SCIENTIFIC ABSTRACT TSVETKOV, V.L. - TSVETKOV, V.

TSVETKOV, V.L. E."loss (straumatic) needle for repeated use (modification II). dt. zhur. 16 no.5:33.1-312 161. (MMA 14:10) 1 i. Iz glaznogo(otdeleniya Orlovskoy oblastnoy bol ni:tsy. EYE, IIZTEMIEIFrS PJID APPARATUS FOH;  I'-- V.L. Mz"';hod of an as~,urata lonalization o'L foreign eye. Vest. rent. I red. 40 no.201-72 Mr-Ap bod-'es in the t65. (~C- RA 18 -.6) 4. Orlovskaya oblestnaya bollnitsa.  TSVETKOV, V.L. (Orel) Prevention of and first aid in eye injuries at a feldsher-z4idwife center. Felld. i akush. 26 no-5:15-18.MY.161. NIRA 14: 5) (EYE-WOUNDS AND INJURIES)  T3VXTKOV, V.,L., ordinator SharPPointed pincers for the removal of foreign bodies from the cornea and conjunctiva. Vest.oft. 69 no.2:39 dr-Ap 156. (MIRA 9:7) le Iz glaznoy kliniki (direktor professor A.G.Iroll) Kurskgog maditainskogo instituta. (SURGICAL INSMUMIN TS AND APPARATUS) (IM-FOBBIGN BODIES)  . "Miff"J'a [deceased); PROKOW"YAV, A.P., redektor; IMMNOVA, G.P., radaktor Izastel,stva; GORDIYMO, Ye.B., takhnicbeakty redaktor [Instruotions for using the dlannifiostion of reserves for tin ore deposits] Instrukt9lis po primenaniiu klaosifiketsit sapasov k mostoroshdaniiam oloviannykh rud. KosV-m, Goo. nauchno-takha. tzd-vo lit-ry po geol.i okhrana, nedr, 1955. 41 p. (HLRA 10:9) 1. Russia (1923- U.S.B.R.) Gosudaretvannaya komiestya po sapasam polesnykh iskopaysmVkh. (Tin ores)  TSVETKOV, V.M. (Moskva) Explosions in sandy,grouncTs~-.-NU no.52150-153 S-0 162, (KMA 1621) (Explosions) (Sandy soile)  - TSVIETKOV, V. 11. The organization and work in a footwear testing shop. Moskva, Gos. izd-vo legkoi promyshl., 1939-48- 2 v. (52-39652) TS990.T7  TSVETKOV, V. N. 36250. TST~TKOV, V. H. -- laassifikatsiya i kharakteristika zapotavochrykh shvov obuvi legkaya pron-st', 1941G. No. 10, 29-31 so: Latopis' 2hurnal'nykh Statey, No. 49, 1949  TSVXMV, V.I., kandidat tokhniebaskikh nauk. Classification and specification of aboe '!bottom design. Log. prow. 17 no-1:16-19 -T& '57. (MLEA 10:2) (Shoo industry)  TSVICTKU, V.N.; DUBROVSKIT, A.S. qualitative UP bending of footwear tacks. leg.prom. 17 nc.8:18-21 Ag '57. (WRA 10:10) (Shoe industry)  ,TSVETKOV, Vladimir Hikolayevich, kand.tekhn.nauk; KOVNER, S.S., prof., reItoIenzent: MURVOIDZI, D.S., retsenzent; PLEWANNIKOV, M.N., red.; MEDVEDEV, L.Ta., tekhn.red. [Elements in the theory of the mechanical strengthening of bottoms] Ilementy teorli makhanichaskikh kreplenii nixa. oburt. Moskva. Goo. nanchno-tekhn.izd-vo lit-ry po legkoi promyshl.. 1958. 336 p. (Shoe manufacture) I (MIRA lltl2)  TSVI',TKOV, MI., DUHROVSXIY, A.S. e - New desIgn of sole naila. log. prom. 18 no.4.118-19 AT) 158. (Shoo manufacture) .1 (MIRA 11:4)  (TSVNKOV, V.~k DUBROVSKIT, A.S. ------- Rail fastening of porous rubber soles. Leg.prom. 18 no.12:18-19 D '5 8. (MMA 11: 12) (Sboe manufacture)  TSVETKOV, V. 11. : Doc Tech Sci (diss) -- "Elements of the theory and construc- ... tion of mechanical reinforcement for shoe bottoms". Moscow, 1959. 51 pp (Min Trade RSFSR, Moscow Order of Labor Red Banner Inst of National Economy im C. V. Plekhanov), 100 copies (KL, No 8, 1959, 136)  TSVEMV, V.N. Training of engineering personnel for light industry vmst be raised to the level of the new tasks. Kosh.-obnprome noel: 19-21 Ja '59. MIRA 12:6) 1. Direktor Hoskovskogo takhnologicheakogo inotituta legkoy promyshlennosti. (Russia-Manufactures) (Industrial arts-Study ani teaching)  TSVETKOV, V.11.9 dotsent, kand.tekhn.natik; BYKROVSKIT, Y.B., inuh. Flexibility of glued soles. Izv.vya.ucheb.zave; tekholeg. prom. no.6:83-95 159. (KIRA 13:5) 1. Moskovskly tekhn6logichaskiy institut legkoy promyBhlennosti. Rokomendovann kafedroy tokhnologii obuvi. (Shoe manufacture)  TSVI"KOV, MI.; BYCRKOVA, 7-Y8.; SAVVOIT. S-M-; NEMSOV, I-K- Intramolecular interaction and segment anisotropy of chain molecules in solution. Vysokom. soad. 1 no.9:1407-1415 3 159. (MM 13:3) I.Institut vysokomolekulyarnykh so7adineniy AN SSSR i Leningradskiy gosudarstvenny7 univereitat im. A.A. Zhdanova. (Macromolecular compounds) (Aropene) (styrene)  TSVETKOV, V.N., kand.tekhn.nauk dots.; ANDREYNT, F.S., inzh. Construction parameters for fastening porous rubber soles with nylon threads. Izv.vys.ucheb.zav.; tekh.leg.prome no,5:85-94 '59. (MIRA 13:4) 1. Moskovekiy tekhnologicheskiy inatitut legkoy promyahlonnosti. Rekomendovana, Imfedroy tekhnalogii obuvnogo proizvodetva. (Boots and shoos, Rubber) (Nylon)  Tswnov, V.N., kand. tekhn. nauk, dotsent Determining the coefficient of the sole of the hind part of the foot. Rauch. trudy MTILP no.21+-.96-100 162. (KMA 16:7) (Shoe manufacture) (Foot)  -TSVETXOV,.V.N,,, kan4. tekhn. nauk,, dotsent; SHATOMIN, N.K,,, inzh.; DUBROVSKIY, A.S... inzh. Quality of needle wire. Bauch. trudy MIU no.24:146-149 262. (MIRA 16:7) (Vire-4sating)  TSVETKOV, V.N., kando tekhn. naukq dotsent Effect of the rate of loading on the mechanical properties of stiff leather. Bauch. trudy NTILP no.21+.-75-.89 162. (Leather-Testing) (MIRA 16:7) (Strength of materials)  PURVANIME, E&M., prepodavatelf; TSVETKOV, V.IN... kande New developments in shoe design and constructi MTILP no.24:100-112 162. (Shoe manufacture) nauk., dotsent Nauch, trud (MMA 16:7f  'DWETKOV., V.N., kand. tekhn. nauk, dotsent; KOROTKAYA, L.I., inzh. Determining the constant of the relaxation time of straing in chrome shoe upper leather. flauch. trudy MTILP 25:61-72 i62. (MIRA 16:8) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhno- logicheskogo inatituta legkoy promyshlennosti.  TSVETKC-1,11, V,.-N... kand. teklan. nauk, dotsent; AIVHIPOV, 1;.11.1 - OKAffl-l', I.P., starshiy Fz iocdava te- 11 Machine for coating sole edges with glue. lbiuc!i. trudy no.28:230-231 163. Machine for cement lasting of shoe uppero. Ibid.:232-234 (mii)jt 1,7:11)   Ir eji~ctrolyt-ic of of 1W.1 i c. r J Ac:~ti or, la.-t iro co-pics 3z -  TSVETKOV, V.N.2 kand.tekhn.nauk., dotsent; ANDREYEV, F.S., inzh, ------------- Efficient parameters for the fastening of porous rubber soles with nylon threads. Report Ho*2. Izv.vya.ucheb*7,av-;,. tekh,legoprom* noelt$5-96 160. (MIRA 14:5) lo Moskovskiy takhnologicheakiy institut legkoy promyshlennosti. Rekomendovana kafedroy tekhnologii obu:vnogo proizvodetva. (Boots and shoess Rubber)  TSVETKOV, V.N., kand.tekhn.nauk, dotsent Use of the power function for rating leather shrinkage. Izv. vys. ucheb. zav.; tekh. leg. prcta. no. 1:107-13.5 160. (MIFLA 14:5) 1. Mookovskiy takhnologichaskiy institut legkoy promyshlennosti. (Leather-Testing)  TSVETKOV, V.N., kand.tekhn.nauk, dotsent; RYBCHINSKIY, V.D., inzh. Effect of the moisture of sole parts leather on the contact stress in the mechanical joints of shoe soles. Ilauch.trudy XTILP ~o.18: 76-go 16o. (MIRA 15;2) 1. Kafedra, tekhnologii izdeliy iz kozhi Moskovskogo tekhnologicheskogo instituta legkoy promyshlennosti. (Leather) (Strains and stresses)  TSVETKOV, V.N.P kand.tel~bn.nauk.. dotsent Practical footwear of a lighter weight. Izv.vys.ucheb.zav.; tekh. leg.prom. no.2:44-49 161. (MIRA 14:5) 1. Moskovskiy tokhnologichookiy institut legkoy promyshlennosti. Raidmendovana kafedroy teldmologii obuvnogo proisvodstva Kiyovskogo tekhnologichoskogo instituta legko promyshlonnosti. (B.Pots and shoeU  TSVETKOV, V.N. kand. tekhn.naukp dotsent; LOSHCHAKOVA, L.A. inzh. .9 0 Modulus of elasticity of stiff leather. Izv.vys.ucheb.zav.; tekh.leg. prom. no.3:81-89 161. (MIRA 14M 1, Yjoskovskiy tokhnologicheskiy institut legkoy promyshlennouti, (Leathe;r)  TSVETKOV, V. N., kand.tokhn.nauk, dotsent; KLOCIIKOVA, N. S., inzh. New shoe construction method without lasting. Izv.vys.ucheb. zav.j tekh.leg.prom. no.4:67-85 161. (MIRA 34:10) 1. Moskovskiy tekhnologicheskiy institut legkoy proWshlennosti. (Shoe manufacture)  (Iotqcnt; C;h=-P.cto- irti cs oxp the a-, - L ffect of .0,s, IzveVYs.ucheb..7-,v.;te7:h.lec.prL,m. no-4:96-106 161. 1. T"00j'-,OVSj:jy tcJdlnclog:ichosIc. institut leg, (::Ipjl ji,: 10) -,oy pror, (Lenther-Testi,zl 6~  --TSVETKOV,--V.N.-t-kand.tekhn.nauk, dotsent Resistance to cracking in banding of sole and insole leather. Nauch.trudy MTILP no.23:82-100 161. (MIRA 15:9) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhnologi- cheskogo instituta legkoy promyshlennosti. (Leather--Testing)  TSVETKOV, V.N., kand.tekhn.nauk, dotsent Power of chrome-vegetable tanned leather to hold a metal tack. Nauch.trudy, MTILP no.23:101-111 161. (MIRA 15-9) 1. Kafedra tokhnologii izdeliy iz kozhi Moskovskogo tekhnologichaskogo instituta legkoy promphlennosti. (Leather-Testing)  TSVETKOV, V.N., kand.tekhn.nauk, dotsent; SEHENKOVA, O.P., irzh. Bending strength of the sole construction fastened with the thread-cement system. Nauch.trudy MTILP no.23:112-149 '61. (KRA 150) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhnologicheskogo instituta legkoy promyshlennosti. (Shoe manufacture)  TSVETKOV, V.N.., kand.tekhn.nauk, dotsent Strength of the joint between sole leather and fasteners. Izn.v.w.ucheb.zav.;tekh.leg.prom. no.2-84-89 162. (MIRA 15:5) 1. 