SCIENTIFIC ABSTRACT PERTOT, M. - PERTSEV, I.M.

C~,,'IC 1 ~j 0, I- c Or: "~";k :,I - pr(: r ILy. of "n, i u, I- o' any OuL-1. y p ro v i .--, i ou r V r i v tat,-., --o in,~r~,-, in jurin,-, t,-, e u s e o :ru-. tloo,,~ -~u-ar ~~6 3it-nifi--ant c~-;,-,f~. base.: on in~ clinical L' i v of .. l.-wo-foAd m,.-cnmi:.m of Lctik,i, 1,,, lhtw funr.;itlo -ticLdari-,, of thr- wil a,,i I~he affectiv-  PERTOT, N. Ship drives by nuclear reactors. II. p. 169. EUTTCRTFENISKI VESTNIK. ELECTR(RF)CHNICAL REV`M4. Ljubliana, Yugoslavia. Vol. 27, no. 5/6, 1959. Monthly Idst of East European Accessions (EEAI) LC Vol. 9, no. 2, Feb. 1960. Uncl.  FERTOT, Milan dipl. 1n7. (L'fi5b,k I .9F- it &VOP Divelopment and preseiit, atate of the nuclsar power stati-ni JI) the U.S.A. Nova proizv 15 no.5:287-303 0 164.  9,C)c -,- ju t3(1:)i , :G Z)--r t1-.' di).IYIE IOL n -I n,j 'Al ;j-. L1,) j j 10;) 11 E j -)'Al OJ uo,~(qu"C,  PERTOT, M. Studying the causes of the accident to the SL-1 reactor at Idaho Falls. Elektr vast 30 no.3A s98-99 162/163.  PERTOT, M. Atomic or the usual heat and hydroelectric-power plants? p. 25. NUIA PROIZVODNJA. (Uprava za napredek v proizvodniji) Ljubljana. Vol. 7, no. 1, March 1956 SCURCE: East Europe Accessions Lists (EEAL), Lil~rary of Congress, Vol, 5, no. 1-1, Nov. 1956  PERTur, Milan,, inz. Development and present state of nuclear power stations. Nova prcizir 1-1+ no-5/68359-368 0 163  PFM(T. V. Some specific charccteristics of tLe finbncing of electric industries ix Yugslovi.a. p. 238. (Elektroprivreda, Vol. 10, No. 5/6. Mayl-juno, 1957. Beogrkd, Yugslovia) SO: Nonthly Llot of XL&vt huropeas Avvesiono (?XAI) Le. Vol. 0. No. 8, Aug 19~7. Uncl.  PERTOW KI. Iu, On the border of the funtantic. Nauka i tekh mladezh no.6:3--5 Je 16?.  KOVAL# V.p PERTO-SKIY. V. Glue Consultation. Miss. ind. SSSR 23 no. 1, 1952. 9. Monthl List of Russian Accessions, Library of Congress, Augugt -19 1? , 'Uncl . 2  --Lipor--itnw:v cc,f -,he stst!~ cf fhf- esopheem., ~n deforriftle-c, ral. 40 of P,~e !ql~:Ie of no.2,.6c,'. 70 M--Ap 165. (ICRI, i8v6) 1. Rpn':,?enovsk,~,y~ cLA,7,hlm.ye Ltningradekr.,gn nPuchno-f5sledovat'911- skogo 1 oy,ga-n!zats!! truda Inval,  PERTS, R.G., mlzdsh-,y nauclinyy sotrudrilk Dogener-ative-dyotrophic procosseD In the spirio fcllow'Lnr tubermlous leolons cieveloped In childhood. Trudy no.16:1132-34-2 164. (I'a i(1 19: ~ I 1. Lcningradskiy institut ekrj,k-.rtl..,.y trudosposobnostl i ort~ariizatsii truda Invalidov.  SOURCE CODE: AUTHOR: Krahl,, K, Schleicher, 1~.;_Pertschj W. ORG: KDT, Hermsdorf; VEB Ceramics Factoryp Hermsdurf-Thur (VEB Keramische Werke~p TITIE: Nicroelectronics based on thin film technologli $[The paper was presented at the Section.Fleet ;_entitled "Problems of microelectronics" at the Scientific C2Me held in Leipzig fr im 8 to 9 March 19651 -0 SVJRCE: ftehrichtentechnik, no. 8, 1965, 287-292 TOPIC TAGS: microtilectronics, microelectronic thin film, electronic circuit, microelectronic circuit, solid state device ABSTRACT: .'11~9 n-eed'for the reduction in size of the electronic equipment 'anA' 'the- succesass achi-oved in this direction in the Western world prodded the Fat.Ntory,Hermsdorf to start in 1960 the development (in a manner similarl, ,to the ICA -4cromodule technology program) of 6iniaturized electronic circuiteJ it-hich could be gradually expanded in parallel with the growth of the Itechnologi4ml means. The article reports on the advances in this direction ~'st the factory durtng the 1960-65 period. The development was carried out in fagreement twith the modern views concerning the economical automatic production I of complex circuit-building elements and it resulted in the creation of the *-called 11M series of complex microelectronic elements. The description of J~hs ~psttrtng of the thin film-hybrid technology, of the operational  L 20861-66 Acc NR, AP60UO92 C) characteristlis lot'thi units already ir. production#.and of the future piano -aiming, sol.p at Us production of elements incorporating solid state ;switching devices-Is intermixed with a survey of the achievements of internatidrial 6i&belectr6nic technology. Orig. art. has: 13 figures and 4 tables. - [JR31 -SUB CODE: 09 SUBM-D&TE: -lOApr65 we'- 777 77777 .2 4. 1.-  FERTSEL', V.H.; ROSTRIP&MO, I.A.; GOLUBEVA, A.D. Rrporience In using solitim phosphate for improving the boilir,g and centrifuglng of masge,,ultes at the Petrovskoye Sugar Factory. Sakh.prom- 34 no - 3: 10-12 Yx ~P* ";, 0 (KIBA 13:6) 1. 2-1, Fetrovskiy eakharnyy zavod (for Perteel'. Rostripenko). 2. TSeintrallivy nauchno-iosledovatellskiy inatitut eakharnoy proqrEbleanosti (for Golubeva). (Petrovskoye (Kharkov Province)-Sugar manufacture)  PERTSBI, I, V. M. : GOROYJI, V. 11. Bxperionce in uoing hydraulic columns. Sakh.prom. 34 no.l: 22-28 in 16o. (MIRA 13:5) 1. 2-y Petrovskly sakharorafinadnyy zavod (for Pertsell). 2.?Sentral'nyy nauchnn-issladovatellakly institut sukharnoy promyeblennoutt (for Gorokh). (Fetrovskoyn (Kharkov Province)--Sugar manufucture)  VAYSMOI, M.L.. TROY110, V.P.: PMTSHL, V H.- Use of ultrasound in the control of scale formtion In avapr- ratorg. Sakh.prom. 34 no.1:36-39 Ja 160. 041RA 13,5) 1. TSentrallnyy nauchno-isalftdovatellskiy inotitut sakharnoy proiq-shlennosti (for Vaysman. Troymo). 2. 2-y PetrovBkiy nakharrqy zavod. (for Partsel'). (Sugar manufacture) ':Ultrasonic wavea-Induatrial applications)  SOV/110-59-6-4/24 AUTHORS: Grigorlyev, V.S., Engineer and Portsev, A*Ao, Engineer TITLE: A Mercury-Vapour Pump for a High Po~wer Hiigh-Viotage Mercury-Arc Rectifier (Parortutnyy nasoa dlya moshchnogo v-ysokovolltnogo rtutnogo vypryamitelya) PERIODICALiVestnik elektropromyshlennosti, 1959, Nr 6, pp 16-17 (USSR) ABSTRACT: The mercury-vapour pump described in this article is used with the high-voltage rectifier type VR9. In operation the pwnp is at a high potential to earth and so must be cooled with transformer oil. A number of difficulties were eXperienced with the original type of pump, which has been described elsewhere. This article is principally concerned with the design changes which resulted in the modernised pump illustrated in Fig 1. The exhaust tube, which is wrapped helically round the pump body, serves to guide -the flow of cooling oil. The exhaust tube