SCIENTIFIC ABSTRACT V.A. CHECHA - M.I. CHECHELNITSKIY

32214 s/i3g/61/000/004/003/023 9032/9314 AUTHOR: Checha,,.V*Ao TIM: The effect of the coherently reflected part of a signal on its correlation properties PISRZODICAL: Izvestiya vyashikh uchebnykh zavedeniy, Fizika, no. 4 9- ig6i, 17,- 22 TEXT: A radio*signal reflected from the ionosphere consists of two parts,namely the coherent part and the noncoherent, part*- It is stated that the theory put forward by H.Q. Booker et al (Ref. I - Phil. Trans. Roy*Soc., 242, 579t 1950) did not take into account the effect of the coherently reflected part of the signal. On the other hand' experimental evidence indicates (Refo 3 - N.T. Taimbal IVUZ, Radiotekhnikai 2, 222, 1959) that the coherently refl.ected part of the signal is often larger than the scattered paj~t. The author derives the correlation coefficient'-for the square of the' envelope.of a signal reflected 1 from the ion6apheref Doth.the coherent ard noncoherent cPmpWDnt9 are taken into account. The analysis starts with'the assumption that the ~pvelbpe Is described by: ~Card 1  3221h The effect of S/139/61/006/004/003/023- 8032/8314 2(t) X(Ocos t Y(Osin w t 0 0 416' The correlation coefficient for the square 6f- the envelope, e9 2 2 2 R (t x + Y M M. is defluediby: 5. ............. RIM2 (t It is, sholon tha t the correlation coefficient is given by.- 1+2r. wh er e: (7) W(f)em-ft df PEW Card 2//6/-S wvxf (6)  32214 5/i39/61/ooo/oo4/OJD3/023. The effect of .... E032/93111- Eq. (7) "expresses the correlation coefficient. for the square oF,~- the envelope of a random process recorded at the output of a receiver-in terms of the field correlation coefficient at the I --A L l- ox Tne 3..rreguLarAvxe5t 'rne monoupaere may De screen which scatters in, accordance ifith Laml It is found experimentally'-that the correlati the envelope frequently has negative oscillat been ascribed (R.ef. 8 - McNicol, RWE,,Proc. I 1949) to an~inaccuracy in -the calculation-of coefficient, associated with the limited numil point,s* This and other attempts. at an explar oscillations in the correlation function are inadequate becausethey do not take into accc reflected.part of the signal. It is shoim tt formula for a.random screen moving with a cor and a plane incident wave is: Card 3 _Lacea oy a ranoom s 1 aw. coefficient for s and this has pt-3, 96, 366, correlation of sampling on of the A to be the coherently the complete nt velocity v  322114 S/139/61/ooo/oOli/oO,3/023 The effect of .... 9032/E314 2r%tr sin sin +2P2. 2"n 2rvt 2 2P Thus it is clear that the magnitude of the negative oscillations in the correlation-coefficient depends both on the drift velocity and the turbidity.coefficient. 'references: 4 Soviet-bloc and There are l figure and B . _ 4 non-Soviet-bloc. The four English-language references tientioned are: Ref. I:. quoted in text; Ref- 5: E.N. Bramley, Proc. IEE, pt.1, 98, 19, 1951; Ref. 6: R.B. Banerji, Journ. Atm. Terr. Phys., 6,-30, 1955; Ref.- 8:, quoted in text. Card 4  32214 S/139/61/000/004/003/023 The effeCt of .... r,032/9314 ASSOCIATION: Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom gosuniversitete imeni V.V. Kuybysheva (Siberian Physicotechnical Institute of Tomsk State University im. V.V. Kuybyshev) SUBMITTED: August 22, 196o Card  417651 3/19~462*68/008/070/106- D D271 D308 AUTHORS: Chechas V.A.9 and Zelenkovq V.E. TRIM: Ionosphere drifts in F2 region in Tomsk during Inter- national Geophysical Y~ar and International Geophysi- cal Cooperation PERIODICAL: Referativn4y thurnal. Avtomatika i radioelektronika, no. 8,196 28-29, abstract'8=04 (Tro Sibirsk. fiz- tekhn. in-ta pri Tomskom un-tet 1960, no. 38, 23-29) TEXT: Results are reported of observation of drift of small-scale inhomogeneities of ionization density at the ionospheric station of Sibirskiy fiziko-tekhnicheakiy institut (diberian Physical and En- gineering Institute) between September 1957 and February 1960.