14oskovskiy tekhnologicheskiy institut. legkoy promyshlennosti. (Shoo manufacture) (Leather-Tooting)  TSVETKOV, V.N., lrand.tekhn.nauk, dotsent; KOVAIEV, A.A., inzh, Effect of the physicomechanical actions on the modification of stiffness Oftsed by the bending of shoe soles manufactured with the hot vulcanization method. Izv.vys.ucheb.zitv.; tekh. leg.prom. 3:74-82 162. (MIRk 15:6) 1. Moskovskiy tekhnologicheskiy institut legkoy promyshlennosti. Rekomendovana kafedroy tekhnologii izdeliy iz kozhi. (Boots and shoes) Rubber--Testing)  TSVETKOV., V. N,# kanda tekhn. nauk, dotsent Stiffness of leather sole parts in bendinge Izve vys, uchebe zav,; tekh. leg. prom. n0-4:76-86 162. (MIRA 15:10) 1. Mookovskiy tekhnologicheakiy inatitut legkoy pronyahlennosti. (Ioeather-Testing)  TSVETKOV, V.N., kand. takhn. nauk, dotsent; KOROTKAYA, L.I., inzh. Determining the constant of the relaxation time of strains in chrome shoe upper leather. Nauch. trudy MTILP 25:61-72 162, (MIRA 16:8) lo Kafedra tekhnologii izdeliy iz kozhi Moskovokogo tekhno- logicheskogo instituta legkoy pronyshlennosti,  I-TS.VET-IKOv,.-,Y!-N-,y kand. tekhn. nauk, dotsent; FEDULOVA, L.L., inzh. Determining the constant of the relaxation time of strains in chrome shot-upper leather. Naueb. trudy MTILP 25:73-81 162, (MIRA 16:8) 1. Kafedra tekhnologiL izdaliy iz kozhi Moskovskogo takhno- logicheskogo instituta legkoy promysblennosti.  TSVETKOV, V.N., kand. takhn. nauk, doteent; RAKITYANSKIY, V.F., inzh. EffOct of the tanning method on the thickness of sole leather in case of its wat processing. Hauch. trudy MTILP 25: 82-91 162. (MIRA 16:8)  TSVETKOV, V.N., kand. tekhn. nauk, dotsent; GLUKHOV, V.N., insh. ............ Force of resistance of the contact friction in the fastening of leather shoe elements. Nauch. trudy MTILP 25:92-105 162. (MIRA 16:8) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhno- logicheskogo instituta, legkoy promyshlennosti.  TSVETKOV, VA., kand. tf)khn. nauk, dotsent Determining the con-stant of thp --laxation time In the deformation of sole leather. Report No.3- Mauch, MTILP no.26:118-133 162. Bases of the calculation of' the flexural rigidity of footwear; report given at the 2d International Congress of the Representatives of the Leather and Shoe Industry in Budapest. lbld.~2-46-157 Calculation of thread seams for the leather parts of shoe uppers, Ibid.:170-175 (1CM 17-5) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhnologicheskogo instituta legkoy promyshlennosti.  TSVETKOV, V.-if., kand. tekhn. nauk, dotsent; ALIFANOVA9 Ldl~, inzh. Determining the conatant of the relaxation I.J.ne '~n the A-f'--mation of sole leather. Report No.4. Nauch. trudy MTILP no.26:134-145 162. (MIRA 17;5) 1. Kafedra tekhnologii izdeliy iz kozhi Moskovskogo tekhnologicheskogo instituta legkoy prom~tshlcnnosti,  TSVETKOLI, ",-kand.tekhn.nauk, dotsent; SYCHLINKOIR, O.P., inzh. Stiffnens in bending of the footwear manufactured by the inseam method. Izv.vys.ucheb.zav.; +.ekh.leg.prom. no-1:115-125 163. (MIEA 16:3) 1. Moskovskiy tekhnologichesk-4y institut, legkoy promyshlennosti. (Shoe manufacture)  nenirt.i. 1,  TSVETKOV, V.Y., kand. tekhn. nauk, dotsent Analysis of thread joints for the leather elements of shoo uppers, Kozh. obuv. prom. 5 no.7t18-20 J1 163. (MIRA 16:8) (Shoe manufacture)  Svetk~ov Im ~N2,ojl~qehb !ft,,dLL; AVM~, Determini* the time conBtant of the deformation relaxation in the chiome upper-leather. Pt.2* Kozarstvi 13 no.2:37-3~ F 63. 1. Rektor Vysoke skoly techniake lehkeho prwayslu,, Moskva (for Cvetkov). 2. Vyzkumny ustav kozedelny, Gottwaldov (for Benes) . *  TSVETKOV, V,~., kand. tekhn. nauk, dotsent; GLUKHOV. V.N., inzh. Resistive force of the contact friction of chrome-vegetable and vegetable tanned leather for soles* Izv6 vys# ucheb, zav,,, tekh. leg. prom. no.2:60-66 163. (MRA 16:10) 1. Moskovskiy tekhnologicheskiy institut legkoy promyshlennosti. Rekomendovana kafedroy tekhnologii izdeliy iz kozhi.  TSVETKCV, V.N., kand. tekhn. nauk, dotsent (deceased) Effect of the number of stitch rove and the distance between them on the strength of the fastening of the leather parts of shoe uppers. Nauch. trudy MTILP no,29sl36-149 164. Substituting a Xeed plnte for a feed awl in thn sawinR machine for sole attachment.. Jbid.t152-154 (MIRA 18W  -66 L n433 .0 VVII/ R M ACC W AM50117 UR TH V. TSvet skin Ye nkel B.Ya. 4 Structure of macromolecules in solutions (Straktura makromolekul v rastvorawn), -/Y Moscow, Izd-vo,"Nauka," 1964, 719 P- illus., tables., diaGm., biblio., index. 3,800 copies printed. TOPIC TAGS: macromolecular synthetic polymer, macromolecular structure, macromolecular kynamic and optic, structure In solution, physical properties RMFOSE AND COVERAGE: This monograph is devoted to the hydrodna~iic and optical properties of macromolecules. To the latter belong: jqscosit'. y, light scattering, sedimentationj, and dynamic double refraction. This book discusses the application of the indicated investigation methods to a aeries of concrete and important problemai molecula weight determination, molecular weight distribution, macromolecule Sizes, their configurations, structures, branching, deformability, internal mobility, stereoregularity and the analysis of the copolymer cT;Rosition, hete ity. The authors acknowledge the contributions of Baranovj, V. Korotkina O.Z. htennikove I.N.; and other co-workers of the Institi e of Mae lecular Gompound5 of the emy of Sciences of the USSR (IVS AFS-SSRBiiU W -6-kbEo-le-g~-~-E-9-o-Fe~Wnen-iy;-- Akademii Nauk SSSR). Eii-ab~ok is designed for a wide circle of scientific workers and engineers vorking in the field of physics, chemistry., biology, physical chemistry, and technology of synthetic and biologic Yo4meral as vAli. as for the teaching staff MC:539-199  z 1, L 10433-66 ACC NRI AM5011706 and advanced students at higher educational iwtitutloas specializing in the indl- cated sciences, TABrE a? CONZOW (abridged]: Foreword -- 9 Introduction -- 13L Ch. I. Structural properties and thermodyneade behavior of macromolecules In solution ~ 14 1. PrincIples of the static theory of Linear polymer chains -- 14 2. Some thermodynamic properties of solutions of chain macromolecules -- 44 3. Structural properties of pol"lectrolyte macromolecules and of polymers of biologic orl id n 65 Bibliogra" -- 90 Ch. n. Viscosity -- 93 Bibliography 200 Ch. M. Light scattering In solutions of PO 203 .1. Principles of the theory -- 205 Bbl, 2. Methods of meaeuring light scattering 246 ograshy -- 270 LC  .L-lo433-66 ACC NR: AM50li7o6 Ch. IV. Application of the light scattering method to the study of polymers in solution 273 Bibliography 349 Ch. V. Diffusion of macromolecules In solution -- 354 BibliographY -- 418 Ch. VI. Investigation of the hydrodynamic properties of macromolecules and of polydispersion vith the aid of an ultracentrifuge -- 421 Bibliograpy -- 494 Ch. VII. Double refraction in a flow. Theoretical principles -- 499 1. Dynamic double refraction in solutions containing rigid particles -- 499 2. Dynamic double refraction in solutions of deformable particles (macromolecules) -- 523 3- Dynamic dvable refraction in solutions of chain macromolecules -- 532 4. Some probit--mB of experimental techniques -- 573 Bibliogra" -- 583  L 1033-66 ACC NR, AM501170 6 Ch. VIII. Double refraction in a flow. Experimental data -- 587 1. low molecular weight liquids -- 587 2. Solutions containing rigid particles or macromolecules -- 595 3- Solutions of deformable chain molecules -- 62o Bibliogra;by Index -- 712 suaxam: 24Nov64 omm 876 SUB CODE: .00,0,00 ND RKF SOV: 284 j V'r  EIT I NR, AP6002884 SOURCE COD&t AUTHORt Kunstman,- V. G.; TBvetkov, V. N6 ORGs none TITLE: Device for measuring the strength of ma netiofieldal,,Class 210 no. 176977 SOURCE: Byulletenl Izobreteniy I tovarnykh znakov, no. 24, 1965t 41 TOPIC TAGS% magnetic field,, magnetic field intensity,, nonhomogeneous magnetic field, magnetic field measurement# measurement# measuring apparatuB,, nuclear magnetic reso- nance ABSTRACT: The device for measuring the strength of magnetic fields, based on the,uti lization of the nuclear magnetic resonance phenomenon, consistIng of transmitter with a high-frequency coil, an ampoule with working substance and modulator coil located in the measured magnetic