SCIENTIFIC ABSTRACT SHEPELENKO, F.P. - SHEPELEV, I.A.

'.7 1 AUTHORS: Demkov, Yu.N., Shepelenko, F.F. 56-6-2-5/47 TITLE: The Connection Between the Hulth~n and Kohn Methods in the Theory of Collisions (Svyazl mezbdu metodami Khyol'tena. i Kona v teorii stolknoveniy) PERIODICAL: Zhurnal Eksperimentallnoy i Teoreticheskoy Fiziki, 1957, Vol- 33, Nr 6(12), pp. 1483-1487 (USSR) ABSTRACT: The present paper investigates several varieties of direct methods of variation for the determination of the phase of the radial wave func- tion. The equation for the determination of the phase in the variation method is: T "( r) + (k2 _V) T ( r) = 0; T (0) = 0 r -, 00 - A sin (kr + The variation principle for this prdblem can be written down in the following form: Si S A2 ~'(r)((d2/dr2-) + k2 -V) T (r) dr k Sfj By inserting a trial function (r) into the functional it is possible, 1P by mean of the variation principle, to derive a system of equations for the determination of the parameters Cti . This system of equations Card 1/3 ran be constructed in an ambiguous manner. First, the authors in-  The Connection Between the Hulthe'n and Kohn Methods in the 56-6-25/47 Theory of Collisions vestigated the most simple, but very important case n r) Q(.i ~Oi (r). The functional then is a quadratic fom with respect to C(i, and the corresponding variation principle can be written down in the form: S j = 1~ CC 2 'PCCI -C(1SC( 2). The equations for the detemination of the coefficients c(.1 ... ,C(n are written down. The condition for the existence of trivial solutions of the system is, in general, not satisfied. Howeverp by eliminating one of the equations of the system, the system can be made soluble, and various foxnulations of the variation principle can be obtained. This is discussed in detail for Hulthen (Khyullten) and Kohn (Kon) methods. The results obtained by means of these two methods agree if certain equations, which are mentioned here, are ccmpatible. The authors then endeavor to find out to what extent the integral identity result- ing from the variation principle must be satisfied in the case of the trial functions obtained here. In the ccmputation of the phase by the Kohn method this integral identity is automatically satisfied. Card 213 Verification of the satisfying of integral identity is equivalent to a  The Connection Between the Hulth4n and Kohn Methods in the 56-6-25/47 Theory of Collisions direct comparison of the results obtained by oompdting the phase according to the Kohn and Hulthen methods, and is therefore not an independent criterion for the correctness of the variation computa- tion. As an example the authors computed the phase 'I for the scattering of electrons through the static field of a hydrogen atom with V = -2(1 + I/r)e-2r. There are 1 table and 4 references, I of which is Slavic. ASSOCIATICN:Leningraa State University (Leningradakiy gosudarstvennyv universitet) SUBMITTED: May 30, 1957 AVAIIA3LE: Library of Congress Card 3/3  GOSYASHKO, P.M., kand.tekhrirtauk. YEBLEMEINK01 P.G., in;'!;., KF,IMDV, A.K.2 kand. kand,tekl-, nauk: SHEFELENN tekhri.nauk; KODENKO, I-D I _11-___~ - -"N. ,, kand. tekhn.nauk Causes of the breakdowri ol" the pov~_-r take-off drlive in overating a tractor with a motm,,--d gorinkiinv machine, Trakt. 1 sellkhozimash. no.9;34-17 3 165. (mT RA 18. 10) 1. Fbarllcovskiy 1---men; V.1T.Lenina.  L4  YEFREWIfKO, P.G., inzh.; SHEFELENKO, G.N., kand.tekhn.nauk; KODENKO, M.N., kand.tekhn.nauk Using induction transducers for measuring displacements in the elements of the power transmission of a tractor. Vest.mashinostr. 43 no.9:32-34 S 163. (HIRA 16:10)  .7 ZCC i~R-7Nf6015371 SOURCE CODE: UR/0000/65/000/000/0167/0170 AUTHOR: Shepelenko, K. 0.; Zakolupin, G. N. ,ORG: none TITLE: The final driver stage for electroluminescent displays 'SOUR!