SCIENTIFIC ABSTRACT SHAKHOV, A. A. - SHAKHOV, F. N.

M ~ -1 .1 iql 1~ I; . , A ; 1 1 . "ifili R ~ I I " 1:1, t i I I TA., i, i I ; ~ i !I i i Ili'! 1 1. : 111 111 ~ r it I Id i I T It: nll P , , ; 1 . I . ~ : ! I - ;   I I :a 1: "T 11 It Tf ifiz.,A, 11 MUD-  . : - I i I I I I i . I  'a MmElh - - m7l Rli"~-.~,~;lfi-.?,,~,,Yff-t~~l~ii~ mamil H~~Imkm hit ifilm,1111112's 11111 Wall 11, W, 111 1 PH! MH r ~ 1 ,,, 11 ". .9: "'. Vmollml1wIIml""; 4 7, 18 1 M'. M, ', ff 'N *.!.' '11"'; . j~ -1 4 ~! I,I:-, : 1; T . :. I ., r1p i ; I - 1. 1. !- :.- : ;. , - , [ 11;: - :i I:l' T;111~ :1.7111 i'l. .~.;! ; . I i : i I i I - ll~~ TilllTi 111.11411,01111 1 i ; ! t I ki'j~il:, N   9 1.111 1 V I HAI !m: V lil .. . .-. U'llit - !, `7 1! - I  . : I j!i 11 :- i I .I :, 1 11 ~~ 1111111  m I * i'll -11 TFIFF   .LEuRmgEww,,q 6130ag~a~ I I I III , IT., Iffl-7 al I  I  Hl= ,.I, --i r i4 r. m v1A, "The photoenergy basis of the adaptation of plEuits iii the extreme Nofth." report submitted for 10th int! Botanical Cong, Edinburgh., Scotland, 3-12 a2ig 64. W1  WN ~4.M. S,tructure of ch-2--rc-plasts in the ontogeny of pliants. Bot. zhur. 49 no.4~533-53'u Ap'64c j rasteniy imeni K.A. TIm!-ry&zeva, 1 Tn fiziolog,,.~ 2,SSR9 yask:ra. F I 1 tlp mt,'. 1~!~ p. Jill  -SHAKFOV) A.A.; BEHLYA, N.I.; ilPlIKO, S.A.; WiBIULLIN, F.Kh. Fi-1oto4nduced EFR simals in seeds. Biof izika' 10, no.4: 710-?13 .(MIRA 18.8) Allziologit rasteniy im. K.A. Timiryazeva AN SSSR, 1. Institut A. -L K)SIMI; InStitut fiziologril rastonly AN UkrSSI'tt Kiylev i Vsesoyuznr.l nauchno-issledovatf-I'skly Institut istochnikov tokov, Moskva. 17P   ...... .1-11!1~ i1;! Il il I. I I i z I Q i '! 1-1 "M . .11 -- I-- - - ... i , . ''..I . 1 1 , 'I , 1 .z :IV . . m , : ~! : , 1;'. :11 'll 11 ! - '111:11 IF T rl . RI 11 . ; w . :: I ,.II '. . I  m I I I 1 -1 1111 : 'I I '1l Ilv; al. i 1. 1 1 - I ~! ~ I. I..- J~.~ , E [I 1p TT PEIFIW~T~F~--,Fms-f- ~j e mufF !-I! -, nIpp,pF.;,    L 14296-66 ACC NR: AT6003882 tw lie: ~Lted from plants show or av ;chloroplasts separ these ed,that~sh , I . I ~ . , in rradiation changes the submicro ure of chl I tii': But, bw g scoplic struct orop as s. e to the photor e activation capacity of plants, some recovery from:jinjurl S, occurs. Thus chloroplasts of some plants are fairly resistant to artificial. 'UV-irradiation during the polar day, A second series of experiments was conductedat anjaltitud6 of,3200 ni; Where the level of natural ultraviolet radiation is higher ithan.at:'se'a level.' d When radishes were subjected to additional artificial UV Ir a iation aily for 10 minutes (irradiance of 1700 erg/cm2), changes in~chloroolast structure and pigment content~were observed. Chahzes in thd:piprinent content, determined b d spec ro y paper chromatography. an depend on the ultraviolet wavelength, the.duration of ir~adlati6h,~ stage of. development of the plant, etc. Ifi--complex effects of UV-irradiati More study df e on on p an s is urgently needed. Preliminary studies bythe'authors shlblw' e*d ihat in chloroplasts-of cabbage, beet; bean, turnip,_.and pea leaves, pigment con- tent increased during short-term UV-irradiation. and d66rease"d when th "lard 2/3 1! 1 T  L 14296-66 ACC M: AT6003882 exposure was longer. Studies conducted at high altitude' laboratorie� -have established that when natural ultraviolet Irradiance is fit h", ab`~ tib'n by; A 9rP 9~ 1. ~s leaves of radiant energy from. ultraviolet and infrared rays incr6ases.~ These data indicate that plants growing In extreme conditions.~sucfi as spAce-1 ght) use radiant energy in a wider spectral band for their vitalacLivity It has been observed that photosynthesis in wild alpine plaits p~r6ceeds, at normal levels or higher. This one of the reasons to s~spedthat with.' sufficiently intense, around-the-clock illumination,: plants. in Bpaceflight om the r conditions may not require protection fr ent! e ultraviotei spectrum. Further research must be conducted on the use of parts of t e,ultraviolet; -1 spectrum to Increase the resistance of plants to other cosmic factors. Orig. art. has: 7 tables. [ATD PRESS:~ 4091 SUB CODE: 06 SUBM DATE: none /..ORIG REF:, 018. ~:i.OTH.MFi 004 Card 313  L 02253-67 AR~~2k832 colleagues conducted in the far north over the post 10 yrs using pbotointegratine sphere method ZTranslator's note: :literal translation: of metod fot,ointegriruyusbobey sredZ7. Arctic plan's utilize radiant e energy for vital activity processes more completely and-in a wider rang they absorb considerably more radiant energy than they use for photosynthesis. A high degree of ener' absorptioD,(1)p,t0 95% and more)'L Ey was noted in the short wave portion of the spectrum', up~to 300 to 320 Millimicrons, and also of infrared rays (20 to 30%)`:and';yellow-green: L rays (10 to 80%) . Radiant energy absorption of a plant;changes in the SOURCE CODE: UR/0299/66/000/004/Go.06/GO06 AUTHOR: Shakhov, A. A. 6 TITLE: Ecological and physiological rearrangement 9f plants on the basis of pbotoenergy SOURCE: Ref. zb. Biologiya, Part I, Abs. hG32 REY SOURCE: Tr. Labor. evolyuts, i ekol. fiziol. In-t fiziol. rast., AN SSSRi v. 5, 1965, 5-17 TOPIC TAGS: plant physiology, plant ecology, photobiology ABSTRACT: The author analyzes his own investigations and-those of his a Car 12 UDC: 1 _591,1 j 1. 02253-67 ACC NR: AR6024832 process of plant generations adapting to new terriperature.and liarrbt fconditions; the author calls this pboto-adaptation.