is thus twice as long as in the previous construction and, although this halves its discharge rate, the pressure drop in it is not greater than 1.7% of the backing pressure. The vapour circuit was also Card 1/3 reconstructed, particularly the nozzle of the diffusion  SOV/110-59-6-4/24 A Mercury:--Vapotur Pump for a High-Power High-Voltage Mercury-Arc Rectifier stage. It was found that the pump maintained its performance when the heater power was reduced by a factor of 2.5 to 3 and the pumping speed actually increased. Because of this it was possible to reduce the minimum gap between the surfaces of the cones and the nozzle of the diffuser stage to 0.4 mm. This and other consequent changes improved the characteristics of the pump: the pumping speed was increased by some 20 or 30% and was between 10 and 12 litres/sec with an inlet pressure of 5 x 10-4 mm Hg; the maximum back- pressure was approximately doubled and was 20 mm Hg with a heater power of 900 W. The pumping speed and maximum back7:pressure are plotted as functions of the heater power in Fig 2. The pumping speeds are similarly plotted for hydrogen and for air in Fig 3-9 it will be seen that at rated heater power, the speed with hydrogen in 36 litres/sec. However, it falls off much more rapidly than the speed for air as the heater power is reduced. Card 2/3 A trap that was devised to prevent carry-over of mercury  SOV/110-59-6-4/24 A Mercury-Vapour Pump for a High-Power High-Voltage Mercury-Arc Rectifier droplets is illustrated in Fig 4~ This is installed at the end of the pump discharge tube. There are 4 figures and 2 Soviet references. Card 3/3  L 2'i??Q-6j EM W LEW (1) ACC NR, A D3.527Z SOURCE CODEt UR/0292/65 VO-UrO622 AUTHOR: k1tayev, F, I. (Candidate of technical sciences); Klijmov, N. S. (Candidate of technical science-Y s I Fertsei, A. AA, neer); Stepanov, N. P. Nandidate of technical sciences) ORG: none TITIE: Developments in high-voltage power rectifiers SOURCE: Elektroteldriika, no. 1-1, 19651, 22-24 TOPIC TAGS. arect t. urrent, electric,power transaissionj, nercurt rectifier ABSTRACT: The laniqgrad-Donbass transmission line is presently being put into operation. Me will be the most powerful d-c trans*ission line in the world,, sending 750 )1w of pcxrer at 800 kv over a di stance of roughly 500 km. The transmission system uses a three-phase eight-bridge network with power recti- fiers which o*erate,4it a r.-odmum voltage of 130 kv and &'maximuo current of 9DD amps. The eight.,bridge system,, proposed by the All-'Ctiion "Order of Lenin" -'Electrical budwerl w, -Institute, imeni V. 1. Lenin has the following advan- tages over the four4n-idge circuitt 1) when individual bridges in the system ;fail$, the transidtted power is maintained by current overload on the bridges remaining in apbraticrn; 2) the work load on the equipment is lighter in emer- gency conditi.onej mad two rectifiers can be sories-conneoted in each am of the bridge to' redwe Us irork Ioad by increasing the mber of rectifiers from L saj  L 23770-66- ACC. Nks AND15276 72 to 96; jY wheii siparate rectifiers fail,, the voltage applied to the ele- Mnts remaining in ciperation does not exceed the nominal value,, while in the four-bridge eyetez the voltage is twice the rated value in this type of ~enargency. Various foreign high-voltage d-o transr4ission lines now in opera- tion and beiaW plawoed an mntioned and their paramters are given. Soria of ',the advancso We ith high-voltage power rectifiers since 1940 are di6cuseedi, .~Work was begun on the rectifier being used in the Volgograd-DDnbaso system in A952 at the All-Union KLectrical bigineering Institutee The various problems. Imolved in the development and construction of this device are discussed, rhis airwale-anode T*61 wdtq call6d the VR-9 Excitron, is nov being mass- produced at, a specijMy built factory in Moscow* The overall dimensions of the rectifier m 1,9 x 192 x 3*4 r* A conparison of the VR-9 Dwitron with the reAlfiers vaed In the EMliah Charml d-o Tranadenion line shm that -the sorlA rectifier is up to modem requir*- hi&-PMW mercury ments with respect'~t-o'elee'trica-characteristies and constructions Orig. . artI has: 2 figures. JORS] SUB CODE: 10p 09 SUEN DATE s none ORIG REF: 002 OTH REF: 002 2L2  PERr,j-sV,, A.A., :Lnzh. DiBtritrition of the electrical strength of *.he dis3harge gaps c-1 mercury mctifi4m3. 91oktricheatva, no,lOs76-79 0 165. (MIRA 18t10) 1. Vsee-Vuznyy elektrotaakhnicheskiy inatitut imeni V.I.Lenina.  BUI.,AYEVP F.T... kmn4.tekhn.nauI(j KLIMOV, N.S., kand.takhn.nauk; PERTSEV, A.A., inzh.j STEPPIIOV, N.P., kand.takhri.rAuk Developments in the f.'.(!Id of htgh-voltage pover rectifiers. Elaktrotekhnika 36 no.11:22-24 N 165. (MIRA 18t1j)    d Iron SOV/6363 Chi, 1. ~i:- Meltinil of Low-Carbon Electrical Steel in a Basic Open- Heartb Furnace 2 I Bask I~iinciples of the technology of melting rimmed low-ca~bbn electrical steel 12 Develdtaiient of the technology of melting rimnled low- carbom~ steel 13 3 Develo~jnent bf. modern technology of melting rimmed St el 19 4.~, _Techni ~16gy of melting rimmed low -carbon elpetrical sheet p teel 28. 5.:::* Techn6logy of melting killed low-carbon electrical stbel 31 IntensiAcation of the'process of Weltij~g rimmed and killed :Low -carbon electrical steel by use of oxygen or comprtsfied air 37 C ar d 3'9  wja4h. o wwassassa maww apw" ~aqwus& 1. ~~Teemio rimmed m i 1 eta 74A 41 2. ~~Teexninj P ~ killed metal 42 M. JjL:I,:Vacuur 4 Degassing o*f Low-Carbon Electrical Steel in a Ladle 56 Iya egassing o cuu.m, d f. rimmed meta 56 . 2. -'iVacuum. idegassing of killed metal' 80 Cho, IV Effect t~f Remelting. on Properties of- Low-Carbon IMectrit: 95 lo ~.=eltijig in an induction furnace 97 2. 'Remeltir* in,a vacuum-are furnace ig 97 . 