SCIENTIFIC ABSTRACT MOZHIN, A. N. - MOZNAIM, G. I.

First model Nominal d-c voltage ----------- 9.999 Reso lution -------------------- 1 ------ 2000tso Si xzal~ 61aict resistance Conversion time ---------------- 3 Z., Permi4dible temperature ------- +lS+3S S -~-voltagevari&tion -------- tio Upply Abtolute conyersion error ------ t (0. OZY# UX+ 1) Orig. art. has: 3 figures. Second model 10. 2375 v 2.S Mv 2500t 100 ohms 0.15 msec zot S C t 10 (0. 0S% UJ,4- Z. 5) My  SARGRUMVA, G.T., inzh-.,;,-MGZHILOVA, L.V., tekhaik Single-cut tie-tamping machinery. Pat' i pat.khoz. 4 no.9:48 S 160,. (MIRA 13:9) (Railroads-Equipment and supplies)    KOZHIN, N.V., inshemer. TM-51 Installation for transforrixg uIlled peat frou narrow-gso to wide-oge cars. Terf.prou.33 ao.6.*36-37 156. (KIRA 9 - 10) 1.FeleyvbWe terfoprodprlyatlye. (Peat-Tranowtation)  v BUBM, G.I., kand.okon.nauk; AVDAKOV, Tu.K., dotnent. kand.ekon.nauk; SARTCHN. T.G.. kand.ekon.nauk; PRZOBRAZHHNSKIT. A.A., kand. istor.nauk; ATMOT. Ti,.K.. dotsent. Jmnd.akon.nan ; POLTANSKITO Y.Te., prof.. doktor Istor.nauk; ZUTIS. Ta.Th. [Satis. J.11 GULANTAN. Kh.G.. prof., doktor skon.nauk; OULANW. Ih.G.. prof., doktor ekon.nauk; KONTAYST, A.I., dotsent, kand.ekon.nauk; KHROM9 P.A., prof., doktor ekon.nauk; SHALASHILIN, I.Te.# dotsentp kand.okon.nauk; SHOUAM. I.N.. dotsent. kand.ekon.nauk; POGIZ- BIMSKIT. A.P.. prof., doktor ekon.nauk; ORLOV. B.P.. dotsent. kand. ekon.nauk; TYUSIM. T.A., kand.ekou.nauk; BALASHOVA, A.T.. kand. j-.,--kand.ekon.nauk: KINDAROV. A.T.. dot ekon.nauk; XQg!Y,_V P sent, kand.ekon.na-uk; WIGALIN, G.I., prof.. doktor ekon.nauk; GOLUBWI- CHIT. I.S., prof., doktor ekon.nauk; TOSMSENSKATA, T., red.; BAKOYSTSKIT, 0., mladshiy red.; KOSKVINA, R., tekhn.red. Ef[istory of the national economy of the U.S.S.R.; lecture coxiras] Istorila narodnogo Ichozinistva SSSR; kurs lektaii. Moskvn, Izd-vo sotsiallno-okon.lit-", Iq6O. 662 u. (MIRA 13:5) 1. Deystvitellny7 chlen AN Latviyokoy SSR (for Zutis). (Riisaia-Economic conditions)  USATOVP I.A.$ kand. elion. nauk; GUBIN, B.V., kand. ekon. nauk; SFII'a.'OV, A.D.# dots.; LAPTEV, Ye.N.; MOZHIN, V.P.., kand.ekon.nauk; GWER(A', R.1%; KORYUIIOV,-e.-ff.-,-TSTMNTC.MYT,-P.P.; I-SamT, !I.Y.; FILATOV., N.L.; FILIPPOVA, E., red. izd-va; LEBEDEV, A., tekbn. red. [Economics and finance of socialist enterprises]Ekonomika i fA sotsialisticheskikh predpriiatii. Moskva, Gosfinizdat, =ansy 1962. 404 P. (MIRA 15:9) (Industrial management) (Finance)  NEDELIN, S.I.; GUMEROV, R.M.; KORYUNOV, S.N.; MDZHM V P . KOSYACHENKO, G.P., prof., red.; KONDRATIYEVA, A.,5;Z~izd- - LEBEDEV, A., tekkn. red. [Collective farm mdl6tary income sad dUterentiAl land ren'tj Donezhnye dokhody kolkhozov i differentsiallneia renta. Mo..; skya, Goafinizdat, 1963. 222 p. NAA 16:3) 1. Moscow. Nauchno-isaledovatellskiy finanaovyy instl*QL ,2, Otdeleniye finansov sellskogo khozyaystva Nauchno- Issledovatellskogo finansovogo institute (for Nedelin, Gumerov, Koryunov, Mozhin). (Collective farms-Finaws) (Rent(Economic theory))  KOZHINA. K. Several problem of wage organization in construction. Top. skon. w .8:149-152 Ag '60. (MM 13:7) (Moscow-Construction industry) (Wagoe) I P . I " kI  MOZHINA M Changes in the distribution of industrial vorkers according to the wage level in the U.S.S.R. Biul. vauch. inform.: trud i zar. Plata 4 no.10:18-25 161. (MIRA 14:10) (Wages)  MOZOTY, Ye. Issuing credit to finance the nechanization of graln procure~.ent stations. Den.1 kred. 17 n0-5:52-53 W '59. (mIRA 12:10) (Altai Territory--Grain-storage) (Credit)  S/102RMOO/006/002/004 (//0 33 1 3 D299/D305 AUTHORS: Krynets'kyy, I. I., Mozhova, E. A. and Zhalnina, D. F. (Kiyev) TITLE: Investigating nonlinear astatic self-adaptive systems PERIODICAL: Avtomatyka, no. 6, 1961, 15-25 TEXT: Stability and performance of nonlinear astatic self-adapt- ive systems are considered; two different approximate calculation methods are discussed. The accuracy of the approximate computations is estimated by means of exact mathematical methods and by the el- ectronic simulators "H-I(MN-7) and j4n7--5(IPT-5). The control pro- cess is described by the equation TVT + (T + V)X'* + ~ + CF(x) 0 (2) where T is the time constant of the lant, C the gain, V - the time constant of the controller , F(x the nonlinear characteris- Card 1/ 7  31925 3/102/61/000/006/002/004 Investigating nonlinear astatic ... D299/D305 tic of the servomotor, x - the input variable. By means of a deucri- bing function, the nonlinear function F is linearized: F(x) = h(A)x (3) where 1 4s 12 h(A) F(A sin lot)sin cdt deot = rA2VA7 (4) 0 hence the nonlinear Eq. (2) reduces to the linear equation with one variable coefficient TVx + (T + V)X" + x' + ch(A)x = 0 (5) Card 2/7  31925 3/102/61/000/006/002/004 Investigating nonlinear astatic D299/D305 By the first approximate method, the solution of the nonlinear equ- ation is sought in the same form as the solution of a second-order differential equation, provided the smallest root of the characte- ristic equation TVp3 + (T + V)P2 + P + Ch(A) = 0 (8) greatly differs from the other roots. Substituting p = u + io, one obtains x = TVu3_ 3TVu&32+ (T + V)U2 _ (T _f_ V)Q2 +u. + Ch(A) ~ 0 (9) and Y = 3TVA) - TVW3 + 2(T + V)uc,) + to = 0 (10) Prom Eq. (10) one findstJ 2 and substitutes it in Eq. (9), whose right-hand side becomes Card 3/7  31925 S/lOY61/000/006/002/004 Investigating nonlinear astatic D299 D305 8TVu3+ 8(T + V)u 2+ 2u + L +L ~Vj + + T + V = Ch(A) Ch(A)hcr h+1 Ch(A)h' TV 'k 'k (11) hcrh hcrH where H'k is a dimensionless parameter: H h1k cr (12) h'k being the tan4ens of the inclination of the linearized characte- ristic, hcr = 2SI?r&t- the maximum value of h, determined from the Card 4/7  31925 3/102/61/000/006/002/004 Investigating nonlinear astatic D299/D305 parameters of the nonlinear characteristic (without the higher har- monics). Eq. (12) is the basic working formula. The dependence of 0 performance on H* is determined by means of a generalized perfor- mance diagram (shown in a figure). In constructing the diagram, 3 cases are considered (different values for u and CO Thus in the first case: T t- V u = 0, W o h h = CTV _rTV one obtains H1k 2h 2 (13) A 2 = M + M Mf (14) 2 Mf 7 - F-4 Card 5/7  31925 31102,1 - 1/000 '006/002. '004 Investigating nonlinear astatic ... D2997DO305 where M ~ ;4: ~S ~)2 The obtained working formulas,in conjunction with the diagrams, permit determining the limits of stability and of the transient processes. A comparison of the working formulas with the curve based on the exact formulas shows that the working formulas can be used in practice, provided the system has filter property and the minimum root greatly differs from the other roots. If this is not the case, i.e. the roots are multiple or commensurate, they have to be taken into account. The construction of the transient pro- cesses, taking into account the 3 roots of the characteristic equa- tion, is shown in diagrams. A numerical example