~ This process is- characterized by an increase in size of the chloroplasts:and their granules. Respiration intensity increases because of the metal- containing oxida.ses; and, the role of the flavoprotein oxidases ~ddecreases. On the whole the expenditure of organicLsubsItance for,' espiration in plants of northern reproduction is 20% lower compared to lants of southern reproduction. These investigations bave"made possible 4-S :int ,%he recommendation of measures for the devel ent, of pl,anu rina. ZrTranslation of abstracitoir, horth. Ye. Yu 0 06 2/2 pb_ Card Q4FWIMI 444 - _M_~ IM   I j Hl . ~ 111 111 1 iW. ".1j ; !, !:;!.~.L -.1 l*.'....,. FiUFf]UC7;Ef 1~ - M I '0 : ~! . ~ 1 11 F ~ i 9! ; 7 1 MV T "M llll~ f, ~ rVirlu, --~ 70, , (I ==l 111. .. , 11 ; I I I I ~11 ;5111 ~!  m . 1. ; I ..; 11 1:111 ii, ~ 111:11 1F .: .1T , ii-    I;!,. I I, I .1i I! i; ? ." -.- .-I... . t I- . ! ::, t i i ; ! 11, lil-iiii -111:11 , -1111.1.1".,  SHAKHOV, A.I.; SIIIIEAYEVA, A.V. Effect of adding small amounts of hydrophilic colloidB to nydrophobic coagulating agents used in purifying water. Rauch. dokl.vys.shkoly; strop. no.2:281-282 '59. (MIRk' 13:4) 1. Rokomendovana kafedrpy santek-hniki Khar'kovskogo instituta, inzhenerov komvmnal'nogo stroitellstva. (Water-PurificationY (Colloids);  MINIOVICH, David Semonovich Edecessed]; IRUSNOV, N.M., prof., doktor tekhn. nauk. nauchnyy red.;__ JjQV nauchnyy red.; T- F i~; :UfTl U-1   I ] i : [~ ~l ~:~!li I ; f". i : 1 1 !11.: 1; ; H , - . . . . 11.1 li. 11:111P 11111' 1 1  SERPOV~ Boris Ivanovich; BARASHKOV, Nikolay Aleksandrovich; BYY,1iPd1OVA, Etoliya Anatollyevna; ZEFIROV, Igor' Vasiltyevich; JOSUGHIN, Valentin Alekseyevich; IFESTEROV, P.A., inzh., retsenzent; SHAYWOV, A-I-, inZ ., retsenzent; LOBROLENSHY V.P.', naucbnyy red.; S-IOIEV, B.V., red.; KOROVENKO, Yu.N., tekhn. red. [Laying of a ship hull from scale drawings]Rametka,pri masch- tabnoi razbivke korpusa. [W]B.I.Sorpov i dr.~:Leningrad, Sudpromgiz, 1962. 323 P. (MIRA 15:7) (Laying off (Shipbuilding)) (Photomchanical-processes) W F T- P! -1-1 Ti 1-1-T - Mr -  f . I I I I I A 11 11 1 ! PP. : ;! I I I ~ I- -jil . . -, . -I i ., -- ----- i I I 'I , .1 . : . if!.! jil-11. . .1 1 . '11' 111111, il~ii' ff. - 11 1 li ;? 1 11 1. -1:  : ! I I . ; ~. 11 !:11111 , 11-11 1-1;.. IT 1 i_!  I ., ; FM !!. I .777-717 ''ITIFIF"",Mi."~14"11~mr-l~1,01.  SHAKNOV, A.I., kand. takhn. nauk, dottiont; Ml?.YCIIENKO, A.N., kand. tekhn. ! 1! 4 1 i i . I li i 'I ]l I i ; 1 11 ii I T All" -~ ~-Pl - , ~11! . I  I: 'III I I IIW I I li'll I V! f,-:! ", H ! ~~  - - - : . : i ! I I I I I I f I I I I I * -- I I , I  A L 11140-66 r:tvT(j)/EWA(J)/EV1A(h)-P_ -6- SOURCE-CODE: 0/0240/6 A6C NR, AP6 607 1 5/oOoTpq~/oI06/0107, AUTHOR: a of Teohnioal Se~~nce sh AZ _Sh khov, (Candidat Du ~ ORG: Markov Institute of mmioual Construot ion, Engineers. (~,,Ikov ski'y institut inzheneroy/kommunalynogo, stroltel'stv.s) _(Va TITIE: Bacteria idal~ ~4eqff eot of an applied magneti: 'tielil:: SOURCE: Gigiyona i sanitariyaq no. 9* 1965t I06a.107 tic: TOPIC TAGS: electromagnetic radiation,*electromagnp :biologiq effect, water purification# bacteria ABSTRACT: Experiments were c.onducted at the Khark6l;v Indititute of Municipal Construction Engineers to datermino.the b 'ict6ii,61dal effect of a magnetic f ield applied to contaminated. water samples. ~~ Tests were staged on artificially contaminated wateir:pamples,t~kenifioz the Eharkov water supplysystem and water -samples from'the #orthern Donets-Donbas Canal during spring flooding In 1964-.4', A ~;p6icial 12~w eireuit electromagnetic apparatus with the, magnet coilsion the outside Y.0 was 6onstructed to produce a magnetic field intensit f. 40'to 726 a/cm of 13-4 to 1,6 see duration to treat water at flow. rifti, o*f 6-5 to: i 2 m/sec. Electric power expended for treatment of.1' water wasi roughly 0.5 to 3.0 ii/hr, Degree of purification was determined by the Car 2' M)C: 628, 37   I . ! , il ! I I i I i ; I I., ;  i4dlihill- 1,11 V. ...... , ', . " 1 . I I . . I . , -, , , i. i ; , 1~ r ", ~ i1" airrin . ~. I I : ! I !! ~ , , Ir  i : : !~ , s , r, - -  i I ! - ; ! : : I ; 1 .1 tt L 1 .1 '1. !7i 111,;'. 111! p -A. 1 : , i . !. : . i 1 1111[  :- i ", A Tr- :, '11, , ,.", . * , . j il; 1 . ~r , I i -I ! I I It I I 1111 A: ill i H~~;11 11111 i ,I"IN 1 1; 11~1 111' II I :; I it; 1~ ; iI I I I I - m .t: I : : i , I I ':    i-J  -'D- 4VOL e 0 4 o A L jr At me Li if- if 96 87 coutipile" trulkiiiiiiiiii of Polymeftl Millift alre of the Tabell , P ~" by mesas of gavoctisis chintitir, D. lit. Chishikov avid A.,$. $110hov, rnvimato .1fital, i " 00 e41 1934. Not. 2, 02 2~The Ttiltril A fit 00 the AV. As (I.M. Ph 2.70, Zo 21MI, Fr,0, 10-70. S 2,61). Cis 0.15, AIA 14.240. Cut) 2.M. AISO 1.27. C(h 1,63. 66 1 SA47.110,11,00.32. A1316 tr./ton anti Ali Irare. l 00 on chlorinationi with alisrous Cl were car-Fird mit at Irlilt... , f~oo of "1 700 at 100 intri-vals. It was fooll'i that mr ' ' *0 irraird thus at Ml anti estd. with 11,0 sind a kid-41 4ji. 00 ,1 NaCl yields 03--5%' , 92-:11% anti tk)'~ of i14 Zn~ I'll slid AS, resp. The As volatilizes and ii as 00 AsCh. A luse plant for electrisly'sk of Nacl ii lKil's; *0 constructed in the vicinity Ili the ptilynirtalsuffid, tit to fursibb CII for lit trealitient. 0 00 E. IttALLL~WAL Oil- TLPA CL.111FIC-TIC. to A I N 6. Is V 0 0 0 0 0 0 0 * 0 0 0 0 Z 0 0 e 0 0.0 0 0 0 0 Als 0 0 0 0 0 0 0_0 0 0 0 0 0 * 9 0 Or* O 0 0 a 0 0 0 O I qp iii i J~ 1, 1;1 I-q  so Cs 0 * 0 0 a el-ele-01 6 0 & 0 so 0 # * * * 0 0 0 0 0 * e0 I 1 1 4 1a v it it ti u 15 1% It 116 It JD no)-A".-Yisnju it u0J,010 itw L b L.