-'E- AN BSSR. Insti ut tekhniSheakoy kibernetiki. Vychislitellnaya tekhnika (Com- .puter engineering). Minsk, Nauka i tekhnika, 1965, 167-170 TOPIC TAGS: computer, digital computer technology, computer output unit, real time ta display, electroluminescence panel, transistor circuit, ferrite switch C I 1ABSTRACT. This paper is a sequel to one dealing with the generation of visual alpha- inumeric displays on electroluminescent panels. The present paper describes the design ~of the driver (see figure 1). The driver works as follows: the storage input trans- I !former Tpl, formed by a ferrite core with four windings, is normally in state "11'. A 1write pul-se, arriving at W4, causes the core to change its state to 11011. The voltage I induced in Wz is of such polarity that the high voltage transistor T, remains in !its normal "off" state. When the next clock pulse appears at W3 the core changes its Istate back to "1", and the pulse now induced in W2 turns the transistor T, on, which reinitiates three separate events: a high voltage pulse appears at the output of the 11:10 pulse -transformer Tp2 and actuates an electroluminescent element on the display, Card 1/2  L 062`j9-67_ ACC NR: AT6015371 :the state of the core in 2P, is changed to "0", and the capacitor C begins to charge; ij," Fig. 1. C - Aw~~Ip I I TP, Wr .1.7 70'a Ta a I us. clock out CT .At the conclusion of the output pulse generation, T, is turned off and the capacitor C discharges through R, forcing the core 4.o change its state back to the original 111". Now the circuit is ready to receive the next write pulse. Experiments have shown thin :circuit to be stable and useful for applications with various electroluminescent de- 'vices. Orig. art. has: 3 figures. SUB CODE: 09/ SUBM DATE: 15Dec65 Card 2/2  L 06596-67 hlwr(d)IE~1) IJP(d) GG/BB/GD ACC NR: 6015360 SOURCE CODE: UR/0000/65/000/000/0031/0036 AUTHOR: Sher)elenko. K. 0. none, ~bu ,TITLE: Commutating codes .SOURCE: All BSSR. Institut tekhnicheskoy kibernetiki. Vychis]-itellnaya tekhnika (Com- ,puter engineering). Minsk, Nauka i tekhnika, 1965, 31-36 ITOPIC TAGS: computer, computer technique, binary code, computer coding ABSTRACT: A new type of code which reduces computer loading and increases efficiency ,is proposed by the author. The new code and its relation to the original common biDa icode is explained in figure 1. Pulse train "a" represents a sixteen-bit word in the loriginal binary code. Each vertical line represents a logical "I" and the absence of ia line in the appropriate position represents a logic "0". Pulse train llbll correspon" ;to the original word "a" such that there is a logical 11111 when in the original word !the bit state changes from Ifoll to "I". The pulse train "c" has a logical "1" when i I ithere is a change in the bit state in the original binary word from "I" to "0". The ;words "b" and IV' form the words in commutating code for the word "a". If the trans- !formation rules are as above specified, the "b" and "c" completely describe the word ill all. The properties of the new code are defined by proving the theorem "The number of Card  -L -0659~-67 ACC NR., AT6015360 Z J 4 S 6 7 8 9 /0 7 IJ 14 /.f /5 Fig. 1. a b "I's" in a word expressed in the commutating code may not exceed the number of 'Ills" iin the corresponding original binary word", and the lemmas "The loading coefficient of J:the commutating code does not exceed the loading coefficient of the original code", ,and "For coded words in which the discontinuity coefficient tends to one, the sum of I ;the 111's" in both corresponding words expressed in commutation code tends to twice the I ;number of "lls" in the original word". The coefficient of loading is defined as the I :ratio of "I's" to the total number of bits in the word, and the coefficient of discon- 1101f itinuity is said to be the ratio of the number of commutations from to I'l" and frxx iffill to 11011 to the total number of bits in the word. The author contends that the ~adoption of this code in place of those now commonly used will reduce the computer ';logic and memory capacity requirements while also decreasing beat generation. The Jatter is a particular advantage for increasing the reliability and life of microcir- Icuit logic. Orig. art. has: 46 formulas. SUB CODE: 09/ SUBM DATE: 15Dec65 Card 2/2 ); -:  AC'-- NR-- AT6015370 SOURCE CODE: UR/0000/65/000/000/0163/0167 AUTHOR: Nr~~y, V. F.; Shepelenko, K. 0. -77 ,ORG: none TITLE: Scne problems in generating nwnerical infoiriation for visual observation SOURCE: A-11 BSSR. Institut tekhnicheskoy kibernetiki. Vychislitel'naya telchnika (C,.n-- puter engineering). Mins%, Nauka i 163-167 T011TC it,11 CoMpkIl,, 1. -r, compitter technology, cmputer output unit, real tLmn kii-,'play' clectroluillillescen-o panel, digital deecder, signal decoding APSTRXT characterG can he forned on ele ctrolu-ni ne scent dis -s 'P~gy' Panel c1DiI:31S-!: 'A!, OF -1,11-Ji-ViC111,111Y COTItrelled elements. Separate logic modules are used for ea,:h chaliacter tu Le generated, such that no information concerning the Structure of the charactci,s need !).