illustrates the use of the first method. On the Becond approximate method, the so- lution to Eq~(5) is taken in the form: x=xl+ x 2+ X3 = C11p1t + Card 6/7  31925 S/102/61/000/006/002/004 Investigating nonlinear astatic D299/D305 + C21P2t + C3lp3t. Stability and performance are studied on an equivalent system, by linearizing the nonlinear characteristic F. Thereupon, the usual criteria (Hurwitz's, etc.) for linear systems are used. A numerical example is given. The 2 approximate methods can be applied provided: a) the system has filter pro erty and the minimum root is incommensurable with the others, or b~ only one condition holds - that of the filter. An estimate of the accuracy of the methods, carried out by exact mathematical investigations as well as by experimental studies, proved their practical feasibili- ty. A third method, based on rough working formulas, involves deter- mining the stability limits by describing function analysis, and the limits of the monotonous transient processes by exact methods. There are 5 figures and 8 Soviet-bloc references. SUBMITTED: July 3, 1959 Card 7/7  mo-ZHUL- , V. G. Pamiatka motoristu elektropily po tekhnike bezopasnosti. Moskva, Goslesbumizdat, 1950. 11 D. illus. Memorand-m on accident prevention for electric saw operators. ELC: T3951 M74 SO: Manufacturing and Mechanical Engineering in the Soviet Union, Library of Congress, 1953.  W' -~-- - 3 :7E q 111OZITULI 3 7. -1.3 . -i Ito",) 1. ~'. Lumbering Aesuits oil using skildin~_ rr,,--ndn,-1ry -it, Luzh5viy iol-gin'r . -,A - .r .I. ~ -- no. 7, 19-,2. 2 9. Monthl List of Russian Accessions, Library of Congress, September - 195X, Uncl.  . .-. -~iULIV I I .: . I rjkhr~..na truda na lesozarntovk--kl-. i '-e3ospl--vtt~ frotqcUor. of '---bo:- -,r. lo;-gin~- ..nd lo;, floatinF-7. 2-e izl., Profizdat, 1.9537. 138 r). 0- !,orthly List of 'Russian t=assions, voi. 6 1 o. 1-1 Webr-u~ ry 1951,  MOZITULIP V.G - LARIN, VA., red.; GCRYUNOVAP L.K.v red. izd-vt!; -- A.P., tekhn. red. (Safety measures in operating electrical equipment in lumber- ing]Elektrobezopasnost' na lesozagotovkakh. na lesozagotkakh. Moskva, Goslesbrvjnizdat~ 1956. 64 P. (MIRA 15:9) 1. Russia (1923- U.S.S.R.)Ministeretvo lesnoy promyshlennosti. TSentrallnoye byuro tekhnicheskoy informatsii. (Lumbering-Electric equipment) (Lumbering-Safety measures)  I T !a2musvioN KTAGKOT, V.A.. redaktor; SARMATSKATA, G.I.. --w juagujwt ( redaktor lzdatel'atta; SHITS, T.P., tekhnicheakiy redaktor. [Safety engineering and fire prevention in lumberiogj Tekhnilm besepasno.- sti i prativoposharnaia tekhalks n& lesozagotovkakh. Kesicya, Geolesbun- izdat, 1956. 209 p. (KIRA 10:4) (Imabering-Safety methods) (fire preTention)  K,02- LTL. 7. 0 . Be-~-Ieczer.stw,) prar~y i (Wyri "b;r5zawq, Panstwowo ";yda4n. '~oanic7.e i T# (Labor -5afpfy and protectiqn 'ir- Jn lumberl-no. Ist ed.: Not in 'DIC- SO: Mont)-ily ',-*--t of "Pst Eur--).re!3n -~(-ces-;-.-ns (1-1-7,1/' ;,us;  MCZHULI, Vladimir Georgiyevich; FEDOROV, N.S.,, red.; PROTAIJSKAYA, I.V., - -------- N.Les tekhne red* [Safety measures nika bezopaanosti kakh. 1961, 261 (Forest fires) and fire extinction i protivopozharnaia p. (Lumberi4g-Safety meas4res) in lumbering camps] Tekh- tekbnika na lesozagotov- (MIRA 15.2)  Bfflflin' in& Borisovna; NIKITIN, L.I., red.; MYAKIJSHKO, V.P., red.t&-7a; SHIBKOVA, fLye., tekba, red, (Labor protection in lumbering camps and timber rafting]Okh- ran& truda na lesoiagotovkakh i lesosplave. 3. izd., perer. Moskva, Goslesbumizdat, 1962. 