-The method o-L' scattered reception iiitli small base (100 m) was used in the observationso Histograms of the magnitude and direction of drift velocityq depending on the time of day and on the season, are given. The scatter of drift direction is large at any hour but it is greater in daytime and in the evening. Predominant drift direc-. tions in function depend more definitely on the season. At any time. Card 1/2  S/194/62/000/008/070/100 Ionosphere drifts in P 2 region D271/D308 ~of the day, qreat variations of the drift velocity are observed (20' U A. 500 m/sec.), and higher values are associated with ionospheric perturbations. Most probable values in the morning and atoni lit are between 40 and 80 m/sec., in daytime - between 120 and 14 m sec., and in the evening between 60 and 100 m/sec. Velocities vary wide- ly with seasons, the most probable velocities in winter, summer and' autumn being 60 - 80 m/sec., and in spring - 40 -.60 m/sec. Graphs are produced of the diurnal dependence of the North-South and East- Ylest components of the wind velocity for each season* LAbstracter's note: Complete translation.] Card 2/2  45212 S/203/63/063/001/009/022 Ao6l/A126 AUTHOR& Chech TITLE& Investigation results on the parameters of the nonunifor structure of the ionosphere taking account of the part of a signal being coherently reflected in the P2 region FERIODICALs- Geomagnetizm i,aeronomiyaq Ve.39 no* it 19639 73 78 -h- _iio and ionospheric TEXT& "Slfg 1~ _hUnifiimitiws-of_i1he ionospheie drifts were determined by the spaced reception'method. The frequen6y was varied in them range of 3 md to 11 mc, and experimental data from the months of.March, June, September, Octoberi.November, and Decembe 1960,~ were utilized in the proce QS~L The measurement results led to the dwter- mination of the degree of nonuniformity of the reflecting region of'the ionosphere, the chaotic-velocity, the angular spread of the beam of the scattered waves, the dimensions of ionospheric nopuniformities by,taking account of the coherently reflected part of the signal. The inclusion .of the phase factor in estimating the dimensions of the nonuniformitie&L Card 1/2  9 r '5/20'.5/63/003/001/009/022 Investigation results on.the par Ao61/A126 ametets C I. is analyzeA. Dimensions o4. ;oughly 200 m are o4tained when not taking the phase,factor into accoxkn~ ns o; 150 - 200 m are obtained' and dimensio when taking it into account,.-. Thus, taking the gotierently reflected part of a signal- and the phase f.,aqtor into account l4t~l& changes,tho,experj- mental risults when consid"tng a large amount of'-data. There are.4 figures and i'table, m kon gosu- ASSOCIATIONs Sibirskiy fizikO-wtekhniche9kiY institut pri To a darstvennom u4yersi tote' (.Siberian, Physicotechnic al. Inst tute, Tomsk-Ste .4te. University) SUBMITTED&-- July. 28, 1 96Z - V qard. -2/2  Scattering on moving inh4lodin sities in the ionosphere. Geomag. i aer. 3 no.4.-7?8-779 JI-Ag 163. (IMA 16211) 1. Sibirsidy fiziko-tAkhrAchebkiy institut pri Tomskcm gosudarst- vennom universitete,   7 ~I 55895~65 F-~kcESMON NR: AR5014432 IsA-disIcussion of -the: Influenced the:coherentlj'reftected part of the signal onits cor of the role of the temporal and relation properties. The author has. studied the problem spatial: properties of the scattered-field and derived expressions for the energy spectrum and the. correlation functions, for. irregular and- rough screens in the presence of random I r ults have been obtained on the basis of a method and regular movements. Experimental es generalized for.a case when the,cohereopy reflected -part -of the signal is taken into omputed with and