-- s~-crcd, The output of the character-generating mcdul2s is chan-! to fiie eppropriate position on the display V-!ntal- Each display module cons-ints ,of 40' clements, at-ranged in 5 vows and 8 columno. The individual elements Bare acturit- C."- 1,7 voll-ager o1 opposite polarities to the corresponding x and y terminals. Tht~ display unit consists of three modules: the electroluminescent pane.1, the driver unif , and the. character gene, attiiig logic moduln. A single pulse from the computell collf-i I '! Arol lagie !jiodule initiates the formation of a char;4cter by opening a gate F-lid adruit- Card 1/2 L.~- - - - - -- -- ---- ---- --- --  ACC A'1601-5370 iting clock pulses into the character generating logic modulf!. The clock pulses are bused to acLuatc each row driver from I to 8 in succession. The corresponding column idrivers are either actuated or inhibited by the outputs from t1je character generating ilogic module. Thus a number or a letter is formed by the luninescing elements at the intursections of actuated columns and the sequentially energized rows. Since only the columns require logic control, 5 instead of 8 control functions am necessary. T]Zan- sistor-ferrite core combinations are used in the character generating logic module. 7his approach to visual data presentation'is convenient, simple, and flexible. Con- ~venient, because a single pulse is required to initiate the display of character; sim- Iple, because of the minimum nuilber of logical operations, and therefore few components Are necessary to generate a character; flexible, because the character selection can b iin any sequence, hence, this display may be used with any ccoputer. Orig. art. has: 12 figures. SUB CODE: 09/ SUBM DATE: ISDec65 ,A I Card 2    SHEPEUM.O., --- L, -G.- Fa"riments on chemical chrcmium plating and(cobalt plating. Khim. v shkole 17 no.6-283-84 N-D 162. MIRA 16:1) Olating) (Chemistry-Experiments)  SHNPET,.FNKn, i,.c, , Experiments in producing photographic images on the oxide film on aluminum and its alloys. Vr'zi. v shkole 18 no-5:69-71 3-0 163. (MIRA 17:1~  SHEPELEIIKO, L. M. Problems of projective bending of families of plants in P . Izv. vys.ucheb.zav.; mat. no.1:210-217 160. (MYT~k 13:6) 1. Tomskiy gosudarstvannyy universitat imeni V.V.Kuy-bysheva. (Geometry, Analytic)  SHEPr,TZNKO, L.G. ,w. " : Experiments in producing 'photographic images an the oyide filz on. aluminum and its alloys. Xhim. v shkole 18 no,5:69-71 S-0 163. (MIRA 17:1)  C,qOVDIYX, N.G.; SHEPELEINKO, L.G. Some experimento with molten 3alts. Khim. v shkole 16 no.6:70-74 N-D 163. (MIRA 17:1)  SHEPELENK0, L. M., CAND PHYS-MATH SCI, "PROJECTING BEN- DING OF CERTAIN FAMILIES OF PLANES INJI-MEASURED PROJECTED SPACE." TomSK, PUBLISHING HOUSE or TomSK UNIV, 1961. (Tomsx STATE UN I VtMEN1 V. V. KUYBYSHEV). (KL-DVt 11-61t 209). -27-  SH"FERO-VA, K.A.; SIMP= X0 -TErPW',,'A, 5,T. ) . ,r- I tion of pathageni- ser-typeis of F-aaer' hia col-I in a Dis tr 1 bu I L: le - mrural Zdrav. Turk. '? no~',,106-28 N16-3 (MIRA 1'7%-~)  8/179/60/000/00.5/009/010 9081/E135 AUTHOR: Shepelenkog V.N. (Tomsk) TITLEt Some PrrbM~= Elasticity Theory for an Aniaotropl.-, Strip -1~O PERIODICALs Izvest.tya Akademil nauk SSSR, Otdaleniye tQkhn-LchaskAJrh nauk Mekhanika I mashinostroyeniye, 1960, No PP 1~4-168 TEXT. The method.of Kufarev and Sveklo (Ref 1), used by them in investigating the first boundary value problem? Is extended to the second (Para 3) and the mixed (Paras 2, 3) boundary value problems of an anisotrople strip. In Para. 1, the known component.5 of the displacement vector on the edges of the strip are a ~= Uk(x); v = vk(x) ; y = (_,)k+lh; k = 11 2. kc-~:--)rding to Lakhnitskly (Ref 2.1, the problem leads to the determination of two functions: Fk.(zk), -1-k := x ' 'JkY Analytically, Eqs (1.1) follow from the boundary cond.l.ri.ons fj.7 Card 112  S/179/60/000/00,5X009/010 B081JE13 5 Some Problems of Elasticity Theory for an Anisot--ropip, Stz-i.p j-yj