field, a generator, a wide-band amplifierj a detec- tor, a low-frequency'amplifier, and an oncillograph, is.charactorizod by the fact that resonance amplifiers connected in parallel and tuned to the first, second and third harmonic of the nuclear magnetic resonance signal are included between the low-fre- quency, amplifier and the oscillograph. These features are incorporated in the design in order to facilitate the search for the nuclear magnetic resonance signal in fields of relatively high nonhomogeneity and to Increase the signal to noise ratio. V,  6 ACC NRs AF600~U4 f9 fl high-frequency transmitter coil, 2. ampoule with'working'aub3tance, 3. modulator coil, 4. capacitor, 5. generator, 6. wide-band amplifier, 7. detector, 8. reference frequency amplifier,, 9 - 11. resonance amplifiera, 12. oocillograph 14,20/ SUBM DATE: 25Jun64/ SUB CODEz  L 01'9'Jt','--1`; 6030151 SOURCE CODE: UR/0120/66/000/004/0166/0168 AUTHOR: Kunstman, V. C.; Tsvetkov. V. it, ORG: none TITLE: Magnetic field intensity meter with automatic self-adjustment to the measured field SOURCE: Pribory i t6khnika eksperimenta, no. 4, 1966, 166-168 TOPIC TAGS: magnetic field intensity, magnetic field measuremept, weak magnetic field, magnetic field measuring device 4BSTRACT: A magnetic field intensity meter which uses the phenomenon of proton Fesonance in automatically adjusting tD anl foUtiflng 0w, fiell Mq; rMnoured has been dLveloped.. The device consists of two units: a high frequency unit with sensors and an autodyne 'Circuit, and a control unit with low frequency cirCUit components. The device is 'designed for the 1-16 Koe (4-70 Mc) range. By using the automatically adjusting.~ frequency autodyne, the frequency deviation from the resonance value of the field duel.! to various destabilizing factors is reduced by a factor of 30. With an itihoulogeneity, of the measured magnetic field 10-3 em-1, the deviation of the frequency resonance. value does not exceed 10-5 Orig. art. has: 1 figure. [M) SUB CODE: 09/ SUBM DATE: 11-Aug65/ ORIG REF: 002/ OTH REF: 001/ Card 1/1 up .:_6~1,317.44  A j I -f- a A- A ~i xeb v V/V. P T Hl 01110clsitt ANO "Ovitt'll mots 4*0 JO* xm~-wi6 (Bromsraw). Its Alpqiic;~ wd Tahnical R44uirem-ts- 11. Wmbo (Odadeni, W-Amikoi. Kozhdmrw~ Abg.. 19,13. In Itil"i4li.) Varioms 1-1- IM, deperilkA. S. 0 So -9 Z, sfTALLIJPGKALLl?f*ATURECLASSIPKAYICN 0-1 As. J---r a T ZA a pf AO A .0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 0 0 0 0 000000000000000: Fn looosooose*0*6060064 OT 00*0*0*00009*0069064 g boo 0 tool  u w f6 b u 00 00 ONOC&USA son PRONST'Is .04, 00 ~ Ort"tad" of makfts" In lift nuns *I AakaUW* 04 LkWdd- ~VD Ff4*krkk*G " V. Zvetkov. Coop(" Ak*4" de ' IC rAesk'ifs SCONM,~ U.R.S.S., 11 . pp-"&-563. jww 21. 1034. ! Ws a OwbobviDic liquid film between abimt and cover glam 0 nwOrtmVe a knawroomw cc thluxnageneous structure. A aim wh" in the abwoce of an external field is homogeneous may become inhomo.. of *W* -0stMd 1 1020stio or: ofactrio deld w4. oiw.vgrs&~ The 00 JMn U-Npmw-~ - NNkkrwft+A"xyA"" - bbmto: ad t Its- Imp i do" 00 "fisCUINfidd d*-Mf=Utbft'*t tM molftulas wMin mt&W Uaft c=,be ofthe1linit of toW swaocUou.jor.tho *atm- 01'd"*-9O%Nffths WdfiWrOW extraordinary mtrwtive Wdim oft kwft.'AP1ft ~r-r- .6WrW6"q*dmmts made and a method cd t&Acu. d experimental,wahw,ol 00 the rawica'al a patkW In the mk'1416 of a thl; Om 0d skm t6 wkbIA about 6 IL L 00 ,7 A% It a 44141LUMQKAL LITCRAtIAN CIAHVICATICIS %slog;) MID O.V '00 -00 -00 .00 .410 -00 .40 -00 as* zoo do* ZOO LO 0 woo goo qo 0 we 0 100 a* 0 -%I% A, Y T. 1*1 10, ION *14U O's: 0 60900004040*0640000400 '09 *0 No 00 00 0 0 0 0 0 0 0 0 0 0 40 4 0 0 0 0 0 0 0 0 0  a 00 0: 1ACTALLUNGKAL LIMMAT 06 .84. tlw'fj~rft u it AV so is -01 o 0 o 4 0 0 o-* o 0 rmA ' m ly v 21 30 11 121) jdn AGAI mpg#) I w 1 Z AL-M IX, 6P t9 7.4 0# #t 9t @If"" in MR layers a A-ft. - --Boom dw -- h.." I 5 0 V. d"W V. Frideriks wid = am'.-Expts. witit the we given. yok"s C,~~7~ of its tamm and of Its bending an of temp. C. DeL. We.st cgs 0 1.00 =0 CCAJUPOCAYSON t z oil 1), Ci Q.v 0I too P Af1 KLO R 1 14 66 0 0 0 * 0 6 a a c 4 a a 4 0 0 0:0 0 4 see 00 0 04 sese 6 0 si  T`trMWjT;x;;'Zvxv a 41 41 as ad aim L 1 07 f ~ 0 111!, b , a 0 . I f I M. .2 M. A a C A I - A-4-k-a-L $LT A140 ISO "gigs P~~ -ifo ~Ivglj 00 1004 PIOC98416 Ale PSOPIRMS woe* **A SO" of tbal UMR aw.-U. Orious"IM of I"- so trio asid. V.-Y"Oulm '!~t V'. AAG; -06 00 PbyAowWzd. U.RJ9A;'IIM%A '00 or. A., 19W. 13M.-I. Th* ~60 bactLielve. tuotbm in the liquit], vbiob loeti~" with OmflaWArv%th. X%t-4tmmt4vAbdWAot%'. of thlokn"a for-* "!714 .00 do 0(ka SPPW& OW, -JJLkkAI*A. >14 goo bertain Val. to a, -Ilk"MOW" =0 0 ilso AIX' x'06bW WW Ume -A mapedo WK*"'6* the mufiWO'd the SO'tk GWO&k &M tGONim th1*10611 ii. Azozyunissile it) &W ""aoxybem- cog **a but Whefi,pimud to tM Skettio JIM am P"Oeirk. Y amd" am orleerted perpendicular to the electric 7 x0o auke to the iurbAw. %-[* dWrilabed. ffW"M-&aoWdiW.lo ZoohWn role, wUkt di a firwylidetse. n- Mw or'mb* &OUOR of 'h* *kwMd WU h" Adw NW ambyliefermbendfine take up Positiow with bien dotennitW by hived4putiq tho do the nwI.-axis; panfle! to the fines offoriv. Theorkrit. go* action oftlectrio anti magrietfe fidds an a Kqvm kyw- Inji elfert deiimslo on the theimtrie sutiouin)py of thr 400 quit, the Lbowedad to + PA$- 117 1 t with the 0 nLS. 1U 011cat of a ma o field H. can counterseW by an See .:j e S, the vvitio Me/S, decre&4ng with temp. woe .. . v 0 AMI the PUACW ft - 0 A of (1) have been cafe. CAL use FRATIMI CLASSIFICATION slow SIVIIJIT. 141jotj "it O"T oat slialleft. 6 1 9 Is 9 4-1091 Lt. U S 0 10  god gaidaii a "710 110, 11 it. is ~ R a 41 0 Is Is u is Is 00 A As LLLL"_AL.Cr_ . A , I I . It It a I A-LU I.P M-71 pf #a .91 1.018 The effect of .00 00.1 the magnetic and the electric field an saimo. Uo* fluid alixtur -00 V. TiVirfli,py, S - S. 6. 17 1,41 (.,,. i " I 00 1 hin layers of .00 Isid nlixls,~6 evullplVIL Oft. cutul 001 MIS- wt'll'i'Onfined ble. Lt." and -00 -0 It `onvrx 9" surfam. and the nie1j, to Newton's rings, were studied by polar. .00 o0 It hen a tnagnetiL field PerPendiviar it flar.I. It- Pl3ne surface, Or an elev. fiel,j 1wrivridivular t. .90 S 1 he 'a"fact' wul almlied. "% large "". Of I'll"I"grallh, Of he go 0 IW!Ierlln are rrproducvd. Olixt.. If 00 ant"k- und [net boxycinnim ir Will. 11% Well a, UjIll, othrr Go j =0* i"MOOM11-4 lititsiti-crymal mists., give. a layer well ari. v I-PrIldiCular W the %urfam altlwuxh the pureirroont. Go rmnents Itihn layers oriented 1,amile, to he gins,4. or so goo e t Of L6 roagnetic field it was shown that in thm go *0 oti th" el"tic pro dclease, 11 .lore rapidly with in- g terop. than =it magnetic anL%ouopY- The goo ft" is, detd. Gel rust. that cbww)eri-3 the elastic llfulw than fly its Z; )y the trattsfor"166011 trinp. of the mixt. rather The -,do" uf this coast. for 3 tYP-- pic fluid are cakd. The cf- .1 ruiAt. %how% that the dk AV, definite tes"P. det'l. fly the W. W. Stitle -90 ~h: Off AS*.$ PETALLURGKAL LITEMI&TUNI CL.SSIFW.A TIGN we* I - - ____; _14-1 - 0. 43 T--,--v 0 a a 10 HID it it x U U pil Cott Kit T. 0 0 0 40 0 :16 0 0 T4  'Wei ad of the c4u" of (he mdom of the Satellite. Me miew I* as dettris field. V. T lj%~lijj, Ams PkIii. k . 00 U. N, S- S. 4, WI Wk 034 i(H OVIIIIAn 1. t I in a efit--eview of liu, irmilts dewfibiril in tht- pri-vi-shuX ibe effixt of magucik: auill elm-. fickkan univitrupit 00 '3 is.. it is shown that the Chief eamw (if dw ItuAlk"I is the diekv..&uijw)i ropy of the pft-j"h. W.W.Stilh-r go. 1 ''710 VVIF - ~ ~!"-: . IMAt CLAMP % L A NCIALLURGICAL L Is 0.0 13-t `-F -T- q it! ell :41 Tun, Its vttttg I it '01 0 OJO 41 0 0 OTSO 0 A-A-A-A-A-I a s- tab "k-'s osplitl~ ........ - ------- rill), ~Cpt - -T-U An a S I - in a I 0 a Olt 0 0 0 0 9 0 0 41 0 0 00 00 06 is** of* XOO 1:00 ,So zoo  1 0 0 0 o l 0 1 6 1 0 R It 0 0 to too w q IL 0 0 - 11 - - 43 a A , t s I If A10 110 000111 oo to 00 C ! :-04 Pireiration of adhesives I'M raw materiats. obtained k P POW. ,1VO its U. S. R. V, N. T1%,lIllv- LeC 00 N.. % W 1410; Khimi.'Kir~tl /Ahr. 2. \,% 1. 1W., 0:0 -00 A ne- nt fill new flot lbril 111111t.0 ii-iii air own. A41,11ii. to %viltlulw I's :~" 4 t'.111 G.1, An't M10 Itive twt filli,l,i, 11-tifell" "Al ::: tift"I It milvent fixt wth"sit" (rimi vtttIl'ttC Formulas for mtjhe,4ivl-% pfrINI. IF011) X%1Itik-IVCTUIlA Willi ttv%in are given. Butyl and rtlivil wetal- Were UiA4I .11 l t l di l 00 '"twi 1111V r i ~olvrnts iniltend of the toxic I*nlrllr &fil W R Ilrim W90 00 A to IL AAITALLIMKAL LITENAID01 LAMPICA71CM L------ VPVit i A i - i -It m OT U "A a is 40 0 ; 10 ;1, 0 a 0 a 0 o 0 no 0 a 0 to 0 0 0 0 0 0 0 9 0 0 0 a 0 6 0 0 0 0 0 !boo is 0 is* a 1-1 i w I w w 5 il i-i-s-~- iw A 4,14 2 4 0 a 0 1* 0 & a a 00 0* 00 04 90 04 00t  ~-# ~69 1 4 0 1 9 V 4 If 1: 11 W IS 11 F It it 11 M M a v x 10 U A b.. 1.