without the co account. It is shown that, although the parameters 0 herently reflected part of the signal taken into account. can differ appreciably in each dividual measurement, when a large-volinne of e. arimental data isconsidered this ..XP difference is manifested poorly. as, a result of- averaging the large quantity of data and i r inhoifiogeneous state and e angular scatter the causes. The diurnal variation ofthe th o of a beam:of scattered waves are dete Ined. In 'a comparison of the sizes of the inhomo- the diffraction geneities, determined from pattern at the earth's surface, and the size 01 c inhomo owance for th corre tion given by the Jonospheri geneities~ it is shown'that all 0 c -k. can dWplace the values, of the'most probable siz eities in-the phase facto es of inhomogen -of the sizes of inhom direction.of smaller-values. The results.of measurements, ogeneities!   t~ L1,001345 - I  7, i: ~L 3'-6~ P,(i)/iZD-2' I-JP(c) BBI/GG 15 Ult/0'169/65/000/0,07/AO05/A605 !.ACCESSION NR- AR5018974 991 iA   FOFTSVIATKOV Gencho* CRECRUEVA, G.A.[translator]; SATAROV, P,A. C `-,- General Vladimir Zaimov. Moskvat Voen.izd-vo 1961. 218 p. (zolmov, Vladimir, 1888-1942) WMA 15:10)  Mr-CHF, A. A. "Application of thr, VariatJonal Motbod of Prof V. Z. 'no-ov to the Solution of 0"ovu,ral Practical Problems of Thorral Elacticity." Cand Tech Sci, Belonissian Pblytechnical Instp Minsk, 1954. (TI'Mmekh, Oct 54) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (10) SO: SM. to. 4819 5 MaY 55  28334 S/124/61/000/005/022,/032 Zvi -~,Azo A005/A130 AUTHOR: Cheche, A. A. TITLE: An approximate calculation of a rectangular plate on an elastic base incident to linear variation of temperature PERIODICAL: Referativnyy zhurnal, Mekhanika, no. 5, 1961, 13, abstract 5V83- (Sb. nauchn. tr. Belorussk. politekhn. in-t, 1959, no. 70, 107 - 115) TEXT: The author examines the problem of determination of the stress and strain states.of a thin rectangular plate supported on an elastic base and sub- jected to a given temperature action. It is assumed that the elastic constants and linear dilatation coefficient of thQ plate material do not vary with the tem- perature. The "one-layer model" with two characteristics that was proposed by V. Z. Vlasov is.adopted as the elastic base. For the purpose of integrating the known differential equation for the bending of.,a plate on an elastic one-layer base, the author uses the V. Z. Vlasov variation method (Tonkostennyye prostranst- vennyye sistemy. Moscow, Gosstroyizdat, 1958, 467 - 486). In order to obtain a simple approximate solution, the author confines himself to only the first term of Card 1/2  28334 S/124/61/000/005/02P,/032 An approximate calculation of a rectangular plate... A005/AI30 the expansion for the required function of plate deflections; he studies the re- sulting ordinary differential equation of the fourth order for the case when the given temperature is constant over the entire plate area and varies linearly throughout the thickness of the plate. Depending on the type of roots of the characteristic equation, three different-expressions are found for the function of plate deflections. There are 3 references. [Abstracter's note: Complete translation] N, Leontlyev Card P_/2  IZMAILISKIY, V.A.; CHEICTMEGOYEVA, Ye.V. Genotics of the spectra of benzeric-nalfunilla'-i Do'kl. AN SSSR 166 nool:1.14-117 Ja 166. (miu. lc).-I) 1. I.Aboratorlya IchImli kraqitaley i problomy tsvetnost.4- ;~Tl Moskovskom pedagogirhaskom institute Im. V.1.1-nninu. I'lub-nuitted May 20, 1965.  