-I I I .".,V T~ .4 7 1 cc M91 4 9 v I) a45 0 1 , ee -7- 00 1 0 Somm adwr" of hydrateff fetric;citida. Z -~T'irkxi4v twrrl. hydrated Fv^ W% -h,- diffrmi ad- see wpiivr eaparifirs asid tfahshihjk~ toward J'%&jjC' A.Lid. The ratkm Ci-, and wj~Ct W, m%d V. air the totial and 00 'a 41)"Wbed sm"Uniq of malk- S61, -, Stu] M, the residual Slid 1 1 di'-Ave, rrN are charAciefimic cimstf, (tw any xmn "I. The KrJ.- were prrjW. by -imple ITin. frimn terrw 0 -An4- or by oxidative ppt.. fr,xn (crtou. fialt "n4. ZOO 00 a Of M22 64 1 'zoo 446 :1 'R 00 a Ow a At ij to it ~10 14 wid 000 of 0 0 0 0 00 0 0 0.0 go 00 0- 0 Poe of 0 0 0 Gi: Ole 04 A 0 0.0 0 0 0 0!,  0 0 0 4 of as a a a it 12 U id a)A U a 39 a a I IV it 12 13 m 01111 1? 111 19 is v . I , '4 -a- 00 r m I I L a X-t a -0 I I"I "C" -00 00 somato pomeams ad do kkwdm of usecdom Is 6o sub. 00 of a Md Om by molaNg du in diarids 00 mimlkm~ A. . bloWmv. - J. Phys. Cbm. (U. S. S. U.) 8. M"7(IOW).-Tbe ppta. pf Cu at 25" and 000 smod 00 low acidity obeys the unimol. lawK, - (2.3 V/1F) In GIC, wirre I - tinw In min., F - mirfwe of Zn In sq.'icm., Val. In cc., Co and C are t-mrn -in #.A. Valturs of 0 K' for Vatimis Griditirs nt "Cl zTe MIN oil 4A KA.; MIN of 2.21; 41.01 at 11,11115: 1). IT) at O.M; fl~ 1:1 at 11,117:1 j at IIA'snAl IIAT at 4.A; 0,141 at TV 1 11.3 1 at 11,74:'0.00 4,0 at 11.1111; 0,24 at (1.M.4; sit (111*. Addn. 41, ZIICI# fr4ure, I see the Me of rract~m. 11pin. cJ Fr e4my- the bimgol~ low 00 j Ki - 01A) I C.I(."#(r. - C.) 1. Valur- of K, atr about 11.1001 at TV and 0111.105 at (Ml'. With addn. of Cd goo S i jr.A.), the K, values am O.MR)'-"S at 251, O.CiaS &I rV)l and 0.015 at MV. F. H. Rathmann see 00 see 00 00 00 00 00 : see I Z nee I L A of TALL UXGKAL L I T91! a TUIPt CL Wf K AM* It L L., 11, too, I -Jff~:80 2 AD 6 1 VSul L I ft a 1 0 0 U 6 00 is a NOW IT t 41016; o 0 0 0 060 0 0 0 0 0 o 0 0 0 * 0 0 to *;!o 004 0 0 'S 0 0 elf 0$~O'o 0 o o 0 0 010 0 0 0 0:0 0 0 0 0 0 0 0 0 0 0 0 Ill'i ]11*11'1~ j I !I 1 1:11; M!, k it  0 *-A W-41 W 11i rep a 40 Cr 4: 0 a a 4 4 4 4 a p e a 0 IN is 0 1.a it it a i it n 13 ;4 is 4 q A J, It I k V m 1 .0 L a I AA if (E It' U a I .. 00 -1 t" Grew lead d1l0dille CakIM cNo hIM 00 00 C 40 and cakium chl'i&, c hictide. 1), C111,111kov and A, S. ShAkhov. J. . i., C Arp". W. S. RA 9, 1:W, 9:1011 Gentian 1.11):11 , E ! 0 * t;), 44y. i*,thrrius Air (1) illicit zncl, 11,0. J12l , MCI, CACI, 1 [,0 Kp,l ( J) / CI C CI i1 o -00 00 a 1,: ~ U A , t z" , , %nd jkl' w t - r v troll Ell And (21) till- .00 n1m; thr I.W111411-1: rhe min %Wv of IjCl .00 l - . , at foi (1) 6 004 S. at a ZnC1, cwwn. of --41 and at typ" it b 0 147 A , so il . g. at a ZnCI. Conrn. of 43.71 J./I49) S. of soin. of j n * -in - soly- of Mich In (2) at 2V ist).12 g. at a COCI.. Co Orn. of 4..M S. anif at ty), It is OXM ff. at a CACI, I -0O 00 cod Poi crt. of 4,17 g.- tiw) C, of in. Sr%tem (:;) has binary nts at "%': ZnCl V) Vt &nit C Cl _ .. , a , S. of Am. And at 611,: ZUC4 Anj c4cl, 2MAR, 9 !l0t) 00 , Solo- The ft-11% ot the i"hcrms of (3) ilbow the posm. hilli ty of furmathm o( a c~nplex,_ Footimn references A. I'cidvwW 0 no* too 00 4 Ld n I 'I. u u 10Z, 0 0 0 0 0 g- 00. -0 on 0 1": 'o 00000 '.  63 7 1 flollullmuls it a a it 30 a 1p fo a it 2 n AlauvNigail a Al a S 0--A A 1 a L I- m a cc 0, IL 00 00" 1 ho no- Wn pbwmw~46W 00 if A. i -041 I IM-7. ~X. 24- ;, vim ad the am (A the polaroamph for the mmly-As of goo 00 0,0 X00 11010 00 000 ~00.-Jr~ 41 '0 &SO-SLA .97ALLOIN.K.L. UIFIR.TWO CLA%SIFICATICN *0'8; 1,00 so --i_ -T - Ir u a A. .0 it! 0 0 0 OL~ 0 Awl 00000 V 0 0 0 000 of 00 0000000, ~9:0 0 ei 0 V 0 0 0 0 0 0 0: 0 0 0 000 **Sol  Af 41, A 'Apo1k%wM of ILM ftlioregraplMe Nothsaill go the Destoormmauun of Lei4 A_-4 r1a in rmammm r1too-O"Sicbste OW in Nowak 11110blems. % , 1; ~ I, Mv. )"JUld. KAIMI, 1.1, .11.1di'd 12, 1111). 1.1`-1-. 1,, "1"71 1 ltupman.j lit? -n I~ sirti-muirit sit tirw -i,l -: ii~ ~%~ . 4hrr nrutmluAmist %if the Aekl with -N.011 Iphrit,"Ilthrlialvitte. me -upp.- H. jgtv. Ill t, _Jnluni J-- 1,, tildI1211 gtjn.~llbli Ild 14. '01. 1. hf."Im"d O.Al.-I Ie 1. 1% 1 1I's -lums I it lal" Aul loss J..*,., 1.. 11 1441 Ili us. is ...... 1 1. -hitruinu-I is, -ii I - it-li. I- III' is blM 1-11 All'i W I'll 01-1 Sit All' 1141"- sit 1-41- Oil 1. V.-J, 4'. :nu, liml jul, Sit im I.- 61--rujusid atiorm-ft. 1111t,is III. t"Ill, M.. III,- _kfuph i~ 1I.-I %tilb I.SistiAm"I Ifill-ulphatl hil.1 t1s, 1- 1: .1-1-1 it, -Julum -I 1 .116. 111 willi'll .... I still, NA011.A11. I I'I H 11: 1  W: we-We a 0 a a 0 a 0 0 0 0 0 & 0 0.10-0 0 0 0 00 0 0 0 9 a 0 0 0 0 0 0 0 0 0 is Is 22 1 1) 22 a N 25 a :* 13 P, , I , L, I] Q 0 4 ro !_~ * AA ft CC UP 00 00 00 _09 00 00 00 Ail Votennumficom of zimc oxide in zinc SWA48 by aw Pwaro. 00 graphic owtba. A. S. Shalhav. Zut~hkA,rj LA 9. ul Lat, In I&S rAn 1,e, '.00 00 8 mAle 1112 tuethtwds.. ' arul Nilt and polarugmishing the Zn in amm,miAcal Cl 1 -00 6c and pL4aru- vAn.. and (2) e%tji. of the ZuO with I % 110, .00 00 j j- xraPhinxthcZufiA1fOAc"n. The re.uh-t,J Wth incth; - ~ .I. are in agrcrturnt littvirms theru-Ivroam) alu with iff; 15, ~411 0 00 hvm~ mviNA 4 the A. 14, T, M, Ptvl4vind ww voith 1,'v ROAr and titrathit; with Ksile(CS)a volu. '['he 1xilmu- graphic ammunlacil tileth'A is preferred I)CCAUW it i3 11SUIC rapid. B. Z. Kainkh LOO 0 .00 T, aeo ~_7 0. 1 L A ft.LLL-f.1C-L UYIN-T"I CLAISOK.TIC. 1:0 0 AO AV 10 L1 I -T - t-'s A I S TO --'W . ', , ff tf If K " 0 0 0 0 0 09 100:~ 00 0 0 !0 0 see 00 00 0 0 w00 dqe 0000 49 0 0 0000 0 0 0 04 00 0 0 a 0 ev 0 0 0 00 0 0 0: 0  11, Its 11, 35. s) i It, I '11] Ilk ilk, -hAli... look- .1.1.11mli.1h,11 44 v 1, ~ - 1-1- .L,muk 1,-r. Ow i-l-apliml if light it V- ilk -1- Thl. ilidivat, . that 0 it Ilk .1,11 k-, -1l.. em.t it, Ilk, 'It.. .... .. 