- 11 L-L-A-X--L-JL--U. P- Q~ LA- AL IL 9 1 J-AA--N. CC. iv. a OOA . -.. - 1---------- : -06 Eftnt of a MAKWIFUC fiold an the vi"Osity of the 90 :wvW1Q14."1r1M =cuuwrv (Aaa PhyaleoehLiMICM IMS, S. 77-94).-Tto viseadtv was ta"AfgaAed under conditions for which INAunille's law hold. With it utaguetio O*W (up to 104 gousiff) normal to tho diret-tion of How a4 lucrown of visoocity ax inueb as 1000 ~ was obtakbo.,, Tb4, "nem was greater for r4 0 JIIA(F rates of flow And disappeared with v >74 em. =00 't.1ir 7o.' explaina,disempancles of proviows COO re 'M worl 4, deo*tfffed with temp., bomming e4pa 'lass xero at 135' Or . InIftmy.1, 4nifib"le -;o, Isotropic liquid). A parallel L O~Aeld. 656ced I a decrease 9 of vinemity but of m&Tkr magnitude than with the ;ze 9 normal fleld. J. A. K. too tie 0 SL A SCIALWEGICAL U1111ATUSt CLAISMICAMN --- ---- f too* it! : S.- i 0 tat 4K 4., '14 An U :- 4 " ", ; * I v 1 U I IF No 0 it ir It 0, 9 It U It It :"D IN ; -i_) : 0 : : :;* a 0 0 0 0 * * 0 0 0 * Of 0 0 0 0 * * 9 0 00. 0 0 !*so* 0 0 0 0 0 0 0 * 00 IS 9 0 0 0 * 0 0 406 .6 :15  - F . 0 It u Is 14 U, 16 it If If a V 12 a 30 a 3u6 v A A L-. I k I I A L A It -L-ALA -J--T v I -l- A-A- i~"- Al 14r. A*V .0cptor'll ~.Dtl JEWWralclet of light In cullmotmple EqWd#. V. - 14 o S P l Th Ph -1 s"'fl. l ' . . lyl. W. ~ R.) a. j M11 (WIlKwIl.-The ft"MCISMIA'MY tot P~901T%nlvilc or -CrtoytyhMsalogifte r4ai-rd in cillirr U trallsvVI-v tit a longitudinal Inavietir fwkt attains a max. at :141111) "efillvdi d tt 0015 d fi d an imrs n,g wn lmaiie up to owrwr ,. The 4 Polarization cof liltht fratimittril alons the itutface Liver t i rompleft, in ritbrr a tram-rvrrqr or a longitudinal fi0d ,I 144-ti.1tial "Itithi'llty" i. dile W thVilital ovillicilinim of nwl p,nil,4 fix) latir It? Jw mktit-A bv a 1SWId of Ormfl.df. F, IL Hallima"ll J! 00 0 00 j 0 : 0 00 AS a.$L a oft ALI. URGKAL LITIENAT01 CLA jJIFICATtCK 1104. U n; -AV AD IF 9 it CIP tropic air IC 4 of Ct it it a It 1 0 0 0 0 0 0 ol & 0 0 0 * * 0 0 0 Gio 0 : 0 00 000004 0 4 00 0 0 0 0 *,* 0 -00 -00 000 zoo .06 ZOO lies a** 300 2*0 Note Z:o AS 0 1:10 0 ag 4- go 0 a 0 6 1 It 14 a j 3 a v 0 0 0 0 0 0 0 0 4 0 0 0 0 111 Z 0 * * o a 0 0 0 0 0 0 : 0 0 * 02  MAIRlim * Is, - - - - lot a p I 10111111MIS 31 n a m ]I v m p a At v ip 4-1 -u--u- "-4d 4vx-w sale A k A- 4.1."."L A -1-1 A- A -I-J 411- It 1 !" LAO-m-ap -A- -4. A- 4 1 1, 8 -t. r-"~ TM- to -Pit$ uilit S~au*rlm -41"NAM& liql,IA-. hm"UP401111 iu - UVMMIV,4d Iku. 11. Do. v- ZVICTVOV so H-1207-- 1 130-140).-ThmolWm mmmurmmts on Uquid n"O fWd, ull to 22,000 -00 gou- nave been made with p4wticuW Wemnce to .100 M"Eim Eit suff"Et IGY-ri On tb* PmWga. JWh in tudinal &W in Uamm" A" Max Man, =0 Faiwkwity Is MWasid *4 2M gwm MW yeuWns un. b4hw Add *9V_1w, The e&4 of &K :0 strength on the degm of depolarLutkm has am bma congigJered. r0 0 IL The staw 900 to the Iftemel ~~i vo 0 lv'"bty '(1) "WO, b'Y*'&'m't"ox'yb~mival' Menandw and the inawgim of nagnatio 11" up to 20 000 gwm an go d" of -rLaimuou have bem zwed no watterbs a- ! ma U =Jr 12 11triM WO cAlmot be in y the th" Irom. stein and do Breaf. 17 K A. IT A ILA TUNE CLASSIPICATION Z- 017ALLUP4,K&I LITER - --' - --l'.- . ; I ;7 t a N 0 m It I ff 14 5 'j a 0 v Aft iiIomwn IRA a 4w so a a, it a x 9 of ft It  0 "I I ki CTH 10 itU 34 It 11 12 30 340 c#1 a u 'm *silf Cie n *:7 7%144- AyU A ftf ..v wo llv;~- "Ilk .471 .1.1 WIL-42MI IV311MA111ka. VII I oil Ov A 111111 I A Pnaw3 pintm *dwvmuw aqI L" 00 Not 43lumv *as) 'PpV No 04 P4'PPV M JO 3-QV 11""=W 43'UIP 1 (4 ~m *UP I" 'm q"Ift' Gq' 00 -p -wM2qp paw latds"u, timnav PU A--bwi 10 SWaSM qUAI. 'J~Wpb SUPUQqJC alUln V DAT4 03 qXncFJ* ON wm 11 " I* rAwl oql " At- , v T! wam www3u, nj*Asuvil oqL woo *-vm aqj tq ivaddvmp "go i go poll vqI . 1 1 -"wjuwAworv-d jo *op lo owli oql 6"wartm PIOV OwgAwwl'111 Ptm 00 mul- 140V O"13"a Ivulpallsual It IM WIN nn 41 poq~- Aspiptil" o0-, * 0 is~ I eqj Au"Ifl-'smit"m to/ polp -41M paw AGIMIM'D 'G*qO.L AmMdvO vg A-- OPPIA rf"a0m I* G~Mmvsif n,-,MqWIV-d 10 ^014 00 -it 06 so V5 Ir woo 49 T' a A I 00  I - . tow we W or: I P& 0 0 a 00 a 0 o 0 i o o o 6 0 '00 111 LA (a a 1 14 1, u m a m if Cc ' 0o x ACUM of Mao" am U" an law of t4mv. A S3 00 / "W& G. SISKiIAILOV Amu V, ZVKTF;E)V. .1. of Esp. ai. TAOW. PAYS. 1 09 9 J~ U.S.SA, 9, 6, pp. ..-The paper continum I 00 a 1 previous work on the action of roaffnatic and electric fields on VISMjty in 11 00 the-ticpb-,ImoAb&tra"44W(1939)1. It is shown that the affect Of A magnetiC field nonnal to the flow direction reaches %aturatinn for a 00 4 field t1cperuling on the velocity. Tito vi3coity of p-asov .yanij.)te when its 00 m6lecules are oriented parallel to the Slow but nonnal to the velocity gradient III found 11) be about 4 Ur"s the vLvjAJty when molecules &to nomial to the flow but parallel to the velocity gractient. From the sinjul- tancous action of magnetic and electric fields It is confinned that the effect of an electric field is due to the orienting effect of the flow set up by the electric firld. 1~. S. 06 U 4; CLASIWKAT*" S. I L A AgIALLM&CKAL LITFIATURI .. .... 0~- ONE w ii~,. A "at, " -00 .00 -00 .4 -40 so* go '00 cop 0 8*0 wee see too woo -0--l V TTA AA & 0 As 4 U 10 99 It 1 114 o * 'm 0 * e -0, 0 :100 OW 0 0 a 0 10 0 0 0 0 4 0 0 see  91P ow 9 0 * 1111 0 & 0 6 .1-11111&-AFA-mw~ * 00 * U U A, Is 14 kill UU wil A L-A-A I 1-1~ AAll Po 44 1 t, 4, t 00 -Is S 3 06 74. Fbw Of 'a to'&Un# 615, 1939 /it y_ g, a. 601. 00 00 Russia".- firb, ("I galj.~) And hence Imuluces it by a 11496119 111agnolit lie lleivill1i on tho 1110111. Wrligth, -00 410: Couplo 011 it% tol%taillillg %m*;z I Ills C1101 11torpretmi 114 the 01we4i of votati(Ill al"I (tie toollpemlill- This ellect I' I gtjU(;turaI linits Of the liquill 00 due to the stnall TutatiOl"Al luub"'Iy o' the ttcd from tile expeliluciltill t;ryptal, and the SiSO Of thew U41ts Is tst'm ClAut Ra 10-' to 10-8 V111. 0 T S L AUVALLU1101CAL L17111AILM CLAWFKATION so O-V W 4N,09" 6-V i .11-,WY -f 4 6, 111 U U AT 10 IT 41'&o 4901:1toft: K K a Ion 0 0 6 0 : 0 0 o U LU  w w NOW w w w OF RIP w w It 00 ILA NO 11 Dill 0 0 PROCUMS AjO "Oplefics mail -00 00 dred of asp 4ectils; 44M an dm Swessudag welocaly M a -00 04 c a*uaq tow a 04SOZY&RIdole. .0 G. M. Mucha"tall Ada Physica- A. S. S. IM-WI, 'Ger"u).-In a Chia U . ' . Nil 4*WbWbW eke. Add the r&U of Bow of anisompic P- -00 0 Atozygahwis (Om ISO) is grisaw, In a urasuverw dec. .00 Add of low I cy Iwo than in a field4fee ciLpiUary. Fosr tM 1w1=%*W (> 1401 then effccu are not .00 ob*KvW. Not 1111 Me CIS" Of S U*MVN`M goo 0 effecu obeaveid *=Pt at low stfe&u"g yducitks- lo ft and hi d b of 00 0 a ecrea ecis c e s With wamang freque A iam, t 000 M x - 0 X 106 had no effect con - x izATJ effem observed T no* 004 vaidty. he indkatt that the Chassage in Viscosity in an clec. field is not r nee 80 kw but to the dec. due to pwdy oemdog effecu ot the L4 0 %0 cuffent induced betwM tk deoloda tbivugh the aniso- h 11 R o 00 matan . at tropkfiquid. F. go 00 are 0 900 :,00 i1 nos o 92- elo* 510"1 1111,811" Naomi @*-#Inv woo NAI / Idno" A 1 1111411111 lost 041 449 9 Is 9 1 w of a a I v u 19 AT &11; * 0 0 0 0 0 0 0 0 0 0 * 9 0 0 * * 0 0 o 0 0 1 a 0 0 0 0 0 0 0 * 0 0 0 s 0 0 0 * 0 0 0 a 0 0 0 0 0 4 0 0 0 0  .4 000 t 'Oer Ploveimmt of oni9otrople Uqu;Ms in a rotating znagnetic JUN. V.XYzTXRy,,(Act^ Phyxicochim. U.B.S.S., rotating M&grAtiC fleld j)-"oxy&nWn is at in rotAtory motion, and the torsional moments thereby communicated to the walls of the vow[ have boon me~. With Incresaing opmd of rotation of the fleld the Moment increases linearly to a max., and then decreoAm. The max.. ent, and the fivquency at which it occurs, cc H2. m 0m With rising temp. the max. becomes lower and shifts towards homfrequenclas. The theory of the effect is worked out atkL the diamagnetic anisotropy 6 ca1c. in agreement with vats. obtained by other mctbo&. F. J. G. A 12 - S L A ARTALLORMAL LITINATUIE CLAUWKATION !It S4?1000 -d I t.3040 41F C.V ONC U 9 AV 00 At I ; a, &I a Poo 0001'0f 000 0 0 0 a * : 0 0 0 0 0 0 0 0 0 000000000 W-W-W-W-w-IWF 0.1 a., Give -00 -00 .00 800 =go 0 0 coo coo ago coo zoo ice* "go -00 Aloe 1 90 let 100 'z4 ff -i jr w o 10 so 06 00 0 as*** 000-0-090 as** 00 0  Z6*40ioi4iiiiie- I W: 0 so A.. A-I.