3 Zlectros~ag remelting 13 Cho ot and -Cold:Rolling'of LoW-Carbon Electi-kgl Steel 'vi I 126 ~#Ots 126 Carid 417   on- -Ar-mco ir SOV/6363 158 158 159 164 165 166 168 169 172 173 176 176 180 182 184   S/179/60/000/03/005/039 AUTHORS: Kadashevich, Yu.1. and Pertsevo A*K. (Leningrad) TITLE: The Loss of Stability o a Cylindrical Shell Under Dynamic loading L\-D PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Mekhanika i mashinostroyeniye, 196o, Nr 3, pp 30-33 (USSR) ABSTRACT: The problem considered is that of an infinitely long cylindrical shell reinforced by equally spaced transverse ribs so that loss of stability occurs only between the ribs. It is assumed that the number of waves round the circumference on loss of stability is large (n> 5). The deflection of the shell is expressed approximately by Eq (1), where L is the distance between the ribs and F! is the radius of the shell. The kinetic energy of the shell K is given by (4) and the equations of motion t-y (6), using the dimensionless parameters (7), in which q(T) is the transverse load and V is the sound velocity in the material of the shell. The coefficients in (6) are given by (8) using the notation (9) in which qM Card 1/2 is the external static critical load. Calculations were  S/179/60/000/03/005/039 The Loss of Stability of a Cylindrical Shell Under Dynamic Loading carried DUt on the electrical machine MN-7 and Fig 1 shows typical curves for the dynamic deflection of a shell for which IT 2hR/L2 = I (h is presumably the shell thickness blut this is not stated explicitly). The ordinates and albscissae of Fig I are defined in Eq (7). The values of 'K the safe dynamic load are shown in Fig 2 for CA I'll 6 2 (for example OT = 4000 kg/cm2, E - 2 .10 kg/cm R/h = 500) and 7TR/nL = 0.5. Fig 3 shows the safe load for a range of n with t0 = 0.01 and R/h =- 100. Fig 4 shows the curves of Jo (= ~O(T)) , JI (= ~2((P) and J2 (= '92(.0 ), with fog ~., and t2 defined in Eq (7) plotted against There are 4 figures and 6 Soviet references. SUBMITTED: January 20, 1960 Card 2/2  BOROVSKIY, P. V. PHASE I BOOK EXPLOITATION SOV16 206 Konferentelya po teoril plastin 1 obolochok. Kazan', 1960. Trudy Konfomntaii po teorii plastin I obolochak, 24-29 okt3rabrya 1960. (Transactions of. the Confer-once. on the Theory of ;.Plates and Shella Hold In Kazan', 24 to 29 October 1960). Kazan', [1zd-vo Kazanskogo gosudarstvennogo univorsitetal 1961. 426 p. 1000 copios printed. i Sponsoring Agency: AlEademiya nauk SSSR. Kazanskly fill-al. Kazanekly gosudaratirennyy un.NoreiteVim. V. I. Ullyanova-Lenina. Editorial Boardt Kh. M. Mushtari, Editor; F. S. Is anba yova, Secretary, N. A. Alumiyae, V. Nr. Bolotin, A. S. Vollmir, N. S. Ganlyev, A. L. Golldenveyzen, N. A. Killchevskiy, M. S. Kormishin, . A. 1. Lux~lye, 0. N. Savin, A. V. Sachenkov, 1. V~ Svirskly, R. 0. Surkih, and A.. P. Filippov. Ed.: V. I. Aleksagin; Tech. Ed~:- Yu. P. Semenov. PURPOSE: The collection of articles Is Intended'for sclentlets and engineers who are Interested In the analysla of strength and stability of sholls. Card 1/14  Transactions of the Conference (Qont.) SOV/62206 COVERAGE: Thet book Is a collection of articles delivered at the Conference on Plateis and Shells held in Kazan' from 24 to 2� October 1960. The i1rticles deal with the matheoatioal thoory of platoo end ohollis tind ito dpplication to tho aulution, in both lincar and nonlinear formulations, of probl=.a of bonding, static and dynamic atability, ead viDratlon of roGular xid sandwich plates and shellb 6f Various shapes under variouv loadings in the elaistic and plastic regions. Ana~-M:a IV made of the bekkvior of plates and shells In fluidap and "o effect of oroop of the material Is considoroO. A numboir of papers discuss problems asiiociated with the development of effective mathcmaticalmothodis for solving problem3 In the theory of-shelli. Some of the reports propose algorithms for the solution of problems with the aid of''electronic. computers. A total of one hundred, reports and notes ware presented and discussed during the con- ference. The repor:s are arranged alphabetically (Russian) by the author's name. Card 2/14  Transan.tions of the Conference (Cont.) SOV16206 Palty, 0. M. On the Problem of Mending and Load- arrying Capacity of Cylindrical Shells with itiall Defomation ff 265 Fer*1--sev -A. K., and Yu. 1. Kadashevich. Stability ylindrical Shells Immersed in a Liquid Under Short-Duration Dynamic Loads 271 Pet.-D.v, Yu. P. Flexural AnalysAls of Elastic Trape- zoidal Plates by a Discrete Method 278 Prokopovich, I. Ye. Basic Equations of the Theory of Thin Shallow Orthotropic Shells With Allowance for C 1-~,6 a P 285 Finasakov, A. P. Some Flexural Problems of Circular Sandwich Plates With a Light Core 293 Prusakov, A. P. Design of a Cylindrical Tank Made of -a Sandwich Sheet to Withstand Internal Pressure 298 Card 10/14  42741 6/124/62/000/011/006/017 i)234/D308 Pertuev, A. i~. una i~a~,Iashevich, Yu. 1. 5,10abi'Lity ofL cylindrical shells submerged in a 1J.qild C> -'oad.s tefertt:.v.,Lyy :.:e.,6-,Lani;,.a, no. 23, ab- S";ract ".31,50 (Tr. jr,'onferentsii po teorii plastin obolochek, 1jUO, i~azan', 1961, 271-277) Ti-.u authors discuss -;.e "or::,ul'a-tion of -~he prob-cm 3f s-.Ubi- lily Of t~li:-I e.L.F-.StiO cy-inurical subject to transverse dyna- ml c loac. based on no.- ,-linear equations of shallow 61.ei-s in :,agran- be's for..,1. The --nitial bag and -.he 6a6.ajxing loss of s-,,abi--L!V are reprebented in the i'orm w = w cos (-rx/1) cos n? Cara 1/ 2  124/62/000/011 / 006, J1, 7 Stabi-i-~y of cyl lr,"ricai ~j254/D308 2 W Wo w c-C,6 c5i nl~ -I- w 2 Cos -"X/1 W.,,ere w urc c L).,is tui, t, x, are cy Jndrical coordinates, I i;3 -10 of zAie.L, n iz3 n,~mber of -.ransver~3e .,,aves. It is L;x 6he- is in an i-,finite liq.~id ae-,2ribed oj- re--atl-)ns. he -,,3tai ~,ressure on t-i.e sl`,ell is in -~i --~, cuse ec-al t3 -...c pres6ure in an alrjso-'.~tely rigrici cy- J 0 S" - - L. k nd e r, ,, c,, d e 1~u jrc~6urv -;Lie to -A.riteracti n of tlie I.e--L ,- 1-1 e --aia. + n j i e ~o Ueljr-aT- i - -1 (rudiation preL3~~ure). cu--I,.e(I 11, -ii t r ca -.1i,: pa .er of Yu. V. aoryainov, iu. 1. 1. 1,. --ronov (Trudy "onfe.-entsii po -veorii plastin i '60. KLizu.-", , ijul , 157-141 ). The authors give a quali- 1, t; ' -he eq -4 1 -ve a.,La.Lys-s of 1,._,~jLdtS Oi' Soj_t4 on o:. aa,,-on3 u4' o comp-ters, ~iiie.-. L;, r e u s u r e -L,-,.pulse va.ries in tiMe f 0,71 ~ie f vcil.e acconiin. .u a 'Linear law. / ,bbtracterls note: Com- transiation. Card 121/ 2   VOW % WO I sice, giveii:foit'&'eftvinsl lei distribut: nof energy' at monochromator h output from t e . , ii pulse count rate. Acruracy.of relative measurements - i * - ~'u tA 0414itig tht-.1111two0 desciibed" wits Aj~ that of aVolutc'moasureconts ab ut 5%. 