LOZINSKIY, M,, doktor tekhn. nauk, prof.; PRIBYLOV, B,, kand. tekhn. nauk; CHEGHUIN - . h, At the congress in Leipzig. NTO 6 no,6:57-99 Je 164, (MIRA 170) j  VYLETHIKOVA, Yelens Pavlovnav kandetakhn.nauk; PYKHOV, Nikolay Ivanoviche kand.takhn.nauk. Prinimali uchaotiye: POVOROZEMIKO, V.V.. doktor takhn.nouk; WORMY. S.N., inzh.. CHHCHMI,A.A., red.; BOBROVA, U.N.. takhn.red. [Organization and cormercial operations In railway transport) Organizatells, parevosok I komnerchaskais rabota na zhelesno- dorothnom transport@. Koakwa. Goo.transp.zhel-dor.isd-vo. 1959. 522 p. (MIRA 12:11) (Railroads)  BRAZOVOLITA, Tatlyana Ivanoyna; CMIW KALIKOVA, I.T., takhn.red. Elfized and working capitai of automotive transportation units] Oanoynys I obototuye sredstya avtonobillnykh khoslaistv. Moskva, Nauchno-teldm.lad-yo K-va aytonobillnogo transports I shossainykh dorog HISNA. 1959. ft p. (KDA 13:2) (Transportation. Antomotive-Accaunting)  CHICCHE, A.A. Approximate dosigning.of reciangular elastically supported plates subjected to linear thermal changes. Sbor.nauch.trud.Bel. politekh.inst. no.70.-107-115 '59. (MIRA 13-:5) (Ilastic plates and shells)  L 40 P.- I-z' 66 WT i j 4-jP ~t ACC NR; fi'60205raa N SOURCE CODE: UR/0000/6r4/000/000/00!c"/0021-) A UT kin, V. V.; HOR: Chech Vasil'yev, M. P.; grigorlyeva, Smerdav. B. 1. ORG: none TITLE:, Abso6tion. 6f high. frequency energy by, plasma in the ion cyclotron resonance, in strong high~ftequency fields SOURCE: AN LJkrSSR- Vysokochastotnyye svoystva plazmy (High frequency properties of Plasma). Kiev, Naukovo duaka, 1965- 15-26 TOF.~C TAGS:, plasma beating, plasma.oscilla-tion, plasira velocity, plasma densityl cyclotron resonance,.ionbeam, electron collision ABSTRACT: The present work continues the study of the ~(2rp i hi reauen~ly iwaves by a piasina in the ion cyclotron resonance. The conditions for heating of plas-i ma by this method and the physical processes wbicb occur in various re-i-mes are brdeZ-! 4 e ,y ab tionlis studied in the experiment with a high! 1y reviewed. The nature of i2iera-, I r 013 elect ' S/CM3 and an axiali frequency wave applied to the plasma with a density of 1 ro"I current flow of 30 A/cm2. it is shown that the absorption of the wave depends on the interaction between ions and electrons of the plasma. This result is described by equations derived -.For the case of absorption by collisions. In the experiments u7nere the electric field of the wave exceed-ad the critical value (which deterimines the riaxi-L- Card 1/2  L 1 ACC NR; AT6020563 creaced mum absorption for, two-body collisions), the effective collision ~requericy in strongly. This increase is attributed to the deceleration of the directed ion beam in. the cyclotron wave by high -frequency plasma oscillations induced *Z)y ion beams with velocities exceeding the thermal velocity of the plasma. The experimentally detenmin-', ed effective collision frequency is within an order of magnitude of -that arising from the above mechanism. Orig. art. has: 11 formulas, 3 figures. SUB CODE: 20/ SUBM DATE: l9Nov65/ ORIG REF: 013/ OTH REF: 002  "I~Cpaiftlig tractor -mo-ts by with nowderod (-~~st Iron". Llvov, 1955~. JAilt "oulicil All-uluoll Sci lies Inst f6r.-Alie I-lechanization of Agriculture (Vil-l , and All- Union Sci Res Inst for the Electrification of Acriciilture (VIESKII). (Dissertation for the Degree of Candidate of Tochideal 'Science. SO: Knizima.-va Letopis ilio. h3, 22 October 1955. Moscow  CHECRELI., A.F., kand.tekhn.nauk Automatic built-up welding of wear-resistant bearing rollers of crawler tractors. Svar. proizv. no.10:37-38 0 161. (MIRA 14:9) 10 Llvovskiy sel'skokhozyaystvennyy institut. (Crawler trantors-44aintenance, and repair) (Electric welding)  ZHARKOVP M.A..; CHECHE.L.' -E--i Cambrian sediments of the middle and lower Kirenga River. Dokl. AN SSSR 149 no,.4-:922-924 Ap .1 163. OaRk 16-:3) 1. Irkutskoye geologichaskoye upravleniye. Predstavleno akademikoa A.L.Tanshinym. (Kireaga Valley-Geology, Stratigrapk4c)  ZHARKOV, 1A.A.; CHECHELIp E.I. Late Pre-Cambrian and Cambrian sedimtnita in Lhe Chay basin (western slope of the Narth. Baikal highland). Dokl. AN SSSR 159 no.1:85-88 N 164. (ILrU 17t12) 1. lnstltut geologii i geoflziki Sibirskogo otdelexi~ys AN OZSR. Frodstavleno akademikom A.L. Yanshinym.  