-VA", lot, A-0 .1. .,lap ..Vt. *sue "d OWGWW &Us on the w limpow saz j y. Pa " ty 1 if M 4 7 410MAY 4111 . aniwW JA si ftpU~1"? Ulbd. Ph)-Aowbhn. UAAA. 1M. tw6v t v ma lfo t f rawa o o a e S field on the otrosming ydocity of "zoss'aniulle (1) : rwhoo a saturation YA. fc* wAft, iontly sirtang "I%. r j h 0 43 w axof 1) on t Ttw "ff. or int#nw viwwwiy or 4) w tile ustat. am poriamucular to the altraw AM larallel 1.) tho VAXIty graillwat to AIMIU4 four 41"Wo tho 44wfl 0 when tim mols. am arrapt"d Pon1w to the Ste"M slut rpondlouW to the irelocity grimliont. Tito simtll- or in I "On Of A MAdVA*JC &M 611 fled rit? 110141 IMI " t t IKvninvMIpW. 71tecliawint1wairrattilng time t4i the du ld l h h B U I l p it 4L aw at n t e o frout t e w4mot orlmitation of mots, by the ckw-Adc Md. A. J. St. 614 RtALLUNGICAt W911A it*f CL AUWKA TICA U 0 AV so is a it ft I a 1w 0 N a I w 49 1 4i 0 2 It4 Is 04 '*a *0 see see bee- 110 0  0 0 w -w - - ~-- , '17,~ ~ k ~~I v -~ NO 0 0 0 4 0" 0 4 1 a f to of a 0 a is 0 w 0 a I v a a 30 a a W-w 41 a It a a m 10 J, v a a 00, , st","d sm iq~jswmu w &woe*# I - Wd A Ph i U U R S S V N AV A ds . s. . m m. . , . . r. v.-- ys -F V'r-lostimit 14 m tl t o f th ) ro m O , . . w T e in rulatims ptaxneik- iscoucluded that thr Ics are u = wi Is but vVY:V t Vk snZ % , ,L of the crit, Ot to , ; X ch non-petiodk rwatkm around lite equa. JXAMon k - r mr. anlrular devimitim of ICf. C. A. 33, 111M'. h . Glad P. 11. kallunall" I h 4 - I L A 116TALLUR"At LIIIIIATWII C&AISWCATICAN U 0 Al 10 A - & a 0 0 01. , ; Z a 0 1 a a a I a a 0 0 0 4-0 0 0 # 9 0 0 0 0 0 0 0 0,0 0 0 0 0 Isft$ -441ii, ad 0 0 4 1 N 41 0 0 0 0 0 0 0 0 0 4 0 a 0 0 0 0 0 0 a 0 0 0 e 0 0 Tree 0*0 000 609 3140411 age gGIS, roll Sea golll 8040 "Oe Joell '00 U*e, is a V*  ox I I I au 11 14 an 41 00 00 A 00, .00 00 9 ~ "Wft"k U"14 kYm In The Op"= lim. Pk Ad " T M -00 Of a ar. e- a V Y ExOd. W-480A German); J 4 It . CUR 94741(im)'-whan Uw & o. R-) 9 rk"fl (U PAY# 0 00 A . . , , 01 l I h t h -as 1 ua at t e mu AX14 of rcx&tim Is dirs"I so t 0 IS Intswaction of the puticin do no kindet their rotation w MH t A .40 ant t thr 6M. the pbamadioss""wentbetp the - b o s r d b l M .40 e c e su e , t otime an o m it* polarbatim vwtw The Mutts Obtained an AMMYSISiock md,satasYbensal- 400 00 13 :Ane Wen apm with than pwimtsly fowd for awsy- 11,111ax sin 2m (what a - phan 4lopkement. 3 . lam goo o* factor - 0/4, go - wtational vdodty) b b b l d f coo 0 ~ m a t& m th t evveing well w y %lien the axis of rotation III paraw to the larm xUdmQ ce btbaws as a omfimum to wWh We mut h b t 11W0 00 t e w o an Interution lac an tm Main tsdar. Us Opp, b wus- moo 00 tmted &M ~mpd. ditts ore given. F. ff. Rath- goo of moo ae * d b0 4 bo LIU*IXAI LWli;A URI CUMIFIC11111" 0 Iva" 11"IfIrs - 910- VdWIAW W 0 saftost -'I 21110110 "it Ogg oat f im AV to A$ It 2 1 w x A I w 0 0 0 *1 0 0 0 0 0 0 a o o 'r 0 0 0 0 0 0 0. lo * 000 0 Wo 0 ~6 0 0 0 0 a 0 0 0 0 0 0  00 S of 1 to it so too 00 00 00 it 00 81 1 D6Wctiic cansteat of a =avi" tudsotrupic 11 R - 130-Min Russka).--ey mesas of a 0 In Xk. tlhtt~Xop"" of p-Y 16: Wy are found to vary Ttwelty Oe ADW, the suawlt of the imapetic- Aelldb~aUW' the temp. At 119* &M r - 0.1. cm.1scc. the orienting effect is 20% In a field at 3000 gausses, 50% for 1000gausion; for 2.12 cut./sec. the effects are 87 end 93%. The orkndng effect folls lissewly with temp. from 90 to 120', then rapidly to zew at 134 '; It iticreases rspWy with H u Sausso, and only slowly aborve IOW Saums, the =Valat bdv almost Independent of the temp. P. It Rotbmasug Ell NLV aftV 04C 1611111001 411111 49 4%V tit U n AT 10 a ~ I ; *, ; i o o o 0 0 o on o 0 0 0 0 0, 0 ro-I o; 4 si Ir" 0' 00" 00 0" 0" 0" o 0 0 0 o I a 0 0 0 0 000000#000000000000000000000000009000 zoo coo zoo r. so* so 0 goo so: too too 0 J to 6 1  v jai a 11 If 0 id a IS v a It AA to-ml . h a-*q "I-tOpIll Of6wift of f 6 4 T Stmam. ! 'ZIN's )rim am V - -Ttitored- 1 S: a 6040) PA k , . . Wd. YS. T ML& o( the chup of tk dickc. Prop- cal-mtk. On the t plc liqukb in a mm tk &W, and the of aniso" Sej W!; C&Ct thmm at the rate of toot it im Shown that the czp"Wwaay olm--cd eff--b (cf. C. A. 34, 4031) Soo cuuwt be g1pialmA by amumin aid. mms '""bW Wq,.d"Uy, wbm= the &w.Lmptim that cuh Ws. WpsaW swam wilb alb mm tban 2 is bW&-d In us ow Adm: by tk Orkatiall Wd Of the Fw&m co"Pl" to, too am tMt Brownian awtion can be attktttd txpkim thew effects. F. U. Rathmann At*.$ A 7 j.- Idnot'j -f 443050 L. *-T off f q I u It Al 00 IF a I* a to v a x It 9 U; (c0 o 0 0 04 0 0 a 0 o 0 0 0 0 0 0 0 0 4 0 0 0 *is 0 0 0 0 0 o 0 a 0 o 0 0 0 4 0 41 Q 43 45,C -*-. I.- -~~ -01 see coo lose cope ..Igoe iltee Vim saws NILS11 OK Oxy Ltt LA Aft L I I (W 0 0 9 1 It P I AS 4 3 0 v W 1 0 0 0 0 0 * 0 0 0 0 4 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 0 a 6 0 0 0 0 * 0 0 0 a 0 * 0 0 0 0  illuilloil vist its a 1,w) t or"Ift tk&t*Hcl field with I he x 11 lo [.,4h it* flow atut the ON . 0 1 4 7 W V.L - ' * i I I 17-6 1119111)(i,, R it); cf. r-A. SJ, 3M.5 , fit I IV ce. ll a Itoll.ver't v ~ L &lit 9"L 1.319, as NNI miLitmet6: f1whi, Nat vs"I't. role ill flow lvxl*v,~t fly thir- "I wallet its the vvhwily gradkilt, the isictraw tA I jisre-Favir clifference P Ill S./64. cm.). (tic vi*"ily o( Ii. d l with wire ig ejec. ficM strength E e, matter the bit her 1111)" 0 t i l Rallivallimsk (Tilitir'sir fly the little 'if t M thevAtift the , UM, l fi ) l l i M 1 s ). Ar r ; a the frequency r. Fivir dx. (v - S,iti "ilh f lth" JIWI 1 ( t d W ee sr. V% %e lit at t l l 1111 xty. r 11sily I till I's "O t - 4XIII l t W t 10 i I th f it l 111- ~ u T sr~ -ro%~ an visiv s 10,M it"ll' fiet'l Init , s ma h th i X l lee " rvola or o n- o4v,l i ools irtir %%. . 11114 it I lipulill thaiiKir Af. r file it- tile malistriv A- t e itins 4 . . it ax- min. s the firiall value 4 .1, t is tissolLvAly IV- asul -4, ir-w% -ill% t1wr la-ut, Jiff"t-sive P. .1-l-W the v6-1 1'. Itweratius .. al.ve I Ill cyl 1" 41'.. 1 1, )Vill 4111, 1"1 by I With ilk-TV4%hlg P, at 3 diffrivist If to 7INY tilt 97(11 twMicau WILP WIS ist hi t h li t%,, stn": st~ a -- the AM at all. The dev. fwll acv, )y of the mill. allimillo ulf of tile tfirliv zoo es , a ra . , ; s ' 'If I 1" 111414"'. it 6 11 o'.M. .0111.( 1". " If 0"" t C" , . . g l It St es or IV is I ri I I., . 11, 11 is t he I W 111 , I be , (yr," I W IIf . i s coo tm able. this, at It . WINI &till I /F l"Utues lilloilid-ty. ar lWittlent 44 11W 4"1 lite IlilleT 11411.1. tile &ill *WY Mfg" *I RJ clov,'"v. Tile talit. value of Ari'r is givralim-foo mal I~q,h illM 1.41.4 111, lklill.1 14-1 a tell flit. coo pffietwolly the -alliv, Al""ll '.lit) 27.4". f-w 3 diff".141 elvctivith'. .11111111i'llills alill sull"'Wils . I lw ~4111, ta. flog Iraltift of P. UA, 10, atilt Lit g. ml. CIFI., 31"r%lKwitfilld its. Wisest ill this va- kl,w% still 111VAll vorlilsirt, ixtrultilb,"I i-I 00 it 0.21, O.M. aisd Lit) vin. we. 'rhc vNeFr h.. to-, chv. ficl.1 lite 1114" lost ilklicatc, clikid. IWI'A 1 0;0 in a plane valitlary of two'.. .4 vely livarly rertangli. cflrvt~. 2 lat WrI1101 0A X I the f-irs-0119 Ossmollim, are Aj,.jyMj)j.1ll- ill a IllaglIVIj. Ij1Ul thlit ilk'll-A.A valid 64 a oloanel;. 14,hi 1-1~1061dt 1.1 file tl,,w 1,111 1.14. .4 t1- .,mliciltd. t, Alld tile itille't.. .4 paraurl 1.0 the vv~oiljr ICI-Il'til; Ill a fichl perpessitliVI'tal. that is ssifallel I.. tile l'"llet We 44 the 'c9the graidwill Illir tit tile magoictic delli. At H the "till- , I lieCtlinVAUT WCtiOll Of the 4-111,111A . the rf1lVj is 111tich 1 pen-satlois Is complete of 0.3 cm./scr.; tie stninger mal. uirril tte% tit flow are tr hl hi h f i i l &W Zoo " tile %aill. value Fit julm"": at P - 3f.M. rill., at 1 , cvvn~ t etra er t isrt c g y q The nuir" %hpw ftiult af-%ut the %&tile Wis ill lwW 4"". atlaill-I at I - k ivily :vW; . lit . . X t A 4 & &*tdit4xliiljl (Wlits to( that 01141ftily. I i% vollic"hill slittri. 4 - )* ti r1w r I hot at If - 2AU, at Is nivall Fair 0 "a M r110, 1-Y islicnit 15".. lit A bo'llito'll-i'll ficul. so 1.1 [tic f . she ."kittAlitll .4 tile Isivil. 4%r. twilwtillicillar to too -It A Illasoctiv Alld, [a lh+t, tit attaill, 97 till". Stali'llvally, -tartilla trim" ti. "Mirulo rate% 'A 114rw (Id 0.1M to U) 1171ratimvirm jeffirty's, equalkat fvwr tile itu-sitcout actiog cat an AtKi, I he law holslN -011Y at lion. atilt at-mr. whore If, :2 lwtk-ic ill & WhWity-SI'll4liClit fiVill. itItAXfttCinl the h 1100 "Fictonli'm .1 the a%- .4 e ties.. 6M. itristi di.. moncesil title ill the inagnetic amt t RIA&II OK GIV. all IW 0 4 IF I ill 0 2 40 9 14 A I I 1 a IF 0 a 0 0000 00 0 0 0 0 0 1 -000001000 46 0 0 4b 0 Fill,o _k5  jf low R#kxatioa ftesow" III. Amboboik Lkat in a Rwaufts Movirwal Flow- WS N.. Aa, PA A , m 11, III H11*314", l0h I-11KINS .%1t amt-tagal"Is o( the 1.11.1~TlAru of 11,1110. 