0 IMW 00'r H ~J' r7-- x  FEMM, A.1f.1 PITS.AREVSKIY, A.N.; iOSUN, L.D. Usti of phot"lectric multipliers in a single-electron systeis In recording imak light fluxes. Zhur. prikl. spektr. 2 no.5096- 401 Vq 1615. (MIRA 18~7)  FERTSEV, A.N.; PISAREVSKIY, A.N.; SOSIIIN, L.D. Measurement of the abFolute yield of alkali halide crystals in ga=na 1-=inescence. Opt. i spektr. 18 no.4:644-647 Ap 165. (MIRA 18:8)  PERTSIIIV, A.N.;, PISAREVSKIY, A.U.; SGSHN, L.D. Study of single-electron noises in photomultipliers. Prib. i tekh. dksp. 8 no.5:173-176 S-0 163. (MIRA 16:12) 1. BelorussKiy gosudarstve-inyy universitet.   memo= is CM P40419 34 4ho -light- flash~i._[ i It wa ;I -nd that: (I). the:ampl-i, We'-& tribution me sured b o~x a Y, -.1his -method Coinci des wit t t o tained by other.'Methodc. (2) -the Amplitude- Cli tribution of si4j zle -ele~ C.-on ulses for FEU-13-a _d FEU-36 tube s- can be p n discribed Vy the Poissonj aw With a low: K; (3) in'measuring weak luminous Ognals (particulaily at th 3,'single -electron pulse the FEU-42 tube yieldea "hetter Btaflitical. ieliabili ~ n y tha do FEU-13 and FEU-36 tubes. Orig. art. has: 4- figure 6 i2. for-mi4tas '' * ~ `:delo ss ru .A ASSOCIATION" dy- gosudarstvenny y urrvversitet (Belorussvin State - ENCL: 01 ItM E 6._~ '~~. NO~-REF_"SOVI` ~005~~; OTI 004 .  T L I tilt. Pre- Preamp. and C oinc. L tube ube = n apiplifier. 1: i.-ircuit 7, 1, N :Z ick d :oInbi&an6e circuit-.1- iagram of a. usej i for studying the statistics of singl#B- - elei, tro n-pulses.in ultiplic~r.phototubes  Mi ildib~i elA S,i: vras, I'Cith6de dne.1-el   WMAIM" NFIRWAM210 MeRIM-W 47 L 54783-65-. ACUz8�1dji_NRv-AP5O16 41- Ul.i/0368/65/602/005/039610 1D 62!1,387.2:533.37 'e- v- A 11,'g Piparevskiy, A, A, o Le D a 13 -1 o r ji'- 1s:L gl.e_ialectr-on pulse, photomultiglial 1TITLEv -,Use 0 Ticording. vreal, 1-ight' J*luxes ::SOURCE 1hu a 1. P r 0.'Ad n 0' :.apektroskopii Y, _2 no~,;_50 1965 -.396-4011 S ~fiotomu pliers- quantum counter, Pateso _T0P1C'.TAG n distribution, secondar-y-;iAl"i'plica ion, thermoelectronic noise, dark current- C Thit p6 o f 4BSTRAC'.', s 8 1! 11 ty -using a.photomultIplIer to*count Indl- Nidual quantailof Aig' i: was examined by-inve,stigating noise In the Photomultiplior itsA and the statistical laws of secondary multi- p ca ion T6'e ampl! tude of thermo-electronic-noise follows a Poisson, dititribution;'ilit, waif 4hown, graphica Ily that. the -amplitude. distribution of ~bingle-..'._ FEU-IS~photomultiplter havtbis form. Graphs, el.ec tron pul 8 0 s for ihe__~- wete~ also ~ prekliiented 11) describe',the',counting rate-of one 13-cascade :r mo 6 Oho tomul tipui 6;and the amplitude distribution of'Its noise caid. 12'  ' ' M --7- 0'16 ACCESSIM-NRI; O 5 A -341 o W '-th-at same:_: Soviat-ml 0 tom4JILpliers are, 0 , -suf ficiantly ~Onsttt a to-measure _luminoms 1 fluxes of M-300 quanta 6 Oar_sec.ond -acl room ti .,nperature. hast I figures,* _49SOCtATIONS n on 6~ ~iM T ENCLi :- 00, DAM $0 ,-. TD 029 , A :    31 ~_Mi a In 7 101 YACCtSSION lot i UR/9051/65/018/oo4/oAh/0647' w ~.Pirtsvrj._ ]p 8"evskiy, As N-i Sootln, L.-D. '"o e- ab. f t' solute, Yi eld~. of aM11-Ulide Metals.under. SOURCEv- Opi. ka~~_ al _._18 -.4 iq65.,'644w64T, no -hw _-~erltstal. q!~!~ Anotnej;~ened l4h~ yield, ene TOPIC rgy :field e- -of: -34fbt yieldi of alJcili-halide scintil- WTf - V dida on the d, tbe 4nd-in iiie~vor_ j 14 large Urferences _i- the authors t r'i iiiia tim-~ 4bsol~t iglit yields ~ Or tiia- tale w(m),-ami M(m) oy complirit4, the ~p*6PAil tu of - the scintillAion vl,.I'h Ah_ e' a'wputud , of 4~ "GinW-eleo- Z_ at- 1, he outli oft a photow-A The mas~mlrerkmts wre mde at ~_ttcnll Wise room -ter I imoitatioa vith T- aCsl37 on p?ratWpj.':'Ua rays large batcher. of N 7vaj~ious stal ofd!#~,.trent nixes with diffei-,A~nt reflectorsand-.vith di~rfcrent ':.T1*.eonter0.s.~_-'_ The wmbOr -of qumxtv. duced In kl(TI) by ubsorption of one r Tro the I 71eld'vag nml rrom~p~~v 1"ifitmd to be 31 900 -1 ght 5-0% huanta/04-, ~P_   PEFLTSZV, A.!:.; F iE '~ Y. Ff , A.%; SCO! I' , L. 1). 1 ~e ~!, -7 of Npl(-I) IT *.: ~-Il (. e m~ - :: - , ,~ , , - ahs( 11'.- - 7,-. D(.~!. -,N : . P Ml~% 1~ C (" i , - 1 . B~3: -.~ - ~ : - i- it vf! r In %, - ~ ! ! , 1. ~ if: C- . SL hr. ~ ~ ~1 !".": . , , 1: " .!l. . .  PF hl -; : - , t , , : P. A. N. ; ~IOSH. N, 1'. P . ' -/~4 I , 1 5 of f -. : br.~. r,- -n,,d f, r T43 c~c~ an' !.'W, . Dc4l , AN BFSF '~ -v P- ? ,' c lt~5. ,x:.:~A, 28.,]G) Be2orusskiy gosudar-Ovennyy univergitkt ijm,ni V.1.76nina.  PEERTSOV& PERrSCV, N. V. and SMHMN, Ye. D. *About th3 Spontaneous Inner Dispersion of Metals Subjected to the Action of Metal Fusions Considerable Lowering Surface Tension.0 report presented at the 3rd Conference of Hig~.er Educational Institutes on Strength and Plasticity of Metalsp Petrozavodsk State Lniversity , 24-29 June 1963  1 r,~tT,,::,V , k. I. F),i rl c t i ) 1~ ~ r,,- -, :ff i ': i ~ - ~ n T 1, - 1 1 . , , ,,I I . ~ " , -,. ! , , , vio, - , ., v , " . -11, -~ - -t~- -~-r. ' 7 1 -V - ;~ , , - - , : , I I TIN 1) 14 7  FPTS17, B.I.; IIARrYSKrY. 11.11.; KRAMER, H.V. Coapering different methods of harmonic analysis of tidal deformationo of the earth. Izv. All SSSR. Ser.geofts. no,,2:242-243 7 159. (MIRA 12.2) 1. All SSSR Institut fiziki Zemli. (Tides)  PERTSICY, B.B., doktor istoricheskikh nauk, akademik; TARASNNKO, B.P.-, L.K.; KONOPELIKO, I.A.; POBOLI. L.D. Book about ancient Russian glass. ("Glaeamaking In ancient Russia" by M.A. Bezborodov. Reviewed by V.N. Pertsev and others). Stek. I ker. 14 no.9:31-32 S '57. (MIRA 10:10) 1.AN BSSR (for Pertsev). (Glass manufacture-History) (Bezborodov, M.A.)  