1 11"; 111.1-~ %% 1, alom"A-41.r. 11.- --wlamdl ........ 1.w, W s- to 3 it 7 slog I I sit 26 $$.1 -,I'll I Ilk 1, 10 oil ... v.I god. 'I'lle I I..r i. I J1W.:1111]11 11-::- J 1111 NL~ I ;S1  K- I I f) 13 4 !1 14 -F fil 9 If b 13 U a is I? is ?i le it U U a t% u a 14 111, $1 0 is w 0 F'o A Is so 90 CA PlIt-I-Amitti-Itic 11, .101 1'. .14 .M.-Iv .161~rwd and twin"t ls~ fill'IT'I t1m,sixts I-Its" 114,i-Allw they kne their okkir and leave a dark r",lut, its, `V0 the filter. Fifty ad. of solo. cootie. 0.1 njg,-fA% wa,sw--~,f tit int thle fight filters. wW the abomptim of light by wait ~vsh lite mint filtm mm mes-aitimi. A d4vu-mv, tit lite trilislings tit the libutittsix"trossirr Iwiati-it 014- 00 1.1"%n A% .411, Alld tisaire *&I 01.1aill"I "fib lichl Wit, 06 lilwi-, I lir 4uhno ol m41m stsofs. If 111,10 it Ai, isix, M .1, tit so :.I mI. s-11mmA m.td,, t... :1 tit.. att-I th., -olwg, - 00 1 -1 A~ kk~ ~Ah- diwii-nj, AI 11.3 111&. W A, fit N? fill. .-f -h, its,. IVAIIII&N Were 111111141'"1 by III SC-Ale I]iVi,i.nkl Afil't 211, 111-. At fulth cu"Cus. file ll)CA_1UrcII1cut% sfllu~t W 111A,14 Ustillis oo 1 lIr . after the .flat uf the reaction. The dmi. nwit-r oplimmo writhOotI4 e4 rrdurlion and "ith ail imiviiji. "J, .,fill .11111, ill lift' 44.1J.H.lil Mel", Vsi. 'Ailijbill-to 'Aillilli L .1~110-11 - (it 1,111VU), 0111Y Ill 01114111" kJI'4 ~ lift fillb If fill A Is 1-5 7,;.. Thirtri.411111i bet"t-rit IIIV44.-Il. pie '4114 its, 1, rt.,,,filtj ill Ow f."m .4 a K,wh It I, iflom OJO.'. 41 4~ .4 A~. 400 .A' 1~ I I'll -.111 Will,111 fill. lillrs%,.l ..1 11'. too to If.,, U., ]fee 14. !00 400 is VO Is -f (viol, Cwtst sit mw no: w a 5 As it if Hii~ H R. i1 -11 HJ! ';~l Rdli I' liffli 1: 11  - - - - - - - - - - - - * 9 9 6 9 0 67, ' 6 0 6 0 0 a Woo 0 CIT 1 F W * I I I I I I . I t It t J Ik t 11 4 1% 4 It to IV x i . . . L I, Itr r. I I A I i I I -L All 36 CC PC tt It L ~ -- Ise 00 *;wbndtk dollormination of molylikimum. -A.~. I'lovixillImis v Nmin, zorwoww; hh metallov Oilimlinct) kirdhillb I Mid Ini i . i . y li tw locini tilkafl 6 d t& t" o c e y Lab, 111 p ' V rise ab~kwption of lighi~ inthelortnutitaCNScuniplex. lee in suins. of Nto-CNS couiplez obeys the Lamb-fft-Brer lee A!* " I law. Illowirver. the slogies of the fines retiftmenting tile to iocn bt olm ff d th h i b I on vt~ . l e o e o awp . etweam t mas relat diffee 64 bi5b conctim. froul t1upw at kow cowwoo.; thii, ' 0 I Ise ilolkelse the ril,triscr of J AlitIvirot i-opkiir. klaftke 44 ae remse fro-tion, dnN.11talklittli no tile hllo:~ doe 00 C.NS cudgletz. was aftillimal, It is a immmulki. vetwtitoo: - l t d 10 1 i it I k k i 400 , A q ri lo e w l l irl vt with 2 Irwil ky she vaim6mv oll 2 "Plorod civitilkirsrs. like qmomoc oed 7 =00 001 1 111 suda. The was. mriotitivity ,I the III mck in 24 n . inethud in 0.007 ins. of Mo per 25 till. The uictlical n roe 004 &ccwwwWwkhim3%(mkd-.v). Toaknmmquantity~ ol do me OWN. "atil. 0. 1 ritil. of Mo pw ivil, #Ad 3 till. of I W'; OWNS, I drITI "1101% Fech, AMI 2 till, U18", "It. i 'roe ow. wm" I of ft In ebms 11C , am d I Gig lot! aftw 10-13 win. A bhw.lpern light filter ww t1w i d on wi&- mw . with a roax. cowity in the 450"?").A. reg Four references. W. R. lican !.zoo so It vs AV I v '71, Ant smwn I. o 1. .4 a 4 a a 'r ft n a I l ' 0 O e 0 0 0 0 0 0 0 0 0 0 0 0 0 0 64 0 0 Oi  03 0 - III 111113millit via "a c a f c ft I K L A__A_E_Q_ a I T U__L 0 0 a 0 0 0 i 1111111 UJIS JAJS ]OR NNW 41 A--.k--,L- 00.1 0 DefMAInalb6n .1 j*gM in M'Unic antu,norgy. Shakht) 11tw t [ !-00 0 . it.w fill of N'till .iJINdik ~ 'IAl , , I'v 141, 1 f(tv lit 41 rill, ' 1 oo t 11 C V44" A,.tj(46v~ , I' ti t, % Willi 11, coo a of see 00, 00 X Are* see i j a. S L a04TA LUOIGOIC41. UVINAtuat CLAitwKtfl" wee lit 0.10.j a., Omit I it two '01,8111111 0 0 3 117 it 0 0 0000 0 0 0 060900 a 0 0 a 0 0 we 0 0 0~0 0 0000 0 04 0 0 * 0 0 0 q 0 a  I fill I W, " 1 11 11' 1 11 1 1 e~ 09200 ~*90 to ee --O W IV v a W.ooooolsxt ~ 0 18 at u 11 M u 16 11 0 1, a a I is 12 A] W is Its 17 A if A; #I Li ii a !e a I a t AAM-Sq- a I I ~ . a I C-0161. - - - --- . , -- - -- - '--7 'ev rizinctris; dirternsinatiou Got asollinium and it ct t l n 0 o is o o lurium. A. S. Shakbov., Zartioditts)tt lAlb. 11, WV1 0 1 11"5).--To det. Set add 241 ml. of IICI (1: 1) &tali 1 nu. t of lot If)"; SnCh.2160 ulln. to theSk %oln. in al'W)-ml. beaker. 00 allot still "Ater to 'A) lid. 'Me 1"Inctiou takent rIACV in the cold. The mangr Se hydriwil obtained is very stallic. &lid can he kept foor 5days. holosit.itensitivityclif the pholis- ItAoxiturter 6 obtained with liffilit Most light filtrr~ anti a Mill. sen%itivity with red light filteirs. A linear reissli4sis %W-i cob,terviroll bortiolem OJLS " 0.5 Mg. of qr in 'As nil. ,I 0 of ..Ill. Within thiol. cartels. the 9c m4u,,. o-4stoyest the Lain. tot 0 hert-Iterr law. At c%siturnoi. above 11.45 nix. tin hinur refs. * iota wa,, otm-rvvot. nar "wall rxtitl. efroor wiso aptirtit. .3 '1";, (rcLativr). Todet. Teo allot '-N) itil. oF 11cl 0: 1) allot - i nil. slot lfj'-~ SuC6 .,fik. in I ICI (it. LI 1) to the Te -Aln. ('1MAK. 0.1 i4. of Te per nil. (if soln.) in allit)-nil. flask allot add water to 'A) int. The solit. VFAol StAble for :Nl stay$. Max. -nitivity of the phootocolurimorter wai obtairteol goo with light blue light filters. A linear relation between the 2 cited. tot ah~orptiun and the concis. was &A,toill"I Within too the into,rwal trusts OACS to 0.5 nix. in 50 sill. of "n. At Zoo c.onctis. al-w 1).5 mg. no such relation wavi observeti. Te -All bor detti. by uncom,, of a curve front O.WS mill. in.50 nil. a 4 .4n. The mean visor of sletn. was approx. :1'-; irria. see live). W. R. Ilt-Ink :11 ji :too NITALLURSKAL LITINATL,89 CLAS&NIFICATION too., %I-, al 1'. wee lit l4noso -A 1.3060 .1. 