4'.lItIkft"I 411 k)nx thAIR 1AH'Ic'uh." ill A 1'.1milig 11"Id 11 i. 1..Ulld 111.11 lite IlLml 11'.41 Ifolle Ill 'ttkil Ilquid-h-jkluis ul-ol ll%o It W I it. IrN.Authol Ill the 11,41 It the fit'l "I th-, 1.i,tws viol the vttlvr~,J w-l'-L 1.1, 1, U'UJI th, it the ".%ld la. ("T 1, .4 o  " I , I ~ t' ~4 - XOW*Wu mraftowAsA In the AWN*** WOA *AIIo, V~ 7"! tdp PAYsitrochim. U.R.S.S., l9it- 11, 132-147)~ Ilie c-AMIL' of existeraft of the anistatrNAC 'liquid state anti the trandimorntition from this to the amorphoomis statehave beeninvezatig- Atud. An aniso"Ic liquid Is rvgardcd as a systiont of moix with 4xial symmetr .y with an ordering of the mot. atim extending o%cr coonsidemble distances. The magnetic and optical properties to( an animitrupic liquid substance am d0cusimed in connexion with the ordering of mots. The transforarriation from the anivotropic tii the AMIMIatmoo state is aorcompattied by a sudden vhAnX,r in the ,.t -to toring And Iv A tranifeirmall(in tit the lif%t kinol. iiiropkimt t .hangor vil heAt arapAcltv (An expremion fair whith is given), in jai 4 tease in Vot. And Almirption of beat. %. 1. m  OOA ood 00 d 00 :0 vim, A. SdIllidiiM Aps physic, 720MIL PZ. CU. S. f an it CouddW the &jd'Oiftt Am ~X"*Q of ft ut" of ad the JL Mot *=Cry-* a rmdu &tAlmd show Th ima to tbs no. of tw I* ip~l of Is "Ms.. am" owe an shown Ralbumn a s A SCIALLIN"AL Lff9XATM CLANVICATMIN goo .00 goo so* 0 use 000 goo Ale* goo too WOO goo too 0-0 4 0*016, o 0 0 o 0 o o 0 0 0 6 0 0.4 46" 4100000000060000600009 4;0 0 a 0,0 4 0 o 0,0 0 0 a 0 a 0 0 W.0 6- 10 SA 010 0 a 40 0 0 0 0 a o 0 0 0 0 0 0 0 0 0  O*r 004 *00 000 0013 0 Otf son 00. 00- 00- " w 01,6 a 0 9-0 A t a m 0 110 0 1 1* 1 IS 1 9 13 14 If V 9 0 P 4 81 0 0 4d 4 Oleo A_, I , 0 , A t - , ;T (b lootaffla 14P .-o -I- M,14-t loollmo m I I oil 0 -7 it 0 Ad x uuvwg)w"'H Fjimv*t_& v -4cxwv Po Ann P famw ow sq) UO a N ~ Om " "1 wrop Pdrl A r , p Am ba &v 01 *- alp jotp mAto" Insp 'IN ll , - k 00 o 0 Rd" p A W WO - 00 o 0 A "P op a&" KL AMW P* Inw ,q ww 143110 Ouq1WRIMI wwld*m" 10 "t"m aql 1" 1 00 1 it" %vp -1111116 10 f, Aq 'PPP Oft Its"m ond $Ids" #41 moneww" Du 21-Aag"o tq ps" an am" an AMP 00 -on= W "Its W- 04 o" Won;=" q3MMAL am 's anp -"m So a-Wuad MI 9q1 700 alp **ml OU -w"d VJNM on D)tR Imm or %"Ipmm SRI ll"30"Idw d wilow ap "l T43!11M u-I *qI SO *0 10 " l "LA,dov3Mftw V on ull a t 00 t p p 14W mul 1, IM) ttlf VP j , I 10 8101 -_.o" *I ~ a) kin. ta,16040S. 10"A 00 T00 L A 00 I* KCVO of"n :~j 10 T" *-ftm roe tP . 00 ---- a--ir-T 0 0 0,0 0 0 ~b 0 Lo,  Jil ~.Qf .0 as A A L-A LJ 1 9 A A-1. M M f 0 A I I V 14- E-J ~ I- L AA 0 (X 09 U 4 is Is 6 a Is I Is k j Is a a IL* 00 4 IWO (49tal 0 The sashurs, of dynamic doubts retraction in rubber .6 solutions and the rubbet molecule$. V. N. ,Mpo of Tswctktiv and A. Petrova, J~ r,.k. Np. :-O0 84, W41.1i 101 o); cf. CA, 37, :I#A:P. - rise Ili)* bili.- 1-00 o -.I 1-,w-llxq. polymers, r 9,, Isolymilvirtit, with 7 - 191111 fit "'Ilm its .01 Ut" 11111) Soul 3 l tw 0 . w ll . " r r :i wt 114, trflacti%e oult,% : l1 IItIm- 11.111ANIUCCI..islito. It i k 44 Its I I 4 - I-K. f(W 'istatirl 100 0 ~; i , ' %1 "",11 tile rairld ahrul C, list- -ino( high liolynart!" lVi , . lhtot h it onn. (:I III ') at is - 1,49, The r1i.- .I / -00 If !. .tom). and e,( Al I *ill. z owri, than Vislaums, 31 In x"dine ~ liver Ilso-I I~ d1w Io '111 unj-II,.pv of she J.Jvtll~4 ' so f , ImirArly. For these couil.l.. the thimsvitit-4 t-i.( nkit. rills anivimppy must Iw pr.m1u, -f th l i -00 oo,j am/XCq ( C 6 the timcn. of llic isolvil cf it, hillic It. -11101 . . , e nui . S nce A. itlertim-i with g rven *Fitu thr istijit. W exism-lina 6 mir 1). and file r1ev. bispItIngr1we 1, 111.1tir in 0 0 .3 1., aoul .1 the Illarl0w7n)IC vl~11)41Y oi the ~Ulllj is the lime3smallvirthan that f-pra traight lo4yiner mol Froul 00 00 1 sinAlfirr the Kreuter k C. this Is title prolmably to the tim-ro- . file Z value's tile ratio of tile lunit And I li~ 'll'ut sits, of the -100 Oo a wooral owynity losing stroall,r th.ui the 11101. 6CAICIL; (.it I groull ()I tx)lyillcf% it 14 the greatcr the .3 0 0 -flic. It ib I'minif Mat file Inagnilud, / - J1 f h l Z higher the deli" (if jii~lyineti,4ttoo; it,, ilivinvi riolyrners coo vent, t e So ind"i4icist of C. " is the viwoity o l 6 i l d l f it is the greater (t(sil rol tile fewer the frkv %ritivi grssup~ coo so viss: cut o ithA m of Nistanex in tctrabyttrousp rpen siutp. betimiren 121 and 48% anti tim-rcaics wbcn tbc t(tols. CW-19'. in tht, I~Iyruvr. 00 ! is further irwyea%elf. Sinfins. of L-us. divinyl polyriscris c.(tcn ' b I hi 1 f / l C i i l 0 0 09 X WVII,. .) on o Wil l l Var % DM #18 111.1110flua at , W be causicif by impurities (tak. fruln lualticatioll, cte.). - 4 11s)(11 15 h ti tk i l Wh 0 Sec. e ex nc e rwfva~ up to ni ang . t en C , 4Ic%:Tcaw* for law-tuol. VSulymcris, rapidly tlvvrrA%s:% i Ww, AK Inch F-lymers. and varies, st-regu4irly fitt costs. divittyl 0 ;t ISO 0 too AW 0 0 TM &%*.SLA 111YALLUNGICAL LITINAIL411 CLOSIFICATIGN 9 z r:: SIGN. 11114,111. ILI, riv Q.. 04C 00 as 4 AT to is if ; 11 ; .41 11, a, .1 a, 1. .1 m 1. ~ 1 v 111 9 All a to,, -~j W. jR #A L a FW 0 it - - -- 11111 0 0 04 0 0 41 0 * 0 0 0 0 0 0 0 0 0 0 0 It 0 0 0 0 Ole 0 0 0 0 & 0 0 0 0 6 0 6 a 0 0 0 0 W A 0 0 0 * 0 0 0 0 & 0 0 0 0 0 0 0 0 0 0 o-j1-P Lv-jL#j Ip ja,:,~A, 0 0 0 0 is 0 a * * 0 a 0 0 0 0;  a a 4 9 Is 11 111114151a U&I z? IS 34 a 16 V JOB '20 111 It V 13 14 is M V a M k 4, U ~j a a 131 u AC L r F I A 11 F Q~ L ,1 31- - A I I JA AMAX.A.U; L~ I.. L-C-A I A., k - 0 T", 00 4 0 0 Usm"Mild Md Assiod 00 110 d V. ZV!!,k 0 0 00 A "A ! ~s ii ate t AV. V. R. S. 5.. 11". 103).-The effect *6( Zi magartic I Y 0of fiefil an the birefringence of axazy-ardsole and -phnictole. anisyl. :a and is cc (field st=h)l. The vads, ipn of magrictic'double rvirac. '00 tian with temp. Is iaveattgated. There is a sharp incream of *a %x-x -x - at lower ~=R., indicating a considerable develop. -,a* me. 00 8 nt .7 the "r=1tion:,.structure under, thew conditions. An d, u, W bor the isotfor A t$ that for normal liquids. Streaming double refractim was AW uudw with the Above Aut4tAftes. In -00 the caw of Asoxyanisole. the streaming double refraction is very 'At, and may be corripared with that of conc. solutions of 0: Cah-payme'k polystyrenes. A. L.. linearly with velocity =00 gradient. The offect of "p. is almilu to hat on the magnetic a a double m1raction, To explain than results !t is Assumed that in 0 00 .31 add of this Naid-ccystal phase are tr i!Otroq:ftd&iu*,a~f thus swunp are cak. by the Frenkel f rtm d. theory of beterophan fluctuations. 'ho*rnults agree satisfactorily With VAIL cak. from the eflat of temp. on magnetic And streaming !a6 birefringeme. The swarms are of comparatively small dimensions. The shape of the swarms is also considered. The abnormally large bitefringewe In a stream of asoxyanisole would appear to indicate Zoo that the swarms are not spherical. but the theory of Boeder (A.. 1922,571). plied to And the transverse and longitudinal dimensions. a show thats= an I t spherka.11, the two dimensions differing =0* -11%. It is considered that the deviation from the purely spherical shape is due to the motica of the particles in the stream. "a 0 t A. J. M. 11,00 00 A 5 0 - I L A Al!ALLURGICAL LITERATI11111 CLASSIFICATION __ to U U &I N et If U 'I U .1 If I R V 0 1 .T.- a 0 0 0 017 0 0 0 0 0 0 0  nil 004 00, ~5T- Of -00 TZ,_=d It. Friervart, All. 00 o* 1944)(in RmIM).-Tbe magnetic Jouldc cc. .46 0 tM ti) at =ytene of vwWw degre" of puly- '90 00 Orrizatift . 1 ""4 v=y If""' -ve (CA. ", 1Z) I.abUh1n*%W1% Measure "untsold.andjoes shumade. Theltrmalnetit"ist. 00 after 174s. thminal polymeristalkstsi at (W t1usbis which IV increased many thousands of Woes. Ody whets the polymer had became almost bard was a ticercam noted In 1. These revolts support the hypothesis of a duster- like mot. structurv for the pol InX:1v,,t,=.,ovs nor A 0 or rod structurv, for both of =h C* 1. decrming with increasing tlegree of Isation. is Ii. no ~4=ed The conmVincy of I unt I ost cqunpirtc go 4 ti~ was attained is attributed to a cvstain to e few freedom of rotation of the benzene nudew within the 00 a mol. The possibility of a slightly bent chain- =. consibiting cd polar monomeric links " devoW of any rnulthin moment 6 not ticludett T. It. 1). g 1:0 q goo _1L A 091ALL111GCO14 t(TCRAYWC CL&IWKATMN NOS j j -:77 2141" O"111V was 1134" "it C"T 04t qJ19111 00 d"I Its W - U 0 IV 10 Is a YA ill'"OVIVOIN 09 1 ;191 ;er'Zi R* 'M o of 0 1 W Is 0 a 3 6 -W 0 0 0 0 0;o 0 0 0 0 0 0 o 0 * 0 0 0 0 0 0 0 0 0 0 * 0 * 0 0 0 0 0 0 0 0 0 e 0 e 0 o10 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 e 0 0 0 0 0 0 00  0 0 $*too** & 0 a I, I its by 111940 448414 ew I V 16 Q if W is 10 it " " . =_r. A A It L .