PIRTSIV, B.P. Concerning the solution of Stokes' problem with a rola- tive error of the order of the square of the earth's com- pression. Trudy TSNIIGhIK no.12:9-12 '56 (MIRA 13:3) (Rarth--Figura) (Gravity)  22hOl S/035/6 i/ouo/ou, /~,~8!C~4 2 0 AL 0 1 /A 1,~, AUMORS: DobroKhotov, Yu.S., Belikov, B.D., Kramer. M.V,, Pertsev, B.F. TITLE: Observa-~ions of tidal variations of gravity acceleration at Pulkovc in 19,58 PERIODICAL: Referatlvnyy zhurnal. Astronomiya I Geodeziya, no. 1), 19611, 33, ab- stract 1~0214 (V sb. "Gravimetr. ls5ledovaniya" , no. 1, Moscow, AN SSSR, 1960, 7 - 14, Engl. summary) TEXT: Observations of gravity tidal ariations were conducted at Pulkov~~: in the basement of 1;he seismic station from April to October, 1958. Two gravi- meters of X-11 typo were employed. The tides were recorded first by means of' photoelectrical recorders of the firm Bruno Lange and then by means of phctore- corders developed in the Institut fiziki Zemll (Institute of Physics of the Earih). AltogiDther 8 monthly series of continuous observations were made during this period. The harmonic analysis of observations was performed on an elect onic computer. j7he analysis yielded the following mean values of quantities /2k + h and phase shifts of main waves of the lunar-solar tide: Card 1/2  22401 ObservationO of tidEil variations ACY-)I/AIUI Wave Phase shift Ki 1.194 + ,.012 + 2.6 0 1 1.180 � 3.008 + 1.3 1 M 2 1.238 0.017 + 2.1 0 S 2 ~.217 j u42 + ! (D 2 N 2 1.222 U.076 + 6.(-) 4, Positive phase shifts correspond to lag or' observed tides relative tc thearetical ones. B. Pertsev (Abstracter's note: Complete translation] Card 2/2  2202 S/1)35/6,L /COG /00~~/(-2 AUTHORS: Parlyskiy, N.N., Dobrokhotov, Yu.S., Pertsev, B.P., Kramer, M.V Belikov, B.D., Barsenkov, S.N. TITLE: Observations of tidal gravity varlatlons at Krasnaya Pak-rI.-a PERIODICAL: Referativnyy zhurnal. Astronomiya i Geodeziya, no. 5, 1961, 33, at- stract 5G215 (V sb. ?'Gravimetr. Issledovantya", no. 1, Moscow, AN sssR, 196o, 21 - 26, Engl. summary) TEM Observatlons were conducted in a special basement near Moscow in 4 km from Krasnaya Pakira. Six monthly series of observations with four GS-11 gravi meters were made at 'various times from December 1957 to February 1959, The gravi- meters were calibrated in the vertical graviinetric polygon at the MGU building. The harmonic analysin of tidal variations wao performed on an electronic Computer, The following mean values of quantities being determined 1-312k + h and phase shifts Lp were obtained- for diurnal waves 1 i63 -t c,.c16; Ly = 1".5 for semidlurnal waves I . 18c) � u.0 18; LY = 40. 1 + lo.c) [Abstracter's note: Complete translation] B. Pertsev Card 1/1  A0(j I /A 1 C I AMHORS: Pariyskly, N,N., Pertsev, B.P., GrIdnev, D.G., Kramer, Barsen- kcv, S.N., TITLE: qravity t1dal variations at Alma-Ata PERICDICAL hefera,~Jvnyy zhurnal. Astronomiya i Geodeziya, no. 4, _~C., at- stract 4G229 (V sb. "Gravimetr. issledovanlya". no. 1, Moscow, AN SSSR, 196,0, 27 - 33, Engl. simmary) TEXT: Otservations of gravity ticial variations were onducted at tne. As-r,-)- physical 6 km 1'rom Alma-Ata. Two GS_ll gravimeters were ,jsed In o!)ser- vations wh!ch continued from October 19~8 to May 1959. Harmonic analysis of the first five monthly series of observations yielded the following values of the quantities sDught f'-)r 1-3/2k+h and ptiase shifts from diurnal wavt~s - 1-13l_�P.co6,LV . 0%6�~?4; Irom semidlurijal waves 1.l60+O.OO8,LT= 44~1- �0 B. Per-.sev LAb-,,ra-ter'R note: (-)inplete translation,, Cari !/I  Pertsev, B.P. ZO, /A I ~ I TITLE: An experience In determination of scale coefficients Df r---)rds in ob- servatic,ns of gravity tidal varla-.Ions PERIODI~~AL: Re f~%rativnyy zo;urn a I. As tronomiy a " ilenieziy a, ar- stra,,t 4G228 (V sb. "Gravim,~tr. lssledovaniya" , ric. I, Mos,ow, AN' SSSR, 1960, ~14 - 38, Engl. summary) TEXT: The autf-or developed 2 proceduros _f'or determining s2aitt of rec~,rds In otservations of' gravity tidal %,ariations. Botn procedures ar-- base-A on the assum.,tion that "zero drift I' of the gravimeter is of ~imall curval,ure and does n-~t change its pro-perties at shifts of ,.he instrument elastic sys.em. T(% ex- plain and esllmate t~e accuracy of the proce(tures proposed, ,he authcr presents an example of p-o,-essing the theoretical t1kial urvP of gravity variation. However, a marked straggling of' copfficients determined was obtained in pronebsing of obser- vations performed with a GS-11 gravimeter, wl,i,~h In the author's opinior, 1&,malInly explained hy imp,~rfection cC the device. B. ler'se.- [Abstracter':, ',omplete trdnslatioril Car.' 11/1  DOBROKEOrOV, Yu.'S.; OSTROVSM, A.Ye.; MIT.5hN,B.F.; BUIAEUE, Yu.D., doktor fizikG-MateM. LaUk, otv. red.; ZHITEIKOVA, S.A., red.; ULPYANOW, C.G., tek-hn. red. (Gravimetric and inclinometric stations for the observation of carth tided Gravimetriche,11cie i naklonoricrTWe stantaii dlia na- bliudenil. zeuaWkh prilivov. Otv. red. W.D.BultmOlf). MoskVU, lzd- vo Akad. nauk SSM, 1961. 24 p. (YlIRA 14:11) (Tidev) (Geophysici-I observatories)  D2281VD,302 AUTHOR: Pertsev, B. P. TITLE: Harmonic ana,'ysls of ~0-day Beries of obz;ervations of tidal changeB in tlie force of 6r:ivity PERIODICAL: Referativnyy zhurnal, Geofizika, no. 1, 1~62, 23, ab- stract 1A183 (V sb. Izuch. zeran. prilivov, !,o. 2, M., AN SSSR, 19o1, 20-,'0, TEXT: The scheme of harmonic analysis is based on the method of numerical filter,5 and depends on determining the five main waves of tidal variations in the force of gravity: M 2' S21 N2' K 1 and 01~ Instrumental zero drift is eliminated on the assumption that it can be rej)resent-ad by a straight line for any four-hour recording interval or by a parabola for a 48-hour interval. Increasing the recording interval covered by the scheme to 50 days permits eli- mination of a large number of minor tide waves and raising tne ac- curacy of the amplitude and phase determination of the SOLIght wa- ves. The three stages of the determination of the sought waves 3/169 62/000/uOl, Card 112  S/16 W000/001/012/08_,'~ Harmonic analysis of ... D228YD302 are described. Since the waves enter-rig into one groui, have very close frequencies, their division is made on the assumption that a) the ratio of the amplitudes of the observed waves entering into one group :i.s the Esame as in a theoretical tide, and that b) all the waves of one group have identical. phase displacements. For- mulas for calculating the theoretical values of the amplitudes and phases of the sought waves are given in the work for determining the displacements of the phases and ocrrelations of the Love numbers 1 + h - 3/2 k. /-Abstractor's note: Complete transla- tion.-7 Card 212  FERTSEV, B. P. Cand Phys-Math Sol Diss -- "Harmonic Anallsis of Zfhe effect o17 tidal variations n the force7 of gravity . Moscow, 1961. 