0." Got INI&I Got u is AV PO is A a to to I I ot to I to #1 to 0 Most 0 Is Is I IN 0 2 a a 3 a to & it 2161 min Its It a ff if a Q 4, 1 X-4 0 0 0 0 0 0 0 a 0 0 0 0 a 0 0 a 0 a 0 a 0 0 0 0 0 6 0 0 0 11["'i'1 '11 iF:  ,6'i 05782, 0 AUTHORS: Savin, G.N. Putyata, T.V., Fradlin, S V'41 :11-4 8/15 B-N., and Shakhnovskiy,,,S,,,,,M. TITLE: -Nikolay Aleksandrovich Killchevskiy (on the Occasion.of his 50th Birthday) PERIODICAL: Ukrainskiy matemati-cheskiy zhurnal, 11JUr 4,pp 431-433 (USSR) ABSTRACT: This is an appreciation of the merits of the Professor of them Kiyev University N.A.Killcheu-skiy. He was born,in:1909, he~ finished his studies in !933, canditate dissertation in '1936, dc,ctorial dissertation in 1940, He was a papil of Professor L Ya. Slatayerman, Corresponding Member of the Aca(Leay of Science .s Ukr-SSR. Since 1944 he is the director of the Chair of Theoretical Mechanics. His special branch:;Theoi-j of-elasticity-, There follows an index of publications with 45 titles and a photo of N,.A.Killehevskiy. Card 11p  AUTHORS: SOV/21-59-11--7/27 Fradlin, B.N-, and Shakhnon,2-.-L-SW.'Y1" yv ""ITLE: Designp of a Plan-RectarLgalar Depressed Shell PERIODICAL-, Dopovidi Akademiyi nauk Ukrayins'lkoyi RSR, 19591 Nr ll~ pp 1202 - 1205 (USSR) ABSTRACT,, Using the method developed by M.O. Kil Chevs1kyy Ref 1 7 the authors formulate a system,',.of inte6ral ;-~quatioTis of a gentle shell equibalance IV A 0 where i,f~, 1,2 ,3 7 1,2; according to indexs is performed; j -- 1,2,3 the summing up ,n = 1,2,... and find a solution for that. system, also determine the Greene tens6r components, (10) and (12) for the problem of the e4ulbalance of, a depressed shell which is rectangular-in. the plane. Card 112 in this work the authors raise no claim to ht~nl -  SOV/21-59-11-7/27 On the Calculation of a Rectangular Gentle Shell, tributed anything substantially new*in subject matter. Instead, they recurrently mention that their~calcul- ations yield results~coinciding with and confirming those arrived at by V.Z. Vlasov Z7Ref 22, S.A. Ambartsumyan /-Ref 4-7 and M. Myshonov /,Ref 5-7. There are 5 Soviet references. ASSOCIATION: Kyyivs~kyy politekhnichnyy instytut!',(Kiyev Polytech-' nical Institute) PRESENTED: By F.P. Byelyankin, Member, AS UkrSSR .SUBMITTED: April 17, 1959 Card 2/2  %.SAM -~n p %-I... mom.4 -t.4v.%N. I P TM-01 -44 -td P. -lm %~-Q M-PA -71 .j wn._. -14-Ad -1 "P.." -4114.N --sm 4"..n." P" .".Td -jq." I-"-squ tmtv~vv 't."Ool IUCM;Z;4 'C6C l.e."Mm .1 IT swo"4" P" 13TIT "I I( t7 M.Itd-ll. Im ,An. M-Ild So 'doe ..Vp- T2.91. If .13"Tid I '(P., Lnl-n vu '19Z I'" *=IN TYM SIT"" 4 3_2 no NM-- mit. -0 (It; I-qmp- vf .(or d-u "n-4 .14 .1 ZT_2"-_u UllU A .1 tx ..'t-tv l1.- " ."'d -t I -tor .'ffn. t'vm_% 1" mw,_ .103"4. 1 snp- J1 -T -, .64C ,qq- 'Plm- 'AT-Ml-t- n - 2--n .".d. on tq t4p.;j vvy J. 'in to "314imp.. J. .." . ]Irv M bt3D3d to OT $("90M, vtv4,,,,M"j 41 jpj 4u S4 -M- A on-14 ti wk-19 Mt" ..7" T-~. '42-~ T ..... a I ".') rmlr4T-.bs .1 -v .-T,4T?Mb- '""o " 4 -two =11. -tww tx.unc -K -1 .6" 137114". I Lj -11--p "..a '0=41m) M."T .99t P.1 -ddy  ;,, I r THMEr 11 li:llll!, III 1 19.  S/020/60/131/06/19/071 :BO14/BO07 AUTHORSs Fradlin, B. Shakhnovskiy, S. M. TITLE: The Construction of the Green Tensor for the :Problem of the Equilibrium of a Small-angle Shel f Double~Curvature PERIODICALt Doklady Akademii nauk SSSR, 1960, Vol. 131, z;o. 6, pp. 1298 1300 TEXT: With the integral equation (1) the system of functional'equations for a small-angle shell is written down according to N. A. Kil,'chevskiy; further, the authors give formula (2) for the required displacement. Thus,.equation (4) is obtained for the functional equation (1), the solution ofwhich is given as (6). This equation is simplified for the case of a hinged suspension of the shell'and solution (9) is obtained. The expressions obtained by V. Z. Vlas.ov (Ref. 2) and bl. Mishonov (Ref. 4) for the deformation of the shell and:!for the displacement components respectively are found to agree with the corresponding components,of the Green tensor determined by (9)..This result shows the~equivalence of,the inte-ral- and differential equation systems of the shell equilibrium. There are 4 Soviet references. Card 1/2   - , : ~ ; _;1. I - ~- z I.I I  36997 V S10441621000100310441092 C111/C444 AUTHORS: Fradlin, B. N., Shakhnovskiy, S. M. TITLE: Integral equations for the equilibrium of flat shells with rectangular ground plane PERIODICAL: Referativnyy zhurnal, blatematika, no. 3, 1962,:76, abstract 3B324. ("Izv. Kiyevsk. politekhn. in'--tall, 1961, 319 104-121) TZKT: The author uses the method of N.A. Killchevskiy and.the formulas of V. Z. Vlasov and obtains the equation of the problem- in the fori;i of a certain integro-functional equation. It is shown that under: certain additional suppositions on the distribution of the,load of the shells this equation can be reduced to the solution of a system of Fredholm integral equations. Lkbstracterls note: Complete translation.] Card 1/1  T.7-  I : ps:~ vi - ; 4, ii: HOP ~ III I ~ ; :; !  53790-65 j ACCF.SSION NKt AF503-4ko: Tho roualts are eitended to the: do 'her - 1- th hiall I 1'i' 'kit-ibhe: goo. . 0 , y - b and has an elastic Aispiaidora~en y t A t6 edk6k x 0:, . is arbitrary in a direction norrui to:the side's'but, is z8., '"A16hg!,1h6~:verti6 a1 direction. -Orig. art, hast E 61* eiuationd'.: v T161 A33OCIATIONs Kiyevok Iiy politekhnicheeki:j-ixj~t U4 ytdallme lnubitiit~) SUBMITTED i 13Jan65.