124 p. (KIRA 16:2) (Lumbering--Safety measures)  MZHZHERIII. V.14. Simple sighting dmvIca for the AT-I telescopes. Biul.eta.npt. nable.ink.sput.Zem. no.1:7-8 160. 04IPJ~ 13:5) 1. Krymakaya stantalya nablyudeniya inkuwAvennykh aputnikov Zemli. (Telescope, Reflecting)  MMISKIT, A.7.9 mlsdahly nauchnyy sotrudaik; BRAWCOK. N.V.; SAVRUKHIN, A.P.; LhTrMV. A.A.; CHUPRINA. R.I., aladahty nauch-Vy sotrudnik Remilts of photographic observations of artificial earth satellites. Biul.sta.opt.nabl.isk.sput.Zem. no.8:17-24 '59. (KIBA 13:6) 1. Astrosovet AN SSSR (for Nevellskiy). 2. Naebullnik stautsii optiches-kik'n nablmmeniy Uzhgorodskogo gosuniversitata (for Bratiyehuk). 3. Nachallnik stantaii fotomblyudeu:Ly iskusstrenwkh sputalkov Zemli pri Instantaii nablyudeuiya sputnDwv Irymskoy astrofizicheskoy observatorli (for Mozhzheria). 5. Nachal'aft fotografichookoy stantaii Tashkentskoy astronomicheskoy observatorii AN UzSSR (for Latypov). 6. Astrosovet AN SSSR (for Chuprina). (Artificial satellites-Tracking)    VC 11 loo.  steliai -. 'maj &.44~14 ,- ~ ~-- w~ "  RVARtWo 7777=777 -V~ 7 01~5 zT lie ImO TON' OCIA ' E T AOS . SUB COD Mo. NITT l Su VD (YM t w 4 NEW  -;66.~:_;_D1T4Wt 1JP -JYT(CW)LI L~ 227o2 AW NRI A ~_:,,,SOURCE COD9.1 UR10366 A6100,31005/0219/0223 2601 39- b r.j moshaker movi M fii a Aili ICA; tademy of Sciences S55R .. t6t LiUedavi~'A Ir 'k asulk soul). Cut; Aksdeutt 2-1 -StlanCOL'to a no-on by._60 Optical method siour as, t 0, lilt th SOURCES 1hurast iskspttl tit' I tioret skoy fisikL, Halus me , al no 19669L Priloshentya v. 3, no. 219-223 -TAOSs- no, on noon earth distances distance measurements noon TOPIC. location -optical loi- ti, tLeation -out lager app ABSTRACT J A description is given of the experimental measurement of to L the: ist&ac ,0 the noon by means of an optical locator, A schematic 9 f ocator-'L In Fig. 1. Rub and photomultiplier 2 ~,_~,Tare` fixid-.rigidl in-the Kude focus OfL telefCo 0a 3* A tunable inter- f font of-theLphot6aUltiplier and behind L I ireh~al f ilti,r q 4' L in isp rain'.. Kirive an-be-autonatically switched from receiving h d rations- ransmAtting:.- qLge iplier,output &uplifter and pulse :__AGd',"th4.-ueasureueut of the time:, Intervals between 06-(from the U on), of laSer Pulses to made by _t *Midi 141i;''.4014 fo Sllictt 0 1, 14,  L M02-66 ACC NRs AP6010439 Fig. If Schematic of the locator counter 1,:,.which to activated by that portion of the laser pulse directed -to.-. the pbotonaltiplIer. The laser oversted at 6943 1, 01th a pu, e've lad dart kil'on of 1 7 j and 5-10 see# respectively. The iv,ws ar: t Irr dtaqietir_""-~ th alescope, a or-was 2*6.a and its focal length 164,Jif~ 4 -."am~,_diametisr wail -13 ant :and the dtvoigence of the bass **flecte- I too 4 mirror was 23 sac -:Of s- arc.. The filter pas --an -instrument& neasur-GrAnt, of ti tiO77- Ibiw4bastvAit "the User our AGO.'-was. -'coaf lead to as &VIS& 0c' d'-At-_~9~Abe.' l ate "46tili th F enter ea..,-crate- I klho grapbic,:---~- Culdl- Z    A.CC NR, Ar6019595 SOURCE CODES uR/0293/66/004/003/0414/0426 AUTFOR: Mokurin, Yu. Hurbasov, V. V.; Lobanov, V. F.; Yozhzherin, V. M.; Sukhanovskiy, A. N.; Chemykh, N. S. OIRG: none TITLE: On the feasibility of measuring lunar disk and orbital parameters by optical radar J SOURCE: Fosmicheskiye issladovaniye, v. 4, no. 3, 1966, 414-426 TOPIC TAGS: lunar albedo, moon, lasor application ABSTRACT: Yu. L. - Kokurin and coworkers [I I have reviewed the theoretical problems