-M L_oiftlfa j A. -00 06 00 Is N TAvcsknv An gbutittooto solutims undor fState VVIV.). H VrkmRn (Leningy& V I los (Plh), where -Y j4 Ise 1 . . iAt#*' Phyrk"Alm. U.R.S.N. 20. con* ! 9111winfl4l VI*ci%ltY init" nt 'he soln.-, r. ln~A. concs. 4 th l 1 1 1 l -1 *0 a C trut to vioca"Wlic tueosurecnentx the inTutigatfun of tbo e so 11 1a n'. 1 ustil. Wt. Vibro 109 V Is PlOtted " A function of log tb oints _ 00 *0 b1trfringence of a colloidad win. under flow leads to con- give 9 straight line the slosw of which is tM valut 164 %p 00 chs1gv%s not only concerning the bulk of tM suspended l ti i it l i i the given man, Froln the rMI)h of 'r To. Irs, It is seed that 100 06 a ca ut on. moact e. op r conf gurat pailick-s but alga the 14inultanconsly the flow ouO d1m),tilinctry anisointily -Y is Pfollortionall to r at d d lie. obtained from l f it 0 a . , Ilivo angle- a. and the vi%-os- r 081), the r%lin, I ie o tile Ittaf t 11 11tol. wt. By p6ttill An L".11g) fnr like louf R Ity at the jarne VVItscily Foulknis (j) at which the optical 4 l l d i polynterm It wits ftnind that forl1i all bffieggao IS direct 041 9 tti- f n pa 11Aea*Uermrnjs were tnw C. wvfc nirsiure y - btetyleat (1) w4ns. An the x"AsAine frarl" b0l""S At 120 atio to I 11P to Values of mblof sgvwM tt"s of thou. - 1 d oo 0.1 - the ap was 40- e olmile at 16" w m ct All san s Pec. at g - (it 7o orx sec.- 1 ism inerea., t i - t 0 p. si er intexure s . . 7N k d P t C A d f A "jor, rapid rate; t ~ ell Stu IS : M It rV re noticed t 00 09 t%v an r tars, . . tvrt ortner papet ( In a devOte with- k-Al chain mob wbkb fornis IT 3=1) 1 37 F 004newhAt low" values tit t and for IV this e&tt 6 ex 090 . or . . p . , b W k d d hibitcd of t - SMD-&X)r) xv.-t. par V The (VM in ' no . 3 et . i out skle branches. the configuration is y *.s g rinciple rv ture of the rMin of f c h d f long- line- at the lowest values of I xTrUablie (100 sec.- s). Coo 094 00~ u a egree o e actor, t p i~; vakne". At ordinary tenqm. I Is already hi a rubberlike Signer (C.A. 30, 2481)) found a shnilar tfiimt Far poly. styrenes of high mol. wt. Tfle 01utbo" attribute the de- too H, ittate. To characterize the mol. wt. tit the folmPles v of yrstn Film Oquation (C.A. was studied th ir &A"I - front oportionality between an and g to the =g' i a r Coo 4f . . e the bulk. V. waie drtd. fly plotting VaA a fune. s t on t e 11101. under the action 0 "At defutolmiork stress c%Pefk-ncvtl 15Y the inal. uIlder flow; thus the iapid A Z too 0 lion ral 11. it. - bulk conell.) luld eltrapolating, VO Wito obtained. By uveol K. - 3.07 X M- the mol. WU. Were change W the gh" td :he curve an m /LS) for the polytitef of high ft". wt. lisrano that its nwls. suner an abrupt cl,)n. coo I detd. (rem Mu4nifer's eq-aallon. the vahtes I;mr the ton fation orl rwhing a definite "Critical" velocity gradient ago sAln re). 13Y We of the av*UrJ)le data of the C-.fti order of coo 0,0 w I'lag"Ituft gtc Vahm-i are obtained from Yvenk.1's (C.A. tbev"lleally derived forn 14 a (A f h i 000 . l . n. , t er art crew"t off V exilcrielltys an irrevcniMe change resulting In a knwffWc at it and the tuagultudt of the bWringence. F o th l t f I i o r m $ O a vs. I e P t s wen that a dimin6hes with SITAMM&KAL LITINAIVOR CLASSWICAl" 41P Was,) .1. a.. 0.6 00 , " U AT so As to 10 0 0 " n An kil 0 , T a 0 o 0 0 0 0 * * 0 : : * 0 0 0 0 0 0 0 0 0 6 0 0 6 0 0 0 0 0 0 ;0 9 o 0 0 0 0 0 0 0 * 0 _0 00_6 : :. 0 :1 :0 : A 0-9-A-0-4 0 00000 00 0 000 e a  it"Itrating values of C'. that for sainq, ma,- Ilor rijrvr wax lower th h t vidusts of X Altaitleall agm Over Z Corlett. rionp, 'I'll* fact that X 11 0 00 er t e firri e I., ... Zvol". Ilifilatryessled thir anti 011hple :/4 and Wit 0, it mmu"I. with the " frimit6w, twtwftn the orlentililloot of 11w mills. under Otpw 'offectlys, in MIA, *(An, resUllillill 111 6 iff'67*440 (if the d V l I 00 4"-t the AtfurttlM vbco%kr. IU hydrodylisaide lo(re figetimr. m voty"Porldinig to a dtfillite value (If a ism or im- os. ' I(AtN,44alloo of rutv# I - /Q) "'T 4 X In-. Hy inestol"fing an almulosummisly the "Pliml AWMAropy *1 - xt, onc" ff; h 00 00 00 t "UW SfXFUt Aw differe"t concov. The expti. retatiaws ' . wit i solmotro" rose lb~tl with it""" ld = d 00 "0 not Nllnw llorlrr s equatiots (C.A. 26. 311IMP), " dveltaxi"AT with locirsolng valuel of f lo'.ve . was e lilt vlkhwe of C; the st," inereamed with Incleasing c4u" - Wtillic"t4ly unit" flow rj A ri l ex 00 * 0 Alvirly than that required by theory; theme do'gat His fur solm, of I may he due to a large extent to the defuntustir .W tot r . t gamAiriv w4tw- Ut I %V" oftivily a phatwCA.Civ effect. The 411l 0 and te"Jim of tfw MOIL Z, the dynam"tical !1TW C."t1ibuottv, at snhotropy oLvAskiord by the sbMW of the and the intrinsic snim--)py,j the pascirle submitsme 6 tool of 00 00 was to". by the fumula X - am/Qlt ur Wily V1 W lorfirre se ii the uAvent q. (.; r~ - A" = . cot"kiftAbly Jim atilt dMelows with incle"I"ll 'Iva wt- in tile Wn. FruM the (IAtA hjWr And it% nX1,11 j ) of A 1- for vAttive td 9 at which tht .-AP "t IV. . IV " 11M that- ~ ,fv .116w11 grotal.this 00 so 0 jfg was Will meldinvar (11. U1. C sow W . tile ooAs..A I to, mal, j tile lit.A. I.hain, 6 hittloily ossfe"BUA U 11-4 in SaAn "vidnal Mol f k Of 0 00 , . ~a o an tat the coailjurat ,bet" Fix, U the itutith is 211 Clines the dislat.. sd~- ,K: ollorip, tivis lnctr*wq with the degw iA vyxierim.".. wl I 4 00 00 00 Ou P"Y, I mum Y The Irrenter thor cluol. let. of the PL 00 Jim sm, J)uHf lip still the olmoter it the a"wKint 4A ' 00 a th"voy IWOr-11 hotiold with it. III "still wilh killos b lot 67'"I'vf4i 1 ".01 PAV. it .3 6WI Al St 00 00 . s ). C A . (W -am. lieriwd Wh" of 00 so 00 00 00 0 00 moe*O*aoaoao 00004400G4 00:6 0 0 0 0 0 0 0 0 0 4110 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0  l - N -b - T. T L-4 k I A a 00 'A V I L a A& M ".12 - j t IST AND 100 b I. go 41 ploccills AND old 0 00 Rod'it'solmts n do M ma d )Oe -00 o a VMT,=. fact i " b Op I-so o ts . m J' PY =CA 7881 40 vi o* 6 -' . I scometric , and dynmo-optiml inviesdCatkas at sofits. of polylm~ 00 : u 10 wivents am rv ned be . " ~ 90 effect of The savents, on 114 the a of the selmit c dn"d ur IU depood- 00 . ~~t r in &mwd ith the Wiener am pewthl-Stu"t *0 gbcww so. met. with dedron's roults. By studying si- ne 0 06 l multassommly the Was of *a bb"c"im an and tht exthwism AWA a is - i0 savis IS It was v ; j h s m = t 4040 I "venue vm the meft An t *feet C4 the In t An. I h i h h t e r s e pko(*. ape. and t the dIfferem b44wm the 1 f f d l h l d f i *0 pt . an fw w o t e momio o w o tutIt pa mW ' .6 t to fo nd whi i I I d t i h K o c u i s w n goo agrmnes t s , ubm conceptions. Froin the nwuured an of tam It Is possible 1 to cale. the vol. &M shaPe of "WIS. In $94- Tbll soo btained agm with the values fmnd by tamerwift a wd " O W T M scar . Q MW. the pbotoelmak An, I r0 0 WOO too *t?ALLURGKAL 1.1111RATLAI CLA41WKATIGN A too viol" llv1vi;-" slow "Miny ' INIQ11.3 Ott- o"v 43-C 616AII 69 GNV Ilk 1k I. AT 00 &% U to -* 4 F401 - a. 41 p it 01 0 It a It a PCU;I; K"A . I 'a 1*, 0 : 0 0 0 * 0 ;oT,.s 0 0 V 0 0 * 0 0 0 * 0 O's 0 0 0 0 00 9 0 0  A A f-ll. 00 Ar oej *oil 41 in Ab 1, S 6 t I 1 10 1 c11 11 " 'S " 17 is I It 14 L_j_ r It L-A--L k.- 0, r "Q A V L 1 A- T I 111111 ItAttelvil Ln - -IUUOt%s of rubbtr. \~ rlvk,ikov U-11111 - ht., I'c (*,,Pt.led.,--IJ,'Aii.l',R,V.-, 47. J, I "kbj V"' k V. S.S. dfr N.47.5.1 lgiVI'll ('.1 -1111. 1.1 '4"'. 1.4% bldic4l- that th, -'PtW.1 -.1 ih.il 'ua, DID 0 -1 U 11 1, .0 LS! prlp&44 Kit ma Karg it It 0 o o 0 0 *0 0 0 0 0 0 o 9 o 0 0 0 0 0 0 41 T440 a 0 0 o 0! 0 o 0 0 0 o 0 0 0 0 0 0 * o 0 4 b 11 a N t t, u Al i" AA 08 CC VC tt I g I. I" I. 1 1. 00 _60 of -too t- *0 ~gtoo 0 0 ;woo J" I 1 0., FT 8 aqa 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o9 00 as o o 040400060000 o 0 0 q  *#A 00 00 A 00 in 60 09 0 :0 0019 004 000 0041 0 0 tj 0 00 W* 0 it ti 1 14 W 11 1 10 a M a SAL QP=2k ad birtIrWwo d wme liquids. V. ,.R. Tsvcl koyt,& Mimilins and G 3-fakarov Leni,i - Acid Plyskorkim. U.N.S.S. 21. 33-M(1044) 1% ITUSILA A quant. study VMS maile of tind acoustle (ultrasunic) birr. fringence of uilt and of solus. of hikh-mol. t. ymm. Pure oil-, e.g. castor, CLA&T, sesame. tillsecd.;Lf ralland c-v I-liv". how~l a linear rclatim between the masnitutie of d"Ifnic Nrctringencr (.114) and the Velocity gradient g, with Avlmt. tntinction angle of 45'. OU*cmvtg.M[tAd&l linputitim Armed a variation In extinction angle, decreas- ing with g. With increasing temp., An/S decreased rapidly; furthermore, the ani"ropy of the liquiff particks diminished. The acoustic birefringence JLUCM effect. ComPl. rex4. 