-', :;SUB JCODE i;: ENG~~ Cid 1 42S O REF SOV: 00 11 4, 00 11:;:~: ~T-li J rd L  1 T 1. ! I : '111,11 ; !  nc re a s in, cy T.~-e use r,_` iind-en7roi-Md conveyor linf~o. Izv. v-f~. zav.; gor. zhur. 7 no.1-0:119-123 lk i. Moskovskiy institut radicelektroniki- i gornoy elekiromekhaniki. Rekomendovaria kafedroy tran spar tnyl-h mashin i kompi6ksov.. I ;1 11!1,1: v.. ;"f!T, V  (TrActors--Engines) (Gas, Nntural) 1r fill   j, ! ~ I I :~ Al 1, ff. I . , fl j; a i iii ME =111 . : i !: V I : , Z T., I :  ETMTOVNIKOV, Aleksandr Mikolayevich, professor, doktor; �AMOV Aleks SqrgeyeTich, dotsent, kandidat khimicheakikh nauk; UR"6V-jv,. ade- , . Y, jj:, M or; GHMOV, A.M., redaktor; ABXH"GILISKAYA, H.S., redak- tor; ATTOPOVIGH, M.K., tekhnicheskiy redaktor. [Academician Nikolai Sergeevich Kurnakov; work in the field of non- ferrous metallurgy] Akademik Nikolat Semenovich Kurzakov; raboty v oblasti tsvetnoi metallurgii. Sostaviteli: A.N.Irrestovnikov, A.S.~ Shakhov. Pod red. G.G.Urazova, Moskva, Goo. nauch~o-tekhn. izd-vo lit- ry po chernoi i tevetuot metallurgii, 1954. 406 p. . (MMA 7:12) (Turnakov, Nikolai Sergeevich, 1860-1941) (Metallurgical ana- 0 0 V I) A -1~:_ I SOV/3640. BOOK EX?LOITATIO .N PHASE and ch Krestovhikov novich, Aleksandr NikolayevI yakov Iva GerasiMOv, Aleksey Sergeyevi0h ShakhOV__ Teoret- dinamika v tsvetnoy metallurgii.! t.. ineyshikh Khimicheskaya termO odinainicheskiye SVOystva vazl niye. Term dineniy;. icheskoye vvedel ro vazhneyshikh~poye Termodinamika tsinka I yeg Ninferrous s in gazOV. (Chemical Thermodynamic spr&VOchnoye rukovodstvO 811Thermodynamic, Theoretical IntroductiL)n Of Zinc Metallurgy. VO japortant Gases. Thermodynamic izdat, properties Of the More I pounds; Manual) Moscow, Metallurg and Its More Important COI d. 5,100 c3pies printed. Errata SliP inserte 1960. 230 P- p Is. Reviewers: f Technical Science V. M.S. VendrikhT Candidate 0 ancl N. lova. Compiler: Chemical Sciences,~professor Doctor of ' Ed;: V-V. Mikhay K.V. AstakhOv, O.m. Kamayeva; Tech'. Ed..: Gudima, Docent; scientific workers, This book IS Intended-for engineerss PURPOSE: courses at schools of highe r te hnical and students in advanced education. Card-1/5  Chemical Thermodynamics (Cont.) SOV/3640 COVERAGE: This book is the first In a series of eight on the:thermo- dynamic properties of nonferrous and rare metals as well as their principal compounds (oxides, sulfides, chlorides" sulfates, and carbonates). This volume contains basic data on'the principles of, chemical thermodynamics, methods of calculating thermodynamics magnitudes, reference data on the thermodynamic properties of the more important gaseous participants In pyrometallurgical reactions, and data on the thermodynamic properties of zinc~and its principal compounds. A basic bibliography of 75 publications on chemical thermodynamics and its application to metallurgical processes-and metallography ls~included. No personalities areimentioned. There are 423 references:, 51 Soviet, 171 English, 140 German, 30 French, 12 Japanese, 9 Italian, 4 Dutch, 2 Belgian, 1 Swiss, I Finnish, 1 Romanian, and-1 Norwegian., TABLE OF CONTENTS: Preface 3 Accepted Symbols of-the More Important Values 5 Card 2/5  Chemic al Thermodynamics (cont.) sov/~64o Ch. I. Laws of ThermodyAamics*'and Basic Equati ons 9 1. Scope and limits of thermodynamics- 9 2. First?1aw of thdrmodynamics 3. Thermochemistryl. Hess-Law 14 4. Thermochemis-try II. Heat Capacities 17 5 ' . Thermochemistry III. Kirchhoff Equation 20 6. , Second law of thermodynamics 22 7. ..Third law of thermodynamics 2T-- 8. Characteristic functions' 27 9. Calculition of entropy 30 ~10. Calorimetry 35 11. Clapeyron-Clausius equation, 40 12. of measuring the pressure of satura-. ~ .ted steam 43 13. Conditions of equilibrium 46 14. Gibbs-Helmholtz e(juation (maY4~ium*-energy equation) 47 15- - Chemical potentials 51- .16' Chemical potentials in solutions. Activity 53 Ch.- II - ..Chemical Thermodynamics (Science-,of Chemical Equilibrium)' 6o Card 3/5  Chen;ical Thermodynamics (Cont.) SOV/3640 17. Law-of mass action 60 18. Isobiric potentfa~l of a chemical reactio.n 63 .19. Isobaric-potentials and equilibridm,eons.tints of hetero- geneous gaseous reactions 69 20. Temperature dependence of the Isobaric potential and equilibrium constant of a reaction ti f 72 21. ons unc Calc4lation of chemical equilibrium with the, and 81 .22. Approximate methods of calculation 83 ;--23. Application of the third-law of thermodynamics for calcula- ting chemical equilibria 84 24. Statistical method of determining thermodynamic quantities ~from spectroscopic data 86 25. The phase rule 89 Ch. 111. Thermodynamic Properties of the Aore:lmportant Ga'ses 94 26. Tables'of prooert1es 9,4 27.1 Empirical formulas for the temperatures,and Isobaric poten- tials of the more important gaseous reap tions 119. Card 4/5'  Chemical Thermodynamics (Cont.)