MALINOVSKAYA, L.N.; CHECHELI, I.I. Distortion of nonsteady vibrations in galvanometric recording. Trudy Inst. fis. Zen. no.20s125-136 162. (NIRA 1528) (seismomtri)  CHECHELI, I.P., inzh. Automatic coupling, Trakt. i sellkhozmaBh. no.12-.40 D 165. (MIPA 18:12) 1. Chelyabi-iskiy traktornyy zavod,  S/08i/6o/Ooo/622/ooq/b16 A005/A001 Translation from: Referativnyy zhurnal, Khimiya, 1960, No. 22, p. 236, # 89431 AUFHOF9- Azarov, K. P., Chechel', L. D. T TIME! The Role of Hydrogen in the Formation of "Fish Scale" Defeat :bm_ th~- Enamel Coating PERIODICAL: Tr. Novoc-herk. politekhn. in-ta, 1-959, Vol. 97, pp~ 87-91 TEXT: The role of steel and some technological factors in the formation 3 "fish scales" was studied. The cathodic etching method was used for testing, it turned out that cold rolling and increased steel drawing degree considerably in- crease the resistance to fish-scale formation; preliminary copper- or iron-plat.- Ing of the specimens prevents the fish-scale formation; with increasing thickness of the coating the time needed for the fish-scale formation increases; boroi~-free coatings resist considerably better the fish-scale formation than boric ones, The tests were conducted with the following coating enamels: titanic __ oliti and , cry Dutch titanic and cryolitic at the thickness of the roas-led coating beirbg 0 d - I _ .15 8--i 0,40 min. The -11-asts sbowed that the titanic eneumel well the fiz-11-lZra'ale Card 1/2  s/b8i/6o/ooO/022/009/016 A005/AO01 The Role of Hydrogen in the Formation of "Pish Scale" Deteot in the Enamel Coatirg formation in case of a large coating thiGkness and weakly r--~Sista in a tbin laver. The cryolAic and Duch enamels resist well the fish-seftle formaticn AZI case of both large and small coating thicknesses. G. Gerashcher-ko Translator's 'note: This is the full translation of the original Riassian abstract, Card 2/2  004 f" C- 4 00 A 00 go 00 00 0 0 IL-W-M g M do 4111 14 EL, JY w W.w w w W-W 1 3 S Ihw~y Wx WIT. T 17 0 41 0 9 0 0000000 Ij I- b M 0 a Yi .1 a o a In dw eb"" V 1, 1ejokiriw 1, bb womb N .4. C ON it IMIL-For conl4wt inth nuo% asul neuttal lifllli"~ (w hyth"'iy""s' the snatolialiq cats 1k* U~A. CAA it'"j, Cit. 1, ILU %4.74.149 T. %n?t.144"41 V Au'l the twoltv "Vats. I, ?.in I _% jj.j Ve 2%. dk,y rall.5, At Al. I" on,""W4 'tech Me U004 IM MUMIU1.1. t not re6taut. [fan atut rad iron Wof ffti4l At broam w in the Sjwwr rf C"O&M and air, ant to 001, MO-741'. Pb-civi suff"T" &'v re' Cu i. "Otant up to zoo ,V,. &'.-VAI' ALM. "UMIC"' ,want locomwWonly, dty in"I 6 uwd- ev"Little IN- their ~s- shrant to cum-ion. Al- " heeff "' cept,tA,,tytotclup.ebavg_&&I,nmh.,4tfain,t. Attuatiffes of fued qu,"z tealsted both r"Ll &Ikt hot Will~- wee zoo see see ISO 01'tL~-L A-1142-110111 CWWK11101 ago 0 b u a AV go As .16 ON P 47 cat- -40 lie - 0 3 6 T a 0 4 0 0 a 0 o dw S TO is , '6*0 ee~  CHECH3L', B.S. r Affec.t-of,ilia n=ber of runner bWov an power characterletIcs of higbP-speed adjustable-blMe hydraulic turbines. Trudy LPI no.193:38-50 158. (NM 12:2) (Hydraulic turbines-Blades)  AISKSANDROVA. T.A., kand.tekbn.nauk: CH&CHBLI. N.S.,kand.tekhn.nauk Construction of high-speed hydraulic turbinese Inergomashisontroonle 5 no.3*.13-17 Mr '59. WDA 1213) (Hydraulic turbines)  --f-04065-67 EWP (k) IEW(d)IEW (m)/T-2/EWP (w)IEW(f )IEWP (V) ACC N " AP6027558 'AUTHOR: Starits IN. S,-Wandidate SOURCE CODE: UR/ol43/66/000/005/0105/010? Ve G, (Candidate of technical sciences); Cbechellf eabnical sciences) IORG: 'Leningrad Polyteabnic Institute im. M. 1. Kelinin.Meningradskil polI