200, 927(108)) was measured by pudhir a light beam I cm. above the surfaft of a quarts emitter ituracrud in theTcluld, and observing the rotation angle of an analyser. A lincar relation was found between the acoustic birctringence (ax') of oils and the amplitude of thewaves. Purthermore, AA1 Increased directly with the frequency ~rfd varied In y with the temp. A method for dets. t abaoluLe magnitude of the energy of ultra- urn!z- vibrations was developed. The relaxation time for .ADS of polystyrene and polyisobutylent was found grcatiy to exceed 10-0 sec., avid the factors in the depoly- meri,duc action of ultrasonic vibrations mete reviewed. M. L. Mtlsen ~_j a. S L A ANT&U.41116KAL U19RATLOZ CLASSIFICATION 49 0 lei 1-00 .69 9*6 ~=00 CO 0 goo Me* ~640 no* 9*0' VOO ISO* tsee 'fool 0-1 Flo$ , j F, - 1, 1;: An A 1 8 4d 0 0 P I IF so 9 AIR a 3 W V A! 0 0 0'o 4 0 0 S 0 0 0 0 C 0 0 0 a 0 0 OL 0 0 0 0 to 0  a it a is W it is 40 -$1w 00 00 040 D"Oud"fift of tiered by VW , - ,- " q (Ir" d V K i a ? 00 n an v . . In I kay (IA-nf"gW F 3, W 6jv.). 00 Ada Physk"him. MR.S.S. 21, 00 --vit, tievotariAstica, tot light m-attt,~,i At right anit" hy ImAystyrtur wa% joludi-I a, a funrthai,4 fluir t4 ImAy. so incrizatlM. For the first M-10 hf%,. depolviLaffirn rr- 00 trutined mist. Thereafter, a 3harp th-erraw was #?nrrvvl tit p. and N (the natural And vertic-ally polwjwl ineWunt beam) followed by a grailual increasr. Throughout tht, 00 ript. pa (the boriwntafly polvized brain) traiainol equal to 1. The results we interpretetl as Indicating that go the inacrusuals, play jut itupcorfant part in the %cattering, and are optically intich less anisiArtn& than the mon- inerk tuols. The constancy of n indicatrs dat tht- inacrotWs. are sinaller than the wave length of the light Ifourv C. Tharfirt, It ASR.SLA *tTALLU*rJCAL 1,11111001 CLASSIFICATOOM As it U it 0 0 Mi 411* 0 0 0 0 0 0 0 0 0 9 a 0 0 0 lmed-f-AL 0 0 0 0 0000 0000 00 0 0 *-* a -00 1,06 -00 -00 00 goo 400 goo 130 0 Aro ::o 0 .1560 coo t r too o -OM 910 411A] a 3 1 410 A 1 14 _0 A,AI-U- U 0 0 0 0 q 0  Styr#" polymerhation kimalks; study by double nfraction of flow. NV. Zvvtkov and F. FRMUAN (ACIA M.";CAChiln.. V.S.S.R.. 1140. 11, 07M-Um; Text. Inst.. 11117, A =4- Invmfigations d-Iont-le terractinn.4 the degice (it dep-laii-Alion of -raffered light. and of visc"sity were carried out with stviene at Ififferent stago of pn1 'ymelimlion. VIC an"Dullons ntuiral properties disphiml in the WOO of Tinlyinelkation fire readily sarmpled I'm 1,11 Ilse I'mis of the tollphapetplon of the slyalron. 'The result% nt extinction angtt Owl vi%fogily "ItA411fe- menf- fe-nd !n vubjes for the rimernimlinn and mean miecurm %right I.( the jm-?ynwviu4 Imit. It fipf .11s that tile TwAymer mok-rufar Wright atInimfilt mami"I'm a, a very early (if twily. meripallon 4ful decrem" A. the ptormls. The variation of The fal"lir,11141 01V11,411111- "fical consiont with the rouv%c of flolvIncli%ali'm is similar to that of tile m4cruLar Weight.  TSVETKOVt .7. PA 54T32 NOT/Doo 1946. Chemistry XUatIcs "T heDouble Refraction of Flow as a Method of Study- ing Polymerization Kinetics," V. Tevetkov, E. Frisman,l Phys-Imt, Leningrad State U, 22 pp "Aota Physicochimica URSS" Vol XXI, No 6 Investigations of double refraction, of degree of do-* polarization of scattered light and of viscosity, carried out at different stages of polymerization for styrene. In initial stage anomalous dynamo-optical properties discovered. Concentration and mean moloc. ular weight of polymerIzed part determined. Recoiyedl~ 7 Jul 1946.  0- 0 ' 0 : 00 *000000000 00 ? ~i ; k It" El 11avaical methods of invostitatilm of the Istructwol of ' famok pal yonot inoirculto In solution. V.N. I 11-Le'd : 0 Oll.t'view fill 0 P 0 t$i--Jl.lflY -11 the AillbOr'll RMTnt W14% Ill tile 110141. ZOO -voo 00 go 00 09 .1 ;f it A Asa Q 1 4 a 3  A method (or the production of gutu-perthit Wine. % - N. rvvtkov.,I%,t M.-%.Syvhv- Legkav,, N- 1, 7.;,7; "I-46H47): Ekem. Zemir. 1947, 11, L C.A. 43. IK'Wiil. - -The primfocti,"i of Mini of glit lit -lx,rt*lLi 11.2 tom. thick 4, it thaintilil.wic adhi-Ove Myrr for %hoc in.tnul. i, Tlu- pla,ticiiiing i% dciiv cither by prrhrj&tiog lotheliatb-i 1.111V gilt taliell-Im volit X. It'. t han 8,; Iti,ii-ture t-All 1W Ii-I. TrA% i It,*-, hoorsl ;tit iorrvaw in isillw%1vt- s I rvolth isl S I I if. sivo r thit obl.tined by I lir uiiir 4 got I I.s. j".rv!!,t %)I. Test, on rilld. timlertal 5hintril an invtv.i~ ,if .10 , k% twit thc filitt iva, tt-it. M. Ol M-t'  Sul 11, WO 10, 0. 10, .0 WIF.T.47WIT11,11710. W. 1.W 4.1 W_W_4F_w'w_w_ W-w- D n It w PO 40 41 U 41 U is V. 11 F_ Q It I I V. I. -L j_-L-M IN IX M U j~f_ I t I- I A. 00 A A-0 I., I . -0: .1~1 FOC.101". fAl 00 - - - - - - - 1 -0 9 -0 o 00 00 The introduction of Were Lnio gutta-percha Mms to In. *0 crease their therinal dabWty. V. N. Tsvetkov and M. S. a SychcV.1. Lelkaya Prom. 7. No. 2; *T-9(1947).-In an attempt to ittetch the available gutta-percha supply and, at the %4me time, make superior pnducts, Ymious addi. tlwsAcrr tested. Nre gutta-perths gave& value of W" In the ring-und-ball test for thermal stability; 107v rosin - so Ar decreased the value to 81 % 18% milkweed increased It to 00 z W, 15% tju-sagbyz to 94*.25%tau-wghyzto9I%28% a* j kok-sagbyx to 89% 15% Soyprene (chloroprene rubber) to I(W. anti Z5% Iionwene to I(W. Marshall Sittig Co 00 ZZO a 0 Ire 0 -00 46 goo 200 WIMP lill-- too 9411~-In. bee a ACTALLURMAL LITINA7441 CLAS11FICAM" I --------- --- via., t! 161441 aft 4111TIO.C Is 91 0 4i a 3 U At PO As opl, OPM all wo nan Itar"On 1 1. dful 0 * 0 0 0 0 * 0 0 0 0 * 0 see 0 0 0 0 0 * 0 0 0 e 0 IF :100 00 00 0 0 0 0 a 0 0 0 e 0 0 * * 0 *Is 0 0 0 00 a 0 0 0 0 0 * 0 go 0 :149  -11. lyls "pill) Dj4abnjI?#'Jujl Lill 1415 bk it v is 44 41 &i ti silo ft J -JL--L .,Jj b P 9 R I I V T,I_j 1_,,L AA 0 Up "4j I I 00 00 00 A; 00 04 of goo 00 The depolarissfion of ILSIll licsttvf*d Its $Oluttw$ *f (A 0 #1, 'Isvetkov aud V. Friuriatt rubbeflilie, polymers. V. N, Meningrud State Univ.. !S S R.). Oold 041 a 2 Rubber -00 Tnhxvi. 20. 40,4243'. 00 C. c DAViS -00 0 go moo 00 A=00 0001 goo ooj COO 0 61 KOO lao 0 bilbo AS&-ILA SITAILOP6KAL LIVINOIVNI CtASSIPICOWN tio 0 AM I I It rw 0 10 a I IN 91 0 a a -)-Q I f'rit", aim in 't 0" It 11 11 j0 411 0 0 0 0 0 * 0 9 a 0 0 0 0 0 0 0 0 0 0 0 a 41 0 9 0 0 090,41 0 0 0 0 0 0 0 0 0 0 00 0 a 610 .0 0. go 0 0 0 0 0 go 0 0 0 0 0 0 O~A alt.  PA-2'I"5 0 T5VSEFKUV, V. USM/ftaleal Chemistry Mar 1947 PolynerizatIon "Birefringence in a Current as a Methcd for Investi- gtting the Kinetics of Polymerization," V Tavetkov, and E Frisman, 12 pp, "Zhurn Fiz Ehle Vol M, No 3 2heoretical d1scuselon, exporiwntal data and evaluation of latter. Illustrated with graphs, tables and fcxzu-Ue* MO  eaq it If u L 1,111,11,11,11LAM ru-"VALU- I J J 004 -1 A"', , i. I I I I in a 9 a bileftialme mgtuis W awyms 00 hilletkil. rjY%tkUV..AnA 11. Ptivam ' I lliv, I'Armilgr4d). J. Pkp. CAwlit. All. *0 ~,N;I N094s); cf. CA, 40. M41. WMAI. 111A." lp,t,- 111111trovic 44 j.dyllwFisills .11WITIte w,ti d"If. III Ifiv AIIIIIII.Or I 4 I I I & 1 *0 1l, t WA~ ft,- III M.110471 " 11A,Rc WITI-ll IWIV M1111.1 VY faled. life cicarlilve wai 0.1 Inin, The lurrfrinjente M, -- as. divided fly the vviocily gradient S. W.4% inn. (IV Orr rm-1101firr and flex. 1,W partly Ittilylift-figed Styrene. 1,11v thAngir 1,( 4411 tx-cltfv At kill, 5-411h. Ovig"vol 1%ilyineft.. 1,1114"t AA lite muldc" drs.11 44 lite drstiv Ill 411.1tile Ondilvel C11.4111f All tile ClAillutims allsle AT. 'rite oc virs or, - a. ujiMin.1 X Are lirmw (ITT fill- monostiet And fig Illitit.. th lvIAtivv vis"iity 9, of which I% greAur than 11). For Illixts. of a lower degree of PolynierisAtion the ciertirs tire esmilreff toward the S cuOdirmte. The a I. W --45* ftw the animsonurr anti has a small 1`04, V3111C f.W jwtly Implyincturd slyorcir. Thio viiihic I ritrud, smi g. I:rtlltl file VAIII" of (ft. - N.)/g 41141 AT f1w ImItly IKJVtfwf. Ised slyteliv tile Curfirsliondills Vulucs file tile purr IXAYITWr 'Ifec3led. fly nic-AnsL4.4adrim'srijuatium (C.A. 33.'-N)141). From 1, fri tion bArtwern a IK4yttwr ti-I. and the mil- vent c., Imm tile frictiAmi lite mol, wt. A)( the 1.4yruct I, tt,f;. it 1, fivulld thm fill- tnsl. wt. dmveaws .1h.11 I-IVIIH111.116til I'l,werd, P 1, "fivis 9. 1% 11, like A ntltl~ wt. 1% A it I% 1 Pikirfman atIALLMNiCAL LITIMATURI CLASUPICATION 9W 11iiie-11,111" see see Noe ZOO 1:11110111 TIM (P fanallic 11112011,C) cil, m. ...... 0-bu mAv:u; so,", a in I I a ad 0 a 5 1 N a I a a 3 Il IF If ARM a 0 0 0 0 0.0 0 0 0 0 0 0 0 46 0 0 4 0 a 0 0 0 * a 0 0 0 T-4600 00041000 00 0410 0 0 00 0 0 ****so