- SOV/3640 Ch. IV. Thermodynamic Properties of Zinc and Its Principal Com- pounds 127 28. - Zinc 127 29. Zinc Dxide 150 30. Zinc sulfide 160 31. Zinc chloride 170 32. Zincous chloride 179 33. Zinc sulfate 179- 34. Zinc carbonate 187 Ch. V. Thermodynamics of;Zinc. Reactions of Direct Reduction,, Oxidation, and Chlorination 192 35. Reactions with ZnO 36. Reactions with ZnS, ZnC12., and'ZnS04 205 Bibliography 215 Basic BibLliography In the Flelds,of Chemical,Themodynamics and Its Applications in Metallurgical Processba andiNetallography 225 AVAILABLE: Library of Congress VK/jb Card 5/5 .5-24-60 it .0111 1 .1  GERASIMOV, Yakov Ivanovich; KRESTOVNIKOVj Aleksandr Nikolayevich;_~4WOV, Aleksey,Sergeyevich..Prinimali uchastiye: DUDAPXVA, A.G,, assistent; LOMOV, A.L., assistent; FEYGI21A, Ye.I., assintent; VYGODSKIYy LA.,, inzh.; KUZNETSOV, F.A., aspirant; 4VR0ITIYKV,,V.1. aspirant; ChTB, $ jP NOV, A.N., red.; KAMAYEVA, O.M., red. izd-va,- MIKWLOVA, V.V.,,,tekJm. red. [Chemical thermodynamics in nonferrous metallurgy] Khimicheakaia ter- modinamika, v tsvetn6i'metallurgii. Moskia,, Go~s. nauchno-tekbn. iz&- vo lit-ry po chernoi i tuvetnoi metallurgii. Vol.2..'[Themodynamics of copper, lead, tin, silver and their most i4ortant compounds; a. handbook] Termodinamika---medip svintsa., olorva., serebra.i ikh vazbnei- shikh soedinenii; spravochnoe rukovodstvo. 1961. 262 p. (MIRA 14:11) (Nonferrous metals-Thermal pro Iperties) (Chemistry, Metallurgic)  GERASIMOV, Yakov Ivanovich; KRESTOVNIKOV, Aleksandr Nikolayevich; SHAKHOV, Aleksey Sergeyevich; Prinim.1i nchastiye: LOMOV9 A.L., i-ssistent; LAVREbTlYEV, V.I., aspirant-, &WAYEVA, O.M., red. izd-va;-MIKHAYLOVA, V.V., tekhn. red. (Chemical thermodynamics-An nonferroue metalluigy]Khimicheskaia, temodinamika r tsvetnoi-metallurgii; spravochnoe rLikovodstvo., Moskva, Metallu gizdat- Val-3.[Thermodynamics Of tungsten, molybdenum, titanium.mirconium, niobium, tantalum arid.their most important compounds ]Teruo dinamika titana, tairkoni-4a, niobila, tantala i ikh vazhneishikh soedi~enii. 1963. 283 p. .(MIRA 16-2) (Nonferrous metals-Thermodynamic properties)  - - - - -- - -- - - - - -- -- -- - -- -- -- 3 ----1 .- -- - 7 "I I - 1. .1. ~ -1 ~:, . - I   SHAKHOV, B.F., starshiy prepodavatel' Criticism of the present-day revisionist concept of the economic role of the state in the transition process from capitalism to socialism'. Nauch.trudy MTILP no.18:3-25 '604~ (MIRA 15:2) 1. Kafedra politicheskoy ekonomii Moskovskogolekhnologicheskogo instituta legkoy promyshlennosti. (Gommunist revisionism) (Economics)   1. 11161-67 E,7.~T (d) /EEC X0-7 M=,W 60 2 6 4 5 6 SOURCE CODE: UR/0410/66/000/002/0053/0060 IWTHOR: Shakhov, E. K. (Leningrad). IORG: none :TITLE: 'Ll-Ilethod of digital measurement of low freauencies [Paper presented at,the I venth All Union Conference of Automatic Control and Electrical 'Measure S e ment tSOURCE: Avtometriya, no. 2 1966, 53-60 1TOPIC TAGS: frequency measurement, electric measurement, measuring apparatus !ABSMICT: An analysis is given of a method of digital measurement of low frequencies based on the measurement of the period with subsequent conversion of.the number pro- i portional to the period to frequency. The corrected relative.error,of measurement of Ithe period (first stage of frequency measurement) is 0.01%. The ci 'rcuit whichrealizei Ithe method is considerably simpler than circuits to realize other methods (with equal speed of Iaction and width of measurable frequency band). The:prima Iry ad vantage of,thel, imethod is its relatively high speed of measurement of extremely low' frequencies with great accuracy. Orig. art. has: 3 figures and 9 formulas. ISUB CODE: 09,14/ SUBM DATE: 18Sep65/ ORIG REF: 005/ OTH.;REF: 001 b Card 1/~ 621.317.76   AUTHORS: Shakhov, F.]~. and Shuer~ A~.M. 68-5-7/14 TITLE: tandardisation of column apparatus for coke oven works. (Tipizatsiya kolonnykh apparatov koksokhimicheskikh zavodov). PERIODICAL.: "Koks i Kb-imiya",(Coke and Chemistry), 1957, No .5, pp-32-39 (U` ABSTRACT: The authors point out that some distil lation equipment used at present on coke ovens should be redesigned in-the' light of modern knowledgeof the hydrodynamics of a bubble CUP plate. As an example lime-ammonia and benzole distill- ation column are quoted. A review of various types of cup bubble plates, types of overflow,their performance, types of columns and met4ods of their assembly and criter.- ia for the.choice of diameter of steel and c"tiiron-col- umns are given. Standardisation of distillation plates on coke oven works and particularly on new Works is recommen- ded. This will lead to standardisation of the distillation columns which will simplify trainil~g of personnel with a general improvement in operation. There arei13 figures and 3 references including 2 Slavic. ASSOCLkTION: Kharkov's branch of.NIIKhi=Ash - (Khar, kovskiy Filial NIIKhIMMAShy. AVAILABLE: Card 1/1  VLA691jKU, G.P., inzh. Ldecessedj; SHAMOV, F.N., inzh., red.; VSHIVTSEV, P.A., tekhn.red. (Wolded coiidensers tanks and pressure vessels;' a catalog] Emkostntiia avarnaia appnratura; katnlog. Moskva, Informatsionno- izdat(311skii otdol, 1958. 84 p., (MIRA 12:10) 1. Moscow. Vsesoyuznyy nauchno-issledovatellakiy i konstruk-.. torskiy inatitut khimichaskogo maphinostroyeniya. (Tanks) (Pressure vessels) (Condensers '(Steam))  i  4 -1 is It A. it 12 A a 12 It 1) .1 f, 1, U A k I., a I) 0 L r 6 11 4 1 L a A r ~i X I I U I A AA MY. L01t,. 0 t 11010 FN 5W 00 -00 00 ic: M 7-TIGSTM A-YD 3FMYLLIUX DEMPOSITS 0? 'rFT- ALTAI. F. Sh*h". 90 tProbblems 2f Syriet G*ol., MSscow 9, 1-2o (1934), M& j" . k1j: jiLl. -06 00 G Roferute 11. 1935- 141. Granite intrusions cre accomanied by V-bear-i-.-, .00 01, Viq,~artz veins at Kolywansk, Krassnoamtisk and Tngirek~ while Cranite- .00 !tee tit Beloretzk ct- tain bei-fl. 3one wolfram its tic -.re'-,~ent in p9emat .00 00 It aplitic rranite or microsAite. A 0 00 j J.F. Sch.-ki!-er =00 00 j: -00 00 -00 00 9 q I &S..