9 pp, 20 am (Moscow Sta~eo U imeni. M. V. Lorionosov. State Astron Inst imeni P. K. Shternberg. Inst of the Physics of the E,-,rth imeni 0. Yu. Shmidt, k-.ad of Sol USSR), 1.50 copies, Not for sale, list of works b the author at end of text (KL, No 9p 1961, p 176, No 24262). -54123 ~T X  ACCnerov no AR40BUST ,aouR=s Rer, sh, Geofise, Abse IGIOD IAUMORo Fortser, Do, Pe TITLEo D*ternAnation of delta and the phase shirt of amidjunal waves from two. day observations of earth tides ICITED SOURM Sbe Isuoho senne prilivoye No* 300 AN SSSR, 1963, 63-87 TOPIC TAM gravinetry, earth tideg souldiurnal earth tide wave, null point dis- placement TRANSUTION9 Since there is every basis to ansume that the values I / h - *4.k. Y Z I / k - b, and the phase shifts a(k for all aemidlurnal waves are Identical, In those cases when the rooorda of observations do not make It possible to analyze monthly series it In possible to obtain quito reliable results from ponsiderably ,shorter series of observations* The proposed analytioal program Invol%,es tho .separation of waves of the samidiumal type from the tide as a whole by manna of ,linear combinations or ordinates extending over a 46-hour periods it oleo iwmlvss amparlson or the derived values and similao, v&Uws oomputed from the theoretioal. 1-0 0- . ;_ Card I/  ,ACCESSION Us AR4033SE17 ;tide. The linear transformations exclude drift of the instrument null point and :quite thorot;ghly attenxwte the 6-4ay, diurnallend long-period tidal waves* 7he !program was checked by proooosing 6 two-day edries of eurth tide observatione and ,comparison with the results of humonto analysts using a 29-day programe Analysis us UAL both programs gsov oloes, remdtse Be Po:rtswv D I SIVAM M CODBI YJ NNMI 00 i .Cora, S/2  ACCESSION Us AR40019 4OMNI note 11h9 0410thees Able WIS? AMOM -Pbrtsevs be Ps :TITLRs Separation of the diurnal tidal wavvg :1 1 and CITED SOURCRe Sb. Isuch. semn. prillyove No. 30 Me$ AN SSSR# 1963# 68-91 ;TOPIC TAGSs gravinstry, earth tide, diurnal tidal wave TRANSLATIONo AA shown by theoretical Investigations,, if the earth's core is liquid the ratios of the amplitudes of the different vraves of the diurnal tide should difthr from the ratios of the amplitudes Indicated by the atatio theory. It is of great interest to determine the values 6 for the ditu-nal waves KI anO~Pl which are close lin frequency* Since the amplitude of the diuriwil Sl wave Io v,3ry small# the vepara-. tion of the KI and Pl waves can be done by combining the reoults of the harmonio .analysis made for two aeries of observations separated by a 90-day intervala The Article gives the o9effloiente needed for computations when hamonio analysis is carried out for the aut1tor's 29- and 50-day programs* Also included is an example of the separation of the 11 and PI waves in accordance with observations made at LCord  ACC NRs 0 SOURCE CODI~: UVO5f3j/_6__ APS035595 6/000/010/C,025/00,, AM"HOR: Pertsev, B. P. 01~ G : institute of P~.yo 0' tie Eart~i, Ac&ciemy of Scienceo 55SR (Inatitut fiziki Zemli, Akademiya nauk TiTUL: The effect of marine tides on tidal variations in Uavity SOUiCE: L; SSSJ. Izvestiya. Finka _-i~[riili, rio. 10, 11)66, 25-11') TOPIC TAGS: ocean tide, earth 6-rav,-,y, ABSTRACT: The effect of diurnal marin4_, t.u.,:; on tne tlo,i1 -,n t:rav.ty at points far from the ocean was inveGtigated. ~'O-tldAl IMI,)3 for iun~ir waves of e 0 2 " used for the oceans and seas surrounding The ea-tri'n cu-face was divided into 410 equal-area trapeziums, bounde6 by mcrid,an3 and paralieli3. i'idai character- "h(_~ I d istics were obtaineei for 272 of these ~thc Dthers are chiofly or, land). IL n irect effect of the tides was then determined by trigonometric funclionj for each trapezium., ComZutations viere made on an electronic computer. Consideration was &-iven both to variable attraction of tidal masses of water in the ocean3 and to chanGeo in the gravity field through deformation of the earth by the marine tidea. Corrections were determined by harmonic an lysis of the indirect effect of the I'll wave as computed for 2 seven terrestrial stations in eastern Europe and Central Asiaz Pulkovo, Krasnaya Pakhra, Kiev, Talga:r, Tashkent, Frunze, and Lanchow. Corrections in 6 for European Card 1/2 UDC' 525.6  ACC NRt AP6035595 stations ranged up to 6--T, of --ne A)rr,~-cticng for ,entral Aaia were about half that up to 5,, Correct,on:j -- cate that Uie accepted or 4 (? ina I values are too high Ln Europe and too low in Centrrii Asia, but the actual corrections are uncertain because of the uae of different, Irravim(~teri> irk Ue woric. Reaultz; are preliminary, but the author concludes that tlic offect of dititant zonvo may be appreci- able. in conclusion, the author taken this opportunity to thank 14. N. Pariyokiy fu-Id M. S. Mlolodenakiy for their valuable counsel and 1J. V. 1,kranova, S. 1;. Baroenkov, and V. Kramer for help in setting up the program and in making the computations. Orig. art. has; 1 table and 9 formulas. SUB CODEt 08/ SUBN DAM 25Feb66/ O~IiIG 1,EF, 004/ OTH !:EF, 004 Card 212  PERTSEVII M.A. Su-.cessful fulfillment of Lhe final yaox of t1w sevan- year plan. Stall 25 no.4:289-292 Ap 165. (MIRA 18:11) 1. Predsedatell TSentrallnogo pravlen-,ya flauchno-tekhnicheskogo obshchestva chernoy metallurgii.  GRINSHPUN, L.Ya.; PYLAYKIN, P.A.; KHIRDZHIYE%f, S.G.; I`-,,'IC,'SOVSKAYA, Ye.V. Tanks or. Fowerful borizontaa ~'or ,: aluminum alloys. Kuz.-Shtam.proizv. 6 no.1-.21-2.,, Ja I (J/.. (M I U 17: 3 )  PERVOV, G.G. I Choosing the diameters of clarifier models with a layer of Suspended sediment. Trudy VODGEO no-3:53-69 163. (WRA 17:2)  i V'aroly .-haracter:.-tics of A,,;str,4an traff'.c --;les and their dllf"ier-rjr-,-v from the H ,ngar.-*an. Auto motor 17 no. 9:23-29~ 6 Mly 'r,4.  S/-6~~61/000/005/001/049 AO()5/A'30 AUTHORe Pertsev~ B.F. TITLEt Attempt to determine et~,&!e fators for re:iordings during observations of tidal variations cf grav-.-.y PHARIODICALi Refer-aVivnyy zhurna-, Ge--f'-z-'ka, n-:. 