in laser ranging of the moon, with the object of determining more accurate values for several Earth-Moon parameters. The authors discuss methods for 1) obtaining a more detectible reflection signal and 2) using the measured range to compute such parameters as mean lunar orbital radius, lunar disk radius, parallax constant. and Earth equatorial radius. The basic range equation for a reflected electromagnetic signai is taken -as a starting point. The factors are the same as in the radar range equation, uxcept that the return signal varies inversely as the square, rather than as the fourth power, of range, since it is assumed that all the generated laser flux is incident on the Moon. Using an average figure for atmospheric ab- sorption, a lunar albedo of 0. 1, and an effective t e I e s c o p e a r e a o f 5.3 m2 (actual area of a telescope currently in use), the authors calculate Lqard 1/5 UDC: 523.31.082.5 + 521.61.082.5  ACC NRz AP6019595 that the relationship between reflected and transmitted etiergy is Wr,,,fj - 2 x 10-1 " Wtr. It follows that with the highest sensitivity photodetectors now available, W U: must be at 'Least 150 joules in order to obtain from the Moon a con- sistently deLectible reflection, i. e. , one that does not require statistical analysis to be detected. The palse must be as short as possible to maxi- mize range resolution; 'riolvever, present laser pulses of the energy 'evel demanded would have durations of the order of milliseconds, which rneans a ranfe uncertainty of several hundred kilometers. If Q-switching is used to shorten pulse time, there is an intolerabic loss in power amplitude. The conclus-ion is that only when more powerful short-pulse lasers are developed can there be a significant in lunar ranging measurements. Factors which degrade Lne, ti , nw~;!w ai~c also discussed. On(? of th,ese is tne unavoidable divorg- 'ilk i), uln !;I Lli~: atinoSpherc estir---Led at 2" to 3", which would give a Lunar sijoL of sorn.- 3.5-5 i-CM across. Con- tour irref-ularities within U-,F3 aj :a can add to the range un- certainty in the return signal. ii Ll'ie ioi'~n of range smear. " Owin,, to tj-)e Moon's curvature, a similar effect occurs which increases as a funt.,ion of Card 2/5  ACC NR. AP6019595 the distance of the target area from the center of the lunar disk. An obvious wa to improve the technique would be to place some form of mirror an Y the AMoon; the authors propose an optical corner reflector for this purpose (see Fig. 1) and have analyzed ways of optimizing its design. With the density. of the reflector material assumed to be the limiting factor, it is shown that one large reflector is more effective than several small ones. For a glass corner reflector, the gain 8 in return signal over that from the lunar sur face alone (assuming a ruby laser) is calculated to be 0 - 2.15 x 1() -3 a'' I where a is the length of ajoint edge in cm . (see Fig. 1). Assuming a glass density of 2.7 g/cc, the authors find values of gain ranging from 8 = 25 for a = 10.4 cm up to 8 = 1330 for a 28.2 cm. Some loss in reflectivity 1. Corner reflector (Hexagon indicates effective reflective area) must be anticipated, such as by dust contamination, so the foregoing fig- ure.s are based on a reflection coefficient of only 0.5. C,,,d 3/5  ACC NR& AP6019595 A Orientation of the reflector would be critical. If the plane of the aper- ture is not nearly normal to the laser beam, a severe loss in return signal