%L4 tT,LLUPGKAL LITERATLOC CLASSIFKATION 00 Si u An S 6 '.W IT 0 0 w(PrPIPONN Wit WS Kt[ It It N L3n ~!,q r'.00 06966949 010 0 0 0 04, 0 0 0, 0 0, 0 0 0 46 0 0 see 00 0 4 0 0 s, 0 o 0 01i 0 0.0 Go** o Do-- s1i,V11OV, F.N. Nonferrous and Rare Yetal Cres in Krasnoyardk KraY, (bk) by' Prof; F.11. Shakhov, 11 -11, Cct-,Nov~ 1939. Reviewec' by Pervushin, 3. Tsvet- Met. 14, 110 10 Report u-1506, 4 Oct 1951  I' 1' -111 111 IFFM 1 90 - - - - - - 0 0 0 0 0 a a 0 0a0 0 a 0. V J1 NIX III it it Id is 16 11 As it Is: It IIIW L a it, V P - I - A J- QFL L_J__ __,I_1 1st - 00 DJMS N.C1 It" 011"10 [Its I.D1. ra . . . 0 P_ _00, X-j - - Irtt, ,,, ww -00 go 1009. GEOCH~_'IISTRY OF T_X_ COALS OF THE FUMETSK B,.3fN. Shakhov, -00 FAN. jnd 11~fenui, Y.H. ompt, rend. (Dokl! dy) acad. safv --17j46,- 51, 139-40) The nickel content of a number of 6061 samples from the Ku,ne'sk basin has been detemined spectrographict:11y and by diraethylglyoxime. Results are tabulated. The c=dentrstion 0 of nickel in the ash is not connected witin asq content by the 0 sizmnio relation for m'nor elements formulated by Goldschnidt. As =00 00 to the probability of havinj; to do In this case with new s urces '09 of nizkol, it Is of int rest to note that the coal series belong =00 to the vory bottom of the productive fom!_tion, approaching closoly :: j i - 1, 00 the country-rook outcrops -~f the Palsoozol,.3 of the Eueneitsk Alatau `~V 0 Ar -jhich ~sccordlng to Yavorsky's geologicF-l map, comprise~s ancient diorites, norites and gabjro. The possible cccurence~ofrhi:kel in thftze b~-sla rookwmay be a certain extent be supported by date 3s 11 [goo to the content of this elemat in the basic rocks of the Kutn' atsk tlatau, as well as by the recent finditirs of nickel biaring; I WOO hyperbasites within the region may be accounted for b* more~recsnt ::600 ASs.tLA mETALLUR&KAL LITERAT USE CLASSIFICATION W .. .... 00 0 u a AV - 11. T, ,I, An A S 4 1W 0 0 1 IF 0 1 J3 03 a Kx~ _/ 0 K KMIESI Mcan I;09f 440: ,/ , 1 0 0 0 0 000 00 0 0 0000004 r0 no 0 *Goo* 0 0 0 0 Ole 000 00 0 0 0000004 0 0 0 0 .001 : :*: 15 -57-4 -44 31 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 4, pp 55-56 (USSR) AUTHOR: Shakhov, F. N. TITLE: The Origin of Granitic Ma ma (K voprosu 0 PrOisk- hozhdenii granitnyk1hi magm PERIODICAL: mineralog. sb. Llvovsk. geol. o-va pri un- te, 1956t C3 Nr 10, pp 39-49. ARSTRPCT: The author believes that there is no problem concerning the origin of granites but that ther.e.is a problem concerning the generation of granitic magma, In the author's opinion, granitic magmas mos~t frequently do not "intrude," but form in the sial from rocks during metamorphism. He thinks the idea of mobility of granitic magma has been greatly exaggerate Id. The magma develops in an environment of folding~and~frequently in' the end stages of the growth of geosynclines.. It is generated in the zone of intense compressional forces ilier than Card 1/4 almost simultaneously with, or even ear  -,1 -14 3 1 a ont. elated til 6 to increased .,orrfels. T-- r,.eneratlon of nwagma is r I m recrystallIzat-lon of the rocks in an environment of, highly active VolatIles. The volatile constituents may represent the only:factor Mhi-h -will tne MaF:na in a fluid s'-ate. In proportion to the increase in recrys tall-L za tion, the development.of fluid magma is accelernted. Inasmiuch as the process of recryst-allization occurs Ln an envirow-nent of higher temperature, the liquid.phase increases, M.- and, in favorable conditions, must naturally approach acc!)r !,!a les the eutectic- ccorrnposition. Part of the material may be carried.away by the volatlies-. The mos t readily found., ands most probable, source -o- !ic, magma 9t to jrodace an environment favorable f r generation of is found In the movements that, give rise tr com-oression. A, transition n11--o a-re-n-11 rock s~,-ould occur and a loss of volatiles. from the ma"ma to ~iactened. T-As transition apparently occurs much more quickly 'Llian has been Calculated. It is more~natural to expect to find a supercooled stELte -Tn those parts of ~the magma adjacent to thLe roof rocks, where large quantities -3f vola,tiles generally accurru- late. Tieir escape from tile magma promotes very rapid crystalli- zat-'~on at considerable de-Otb. Consolidation of tb--e melt may proceed ~2;* 4  15-57-1 -44321 k Ori(lr, ~,OL' 'k,anitic Magma (Cont.) I n s t a e s i n zones that are roughly parallel to Ithe boundary of t b- e -.r PL~rt ,)' 'he mass or of the roof'. This process produces a L rou&l ban(Unrr Ln th--, rock and each band Is accompanied by mqveme Int of valatiles~ Eaca bbnd forms its own series of ore deposits. P e r, a t- -1, t e s "ormini7 as, schlierea, are considered by' the author to be segments of tl-e mar-ma where, for various reason,s, tile volatiles were e t mpo- r i e d i I -I the end of Crystallization of the melt. The, co, s-It-1on of the ne-matites is controlled not by crystallization ' f-e A -L --Ort~ atior., but by diff erentiation in the ~s till f luid phase -hen from t~ie v-,lat'le constituents aid in driving out all material ~he negmatite melt that r-ives it a composition different from f7ranhic or normal ~7ranites. MetamorDhism leading to.the formation of me,-me develons diff'erently in different eo0chs,.inasmuch as the eurth'2 crust contains inhomogenel ties in structure' and thickness. (P I ,he sy2temiat1c devolopment of' the process o,f' generation and evolution -oa 1 9 of ~rr an 2~ t 1 o- ma Is ndicated in the followin outline., regional metamornhism (shearing-, recry3talliza"on, and metasomatism) followed r, L,.L contact- metamor:?h-ism (recrystallizat-Jon qnd;eiornfels development), arid, in order, by zones of hybrid magma, granite magma, r In Y t hmi c Card 3/4