5, 1,96*:, 21, abstract 5 A 18~j. (V ob.i Gravimetr. -eolelc-v&n~ya. No, 1, Moscow, AN SSSR, 1960, 34-38 ~'EngliEih summary)) TEXTs The ILUthor worked out tw,, eystems for determining scale factors for recordings. Both systems aro based on the assumption that the "zero creep" of o,. gravimeter has ema... -.ur--ature and does not vary in character with snifte of the elast-': system of the device. In order to elucidate and estimate the a,.-,uracy of the sys,,em proposed the author gives an example of processing a thecretica, curve for the tidal variation of gravity. However, on proceeBing obRervatlons recorded by means of a Card 1/2  "C V/4 J-4- c)/,_0 AUTHOR: -Pertsev,, B. P. TIT LE: On the Determination of Lero Point Shifting- in Observa of Elastic Tides (Ob uchete spolza-niya. nulya pri up2ugikh prilivov) ilb,'RIODICAL: Izvcstiya Akaderiiii nauk SSSR, Seriya T%r 4, i)i 5117-548 (US3R) jL,33TRAjT: TLe metliod of determination of zero po.Lnt shift, '.,d by Doodson and Warb Lrg for the observation of a-r,-,y typc- i/6th-da~r v;ave3 ca:., be considerably simplified as The readings vre ta-kiir. for t h h. h ft. t + 10 t o.� 2 ; t0+ 3 1 t0+5 ; to + 8 1 0- 0 1- 15 t3 + diLrinF 15 laDurs, wh,~re t IS the UiM0 ~!, WL-:Cil ~3 11 0 of zero point is determined, Then tt.e Lotal of Lte reac-n:-s Yt is found from the formula: Yt = E An Cos(ant - 6n) n Card 1/3  607/49- 59-4- 500 On tne Determin;ition of Zero Point SL--.17t1n6 in C)bserva-,--.)LLS Elastic Tides where T(t) - term subjected to the shifting of zero pont,. -The formula (1) can be derived for a un:Lt of time which ca,. be written as: 12 Q(t) - qt.) , 0.04304 0"(Lo) 15 t if 0-(t) if-, defined as- 0(t0 +- h) (t0 + hQJ (t0 (t0 the value 1 sin 12 x sin 12.'50.~ 15 sin 4cynx sin 2.5an for th.e characteristic waves is giverl in the table on 548, In the cases whenVthe shifting of zero point has a greater curve, tne term P'(t suould be considered (Ref 1). If 0 Card 213  .X 7/49-59-4-':/20 On the Determina~;ion of Liero Point SLift.Lng in Observau-iins if Elastic Tides if is smali, then e,(t ) will be equaL to 1 4. 0 yt 15 The second derivative can be found for the moment t '2 There are no fiirures, 1 table and 5 ref~'re,,-ices. as Eq ~. 2 of which are Er-g-lisn an(l 1 ASSOCIATION: A.Kademiya nauk SSSR, ln~3ti~ut fi:,,i.ki Zemli (Acadezz.- -f Sciences, USSR, 1--astitute of Phjsics of the Earth) SUBMITTED: August 15, -'-)57, Card 3/3  TT, ~7Z (-T'O -3 --'Pf El P- _fT V"VTJ- ZO  AUTHOR: Fertsev B.P. S-~ V/4c).- 58 2/1'/ TITIE: Harmanic Analysis of Ela5tic Tides (Garmonicheskiy analiz uprugikh prilivov) ?ERIODICAL: I;ivestiya Akademii Nauk SSSR eriya Geofizicheskaya, 19581 Nr 8, pp 946 - 058 (USS'R'S) ABSTRACT: Une of the basic methods of determining the Love numbers characterising the elastic properties of the Enrth is by finding the change in gravity and inclination of the Earth crust due to the tides induced. by the mo6n bnd sun. Theoretical considerations based on a rigid Earth give relationships between the Love numbe:~s h and k ~ However, these relations between observed amplitudes and theix theoretical values can va-ry for different wave components of the tidP and, also, there is a possibility of phase changes of the real waves as compared with the theoretical. Thus, a harmonic! analysis of the total tide should give more detailed knowledge of the int-rior structure of the Earth. To discover all the basic waves of the luna-r-6olar tides, a continuous record must. be obtaine',', for at least 1-3 laonths, Cardl/8  I_ Vl~' ` - - - - ~_ Earmonic Analysis cf Eia~t-~ It is assixTed vcivps ~-Iose tD each ot -Ler in have the same phase cis~l;.,ce;.ent relative t~~ the tLeoretical tide and the r, ~ ' f' e am~~Iitudes are tl.e sa,,- c- a_~ the theoreti--al ti-Je The dif fe., ent : -,:, ~ h ~d!~ L.onic a na lysis are a ~ sti i- guished basically b,,; ti e a,,:,_Pber of waves consicereca. T-e viaveE. ai e divi_,;ed ty a- I linear :)pei-atoi _" t.) ti.- j - t~' in a table of t%,en ever.y tiour (Refs 11 2). Rc f which i 5 u s ed -irI jfn6 i y I iii, oc e anic t ide s , a if fe rs ,: 11 t I t ly in pri=iple. The of the latter method is i)v:, however, sD the ai.thDr -3s adapted the method )f Ref 1 in his a r~lal Y s I ~'- .T~,iEl `_ , ~ri~7iri_:illy designea for i_-'e on oceanic tides - t"-.,- ~,is)_es to simplif,,i the Schef:~e and --,c, ob-,,ain, witi- ar-car5cy than hitherto, the five basic vvaveL: M S N- ~ K_ an(.-', 0 F:)r this purp,-se, 21: --If t-,*r,e )f t' ~ie lunar-solar tide are ta'e:. 'ron r_ - of t;he an.ronriate potential -.ai ,.*L;..d -,~At D-,_Id:3on (Ref 4). 111 applyint. the scheme, 29-da-v c rAr1,i-)us :)bservFtions are Cr? rd2/8 required wit"!. _f the a.,, .(t - hour of day,  Harmonic Analysis of E~3_- ic Ti,:- k - &av o I L ~~ se,,,-i eac.; rour 3f mean t4l.;:e. F-r simpliiicatl:n, -L- a,-e - I'ven in t)-(-. f,)rin jf magnitudes Y lk 'n '--he irtlc~e. iiext, four quantities, la,/ of -)bservotion, Ic . re _~I_ies of the cc-eflicients U defined as iL~ E.. IL CU~Int4ty X are ISiver. in Tat -'e 1. dire + 1) n is now Jef ined (E-1. f- )1., A an(I tI,e coefficient d, KI in Table 2 (in',v -I' ~i ,- rontbiriations ~:,re up~-d). The author - Ps -n t,,- e~, ]kiln ',he ba;3is of tI.e oper-al-,n. He zrites down e ~ue a s,-Lm of 2oiiiponent %wives lie r i-_ phase change of the n-th %~-ive in cne h~_-ur, i t~~,- -hase c-.arF-e ~f t.-e n-th -.,..~.Ve _r, one day L4 J, is the phase of thE- n-th ,-;a,.,e (P ri n at the initial _7~OL!e'~t~ N--xt. leads tl- n -!,' I-' f, the former havini, Li ialuf~. of it is shoi,,,n t ha r P_ - ~ ic~ n -_-4-h3ur and _t u -C 15 anc the e i, Card3/8  ZZ'_, - - ' - - - - / I Harmonic knalysis of Ela~-:-`-- Tides Thus, taking Xkc , the ji)eration sepbr,-.~e-, jut tf.e ~,-Lo~r 1 waves, since the 12-1---ur waves, in this case, aie sr..a'-'- ~ 6a -,-, 0 ) . In the 5ame way, the second opeialuion -- Eq.(2) is divisible into sine and cosine waves with P 2TrP (S ard Ki) , 2~~p - 250 (14, and 01) a-ad 2TV 360(N 2 e 2) The author gives as an example X 10 Thus, from operations (1) ind (2), quantitie-~ X,,,,t ar(~ obtained in the form of sLumiations 1~ Ein RnCos I , ar,-~ b nRnsinb n - AccordinF, ~o the indices, ir and 11 (, i le wave has a very large coeficient and the others are relatively small (Table on p 949, e.g.). This procedure does riot exclude all waves I)esides Thai soufjht, so furt'-r calculotion is necessary. The next tv~e of f " 1"f rig certain linear combinations of Y X ml Un ;,,,i th 'L!