results; for example, a 15' offset would mean a signal loss of approximately 3076 (Initial acquisition of the reflector is not discussed). Constraints on reflector geometry are also quite severe, if diffraction losses are to be minimized. For a reflector with a = 14 cm, it is estimated that the angular tolerance between adjoining planes should be held within 0.1"; with such tight tolerances, temperature extremes and mechanical stresseu could be Card 4/5  ACC NR: AP6019595 critical factors in reflecitor performance. Under reasonahl roo:.i :7nndi - tions, however, it is calculated that a reflector with 6 = -40 wouid .eturn art adequate detectible signal to Earth from a Q-switched rub lascr of y 4 to 5 joules output. The possibility of confusing a genuine signal with noise or rather than reflector return can be minii-nized by using mulLi!-, 'A:ction and correlating the results. In fact, if three photomultipliers aro used simultaneously, the experiment could be performed in dayligiit, a low probability of error. The authors conclude by giving the procedures for calcui~' Mean lunar orbital radius (mean distance between Earth and Moon mass centers), radius of the lunar disk, Eartli equatorial - ~dius, and parallax I constant. All of these are obtainable froin Knowledge of an arbi,_ ary iinc- of-sight distance from the Earth to We :,vioon, ineasured as described above. T he calculations show that, wluii the -d ri~riging metnod, 1 -:-imete-Ei such as the Moon's orbital radius and Lli,;k radius could be deteciiiined to accuracies of several hundreds of incters, i great improvement over the present accuracy of several kjlonietc~rs. bitforturiately, these ~t_curacy figures d t Feew- to be-tied to any tolerance on the range measurement. NB~ V. L, no. V Orig. a_rt:, har- 33 formulap 2 flotres and table. Card 5/5 SUB CODEg 03,20 / SUBM DATr,., 26tlayO ORIG F1 009 OTH REFt 003  KUVAYEV, N.N., kand.tekhn.nauk; MDZHZHF.RIN, V.M., inzh. Conditions for the formation of funnels caused by the mining of ore deposits. Bezop.tftia v prom. 7 no.3s23-24 Mr 163. (KIRA 16:3) 1. Krivorozhekiy opornyy punkt Vaesoyuznogo nauchno-issledovatellskogo marksheyderskogo instituta. (Mining engineering)  Name& MOZHZHEVELOV, B. N. Title: engineer Works in the field of acoustics (loud speakers, microphones, public ad- dress system, etc.) Author wrote an article on American acoustic equip- ment. Many U. S. types of loudspeakers, dynamic speakers, microphones, etc* are mentioned with which the author seems to have a good familiarity. REFs R. F. #1, pg 39, col 2, 1937  MOZHZHEVELOV9 B.N. Perspektivy blizhaishikh let. fThe outlook for future years7. (Radio., Nov. 190, v.20, no. 11, p. 2P). DLC.- TK5hO-F76 8D : Soviet Transportation and COMPOMications. A Bibliography, Library of Congress, Reference Department, Washington, 1952, Un-cl-assified.  -xJ :0--Tos asoov r". i C) 1. ie. . M.  UM/Radio Radloficatim Radio Receivers may 49 "M Radio Industry.and Eadiofication of the Country,* S. H. Mozhzbevelov, Board Mem, Min of Industries Manufacturing Comunicatioh Vaterials, 2 pp, Madio" No 5 Number*of broadcast receivers produced In 1946 WMA 21 times greater than number produced in 1940. Very soonAlekeand ovakiy radio factory vill release tvo-band, tbres-tabe receiyars (ARZ-49) which will coat considerably lsse than UBM/Radio (Contd) May 49 0 --q W the "Rekord-47." In last balf of 1949, new receivers will be released by Novosibirsk, Sarapul, and Imeni Kozitakiy factortes. .