no,4i 90-94 Ap'63. (KIM 16:7) 1. Otdelenkr~~ d-1ya boltnykh meningitom (zav.-Ye.A,Paretskaya) Vinniskogo oblastnogo tubarkuleznogo disparmera i neyrokhirur- gichaskoye otdeleniye (zav.-L.S.YaroslavBkiy) Vinnitskoy oblaat- noy poikh(nevrologicheekoy bollnitsy; nauabnyy rukoyoditell rabot7 - 2av. kafedroy nervnykh bolezney Vinnitskogo meditsinskogo instituta prof,P,M.Allparovich.  ALIPEROVICH, P.M.., prof.; VILIKMs M.M. Spinal leptopachy-.:eningitis developing as a late consequence of tuberculosis meningitis. Vrach. delo no. 3:84,87 Mr 161, (MIRA 14:4) 1. Kafodra, nervnykh bolezney (zav. - prof. P.M. Allperovich) Vinnitakogo ineditsinskogo institute, i Vinnitokiy oblastnoy protivotuborkuleznyy dispenser. (MENINGITISY SPIHAL)  VILIKM, M.M.; BARIZOVSKIY, B.A. Combination of hemocytoblastic leukemia with thymoma. simulating tuberculosis of the lungs and cerebral membranseo Vrach.delo no.6:643 Je 157. (MLRA 10:8) 1. Kafedra fakulltetskoy terspii (zav. - prof. B-S-Shkiyar) Vinnitskogomeditsinekogo institute i Vinnitskiy oblestnoy tub~erkuleznyy dispenser (LXUKIMIA) (THYMUS GIAND--TUM(RS)  VILIKUS, Mensk Some problems of the Mitchire Industry Institutes. ?,An cr~: 18 no.8:345-348 Ag 164. 1. Director of the Institute of Mechanical Engineering.  VILIM, F. New method for measuring- susceptibility of parama netic and dlama~petic mater-lalB. p. 416 Vol. 5, no. 4, July 1955 CESKOSLOVENSKY CASOPIS FPO FYSIKU Praha, Czechoslovakia So: Eastern European Accession Vol. 5, No. 4, 1956