~e air, G 1 eliminating some of the lar(-est distuibinE -IertnE. The Card4/8  1,Trl :' '7 - 7, - - - - -~/I , Harmonic Analysis of Elastic Tides ~ % coefficients L.1 n are gIven in Table 3 This sua~:ati:)n is represented as a combination of three terms - t"e firEt giving the basic n-th wave and having ii large cz_~ef Lcicnt G , the second SivinE the ~,.,aves whose frequencies are --lose to those of the basic wave (hence, the coefficients are still large) and the la:,t -riving all tt.e r--mnina_nL!, i~.-;Jves which have small coefficients and can thus be neglected, Table 4 gives th-e coeff'i^,ieits G n A, and a lor different n. Put t.LrLg: - R COS6 + aiR Cos 6 Cos 6 n n and using the wlationship sl;own for F: and 5 t h e values of these two ouantities can be obtained. It should be noted that R is not strictly constant with time but changes very slowly - it can be represented by R = fH , where H depends only on the latitude and f oL the tiDe Expressions for f and rt (defined as shown) and the components h, s, p, N (mentioned later) are given in Card5/8  Harmonic AnalyAs of Elastic Tides SDV/49-;8-E-2/!'/ Table ?. The author next considers the elimination of waves close to the basic one. It is assumed that a linear combination of t.hese has been obtained and that fill waves have the same phase change, k . (Eq.(a)). It is also assumed that the amplitude relation H is the same as for the theoretical tide (Eq.(b) ). The linear combination is written Dut in terms of (a) and (6 ) , terms in cos 5., and sin 5.t are eq4e.ted and R 1 and 6 1 thus obtained. In this way, the 92, N2 and K, waves can be separated. M2 and 01 do not have neighbouriiw. waves differkng little in frequency and so can be calculated immediately. The * itudes and the phases of the waves M S N K a mpl 21 211 21 1 are obtained with an error -%-,,1-2%, whilst 0 1 is a little less accurate. Since this inaccuracy is due to waves with small coefficients in the expressions for R cos 6 and R sin X , it can be reduced by going to the second approximation. Table 4 shows how much the different Card6/8 waves distort the values of R cos 6 and R sin 6  Harmonic Analysis of Elastic Tides -/ Values of 5 and R for the perturbinF waves, calcUlatea f rom Sqs. ( a) and (6 )and also the corrections are ': in Table 5 (the phaoeG and amplitudes of the jepaj,it!"o waves are based on t~ie analysis of tt;e poLentiai c:or:-iej out by Doodson (Ref 4?) ). Iteration of R and r, o%v gives results of greater accuracy. The author next tries to evaluate rou&tly the effect of the remaininE waves which were left out of considci-a~i)ri. He shows that only the 12--hour waves have an effect :)n U , S and N whilst oaly the 24-hour cms lave w effect on ~2 2 2 K1 and 0 1 Also, only waves with frequencaes clise to a need be considered and they can be found easily. It is found that the 1'2 has th-ree waves of neighbourint-- frequency, N 2 - tLren and 0 1 - four. Forrru'Lae fcr calculating the amplitude, phase and coi rections -- j_-ve.,i in TE,ble 6. Formulae for calculatin(~ the esse,.tial, astronomical data are Eiven in Table '/. A v: Dr k e d - ou example is given in the ap-endix at the e,~d D" Card?/8  Harmonic Analysis of Elastic --ides comparison is made betwee!.i the tl~eore,,ical ana ciic ila'.~,d values of the aziplitudes and phases. Tl,i,3 shov,s th'-It dt, is essential to i6e the s,:cond api roximatiou for t1 e0 and N 2 waves. The autbor thanks J.:i. Parlyskiy for 1,.js z,,--vice. TherE are 6 tables and 4 refel-Ences, 2 j'L ar,~ English, 1 vr,%ch and 1 Soviet. ASSOCIATION: Akademiya neuk SSSR Institut fiziki Zemli (Ac.Sc. USSR,lr-,stitute of Terrestrial Piysics) SUBIAI TTED: August 15, 195/ Card 8/~~, 1. -ides-Mathemstical analysis  SOV/49-59-2-8/25 AUTHORS:Pertsev, B. P., Pariyskiy., 11. Kr~,i.me r , L' . V . TITLE: Compariscn Between Various Met.~io~t, oC NatvR-Ac Analyoi.,~ )I' the Tidal. Deformation of the Earth (Sravneniye razliclinyk"i metodov u;a--moni-.hes'1L-o,-o analisa prilivny1ch deforTuatsiy zemli) PERIODIICIAL- Izvestiya i~icademii nauk S33R. 6eriya geofizicheskaya, 195'~, Nr 2, ~ 22-245 (U3SR) I , pp I L~ ABSTRACT! In order '...) dcfii-~e 11-ae accura~,j of the har.ilonic Linalysis of the elast j C t- 4 ~~ , f the Larta, a comLariuDn was -made of U- des :. the raethods described b-,v A. T, Doodsin. ~, W. Lennon, R. Lecolazel: and 3, P. Pertsev (R,~fs 1.-4). The theoretif-cal tide wa:3 c~alc,'jlat~l fcr V account of the com- ponents (,f the azld San ,-.r eve,-,; lio~x dur-*n',- 30 days, startin'-'r fr3m, :.L,~dn!~-Lt cz- 1, 'Lcr 4"0 and C) X = C)c To simpliiy tne w-).i.,, value of: 7 M ~,r a G = -, ,-'. ---. E C was take-.-~ as Luaity. Iz--- addli-.iji, ',lie pot.-ential for 19, ~'-l and Card 1/3  Solr/49-59-2-8/25 ComDarison, Between Va-ri:)us of -',iarmon--c A--.al~rs-L3 of Tidal Deformatilon :~f the Earth of a si-m:-Iar frequency ( R21 711 and DO,- ) a-r e considered. As an example, 41~he of tliese waves ~-r- the Doodson and Pertsev Taett(/ds gives improved results for and K T! -r= is 1 table- -~Ihere are L~ the wave3 S. I references., of w1iieb i is Sov4let, I FT'en('.!i and 2 Ennlisl,. ASSOCIATION: Akadcmiya nauk SS~,-M.. In5titut fizikL Zemli (Acadenv/ of Sciences U36R IngtiLcate of Physi,s of t3e Earth) SUBMITTED: AuFust 1')~)?. Card 3/3  POPKOV, V.I... kwid. tekhn. nauk; TER-OVAKIKYAN, I.A.;KOBYLYANSKIY, D.A.; KOLESNIKOV, P.A.; -EE-RTIM V 1JSHEV, Ye.A.; HUSAKOV, S.I., , KARAh retsenzent; PLEZ-'YANNIKOV, M.N., red.; SHAFMIKOVA, T.A.p tekdm. red. (Handbook for the clothing induetry worker] Spravochnik shveinika. Moskva, Izd-vo nauchno-tekhn. lit-ry RSF.121. Vol.l. 1960 335 (MiL 15M0 (Clothing Industry)  PXBTSW, G.T. Rrficient utilization of fabrics. Log. prom. 15 me.10: 17-20 0155. (NLRA 9:1) (Clothing Industry) (Textile fabrics)  PERTI~,Flv, r'. V. 342L-4 c;ore-.,novnnive I SO: beto-As' Zn,irnallnvkh --tatey, Ilo. ~(), lq49  1W r k; fir 1'. V  PrVNMO, G.P.. [Fivnenko, H.P.1; GORDIYEFKO, V.I. [Hord'lienko, V.I.]; PIRMSElp, LL/,.j CHAGOVM, R.K. (Chahovetal, R.11.] Effect of thickners on the quality of suppositorias. Famatsev. zhur. 17 no-4:9-13 162. . (MM 16:3) l.Kharikovskiy famatoovtichauldy inatituto (SUPPOSITORIES) (TiircKENING AGENTS)