-Imp 44/49T101  BORISOV, Vilctor Garrilovich; BIRG, A.I.; DZHIGIT. I.S.; TMIN. O.G., KULIKOTSKrT. A.A.; I*OZHZHNnWV. B.S.; SKIRHDV, A.D.; TARASOV. 7.I.; TRAM. B.F.; CINNIK, F.-U."11RINSHUR, V.I.; KALININ. R.K. redaktor; TON)NIN. X.P., t~khnlc;~skfy redaktor (Youvg radio amteurl IUzwl radiollubitall. Isd. 2-oe, ispr.1 dop. Moskva. Goo.energ.izd-yo 1955. 271 p.(Kassovala radio- bibliotaka. no.224) (MLHA 8:11) (Radio-Amateurs' sammle)  FV~ L.OV, Aleksey Dmitriyevich; MOZHZHEVEU)V, H.N. , retsenzent; VASILIYEV, K.F., red. [Radio equipment assembly; basic design principles] U-zly radioapparatury; obshchie onnovy eonstruirovardia. mo- sl-va, Izd-,.ro "Fnergiia," 19t4. 461) p. (M h-U, 17: ~ ;'  Andrev Yu-.'y ienzer.* rl~e -senzer. 3, ate :..:7 s ~Ip- r-~  h0756 s/l2o/62/OoO/Oo4/033/047 E192/E382 AUTHORS: Alckseyev, A.G., Gorelkin, A.S., Mozalevskiy, I.A., Mozin,_I..V.__, Tarasov, D.I. and Trokhachev, G.V. TITLE: The use of permalloy pick-ups for mass magnetic measurements on the proton synchrotron PERIODICAL: Pribory i tekhnika eksperimenta, no. 4, 1962, 179 - 184 TEXT: Measurement of the relative magnetic fields at injection fields of H = 90 Oe is effected by means of permalloy pick-ups with magnetizing coils (Giordano, S., Green, G.K. and RoZers, E.J. Rev. Scient. Instrum., 1953, 24, 848). The magnetizing coil is supplied with DC and'is connected in such a way that the direction of the magnetic field HK of the coil and that of the measured field are in opposition. When the magnetic field reaches the value "K , a signal coil of the pick-up produces a voltage pulse. The field H i at the point where the pick-up is.situated is evaluated from the for,;-lila: Card 1/4  S/120/62/000/004/033/047 The use of permalloy pick-ups ... E192/E382 14. = 11 + A 4Ti I io it ' where 1-1 io is the field due to *.he maGnetizing coil, It Iit is the rate of rise of the field at the point i, and L'~,T is the tijac interval between the pulses obtained from the reference and the measuring pick-ups. The quantity Ifi can also be expressed as Hi = IciEli + (/_Il/at)i j!2~ Ti I, where k is a constant which is determined from H = kI and I is the current. The equipment for the measurement of the field in a block (unit) consists of 19 pick-ups which were situated alonZ the arc of an equilibriw.1 orbit at distances of 100 mm from each other. A pick-up has the form shown in Fig. 2 and consists of2a permalloy strip 5 having transverse dimensions of 10 x 100 mm and correcting rods 2 made of the same material; the pick-up also contains a magne- tizing coil 3 and an induction winding 5 * For measuring the rate of ri3e of the magnetic field the magnetizing current of the Card 2/4  5/lao/62./000/004/033/C47 The use of permalloy pick-ups ... E192/E382 pick-ups is varied by t 100,~, which corresponds to A ti = 600 113. The actual measuring equipment was connected to the pick-ups by means of hi-h-frequency cables. The magnetizing coils of the pick-ups were connected in series and supplied with a current of 150 mA, stabilized to within + 0.02%. The current was meas- ured by :iicans of a potentiometer, the error of measuraaent being 0. 02%. Since the width of the pulse produced by the pick-ups vias inuch --reater than that required for achieving the desired accuracy of the measurements, the pulses were suitably shaped by ineans of shaping circuits. The equipment had to work in a hall, where the perturbing electromagnetic fields were comparatively strong, the spectral maxima occurring at 50 C-P.s. and 20 - 30 kc/s. The low-frequency interference was eliminated-by suitably choosing the intermediate stages of the forming circuits, whilst the high-frequency noise was suppressed by means of an RC filter. The equipment could measure time with an error of 4 ps and the current with an error of 0.020,")', so that the maximum measurement error did not exceed 0.10%. There are 4 figures. Card 3/4  S/i2o/62/000/004/033/047 The use of permalloy pick-ups ... E192/E382 ASSOCIATION: Nauchno-issledovatel'skiy institut elektro- fizicheskiy apparatury GKAE (Scientific Research Institute of Electrophysical Equipment, GKAE) SUBMITTED: April 10, 1962 FiZ. 2: Card 4/4  lob -,.-AUTHORS: o: -np -1c 2 r-::: 9o   j3C ti    L" ` L", 3 S/120/62/000/004/044/047 E192/E382 AUTHORS: Alekseyev, A.G., Vasil'yev, M.P. and M.ozin, I.V. TITLE: An instrument for measuring the rate of change of the magnetic field of the proton synchrotron PLRIOUICAL: Pribory i teklinika eksperimenta, no. 4, 1962. 236 - 239 TEXT; The instrument waA designed for the 7 GeV proton synchrotron and it permits measurement of the reproducibility of the fiold-change rate and its absolute magnitude with an accuracy of 0.1%. The device is based on the potentiometric measurement of the e.m.f: E = - kdB/dt induced in the measuring coil. The measuring coils con"I~ts of a number of series-connected turns situated in the yokes of the electromagnets. The voltage U K from the coil is applied to the input device 1 (see Fig. 1, which shows a bloc'k diagram of the instrument), where the signal is compared with the voltage of a reference element 2 The comparison is performed Card 1/3  S/120/62/000/004/044/047 An instrument for .... E192/E382 tile whole time interval occupied by the induced pulse, the duration of the pulse being proportional to the rate of rise of the magnetic field. The switching device 4 selects tile duration and instant of the measuroment and transmits tile diff- erence signal through the amplifier 3 to the recorder 5 The switching device is actuated by tile cycle initiation pulse U'l . V The input circuit of the system consists of a filter, a reference- voltage source and a voltage divider. The switching devic- 4 receives the initiation pulse froin a nermalloy )ick-up situate,. in the electromagnet. The pulse is amplified, then applied to a phantastron delay circuit. The trailing edge of the phant,~is- tron pulse determines the instant of commencing the measurement. The delay can be varied from 10 jus to 1.5 sec. The indicating device of the instrument is in the form of a simple vacuum-tube voltmeter. There are 4 figures. ASSOCIATION: Nauchno-issledovatel'skiy institut elektro- fizicheskoy apparatury GKAE (Scientific Research Institute of Electrophysical Equipment GKAE) SUBMITTED: April 10, 1962 Card 2/3  S/120/62/000/004/044/047 An instpinient for .... E192/E382 Fig. 1: ~i Card 3/3  .MDZIN.-L3L.-- Voltage fluctuation coLt:--'- at zhx- outlet of a cascade geaeerator. ?rib, i tekh. eksp. 8 no.2:164 I/w-Ap ~63. (MI.~A I,- i4) (Electric generators)    '-hil? Individual is tne f attontl-r.. :,ov.profi3At.,,--:, -) rio.7:55-~7 J I If)-P,) rwisedatel' komit,~ta jr,,'soyL=a ya Iavokogo koribinata tekhnich"k1kh (Tarcs'la,vi-Te tile (Trac*.e ~nii ne)  C(Tjkjrl,~' "Izechonlovekli.9 CATFLORY Fore. n. j,:,) c, K JABS. JOUR. MhDiol. No. 4 .1959, WTHCIR 1'ozln~i, INST. TITUE OPJG. PUB. ZI b o r . 1957P TJO-14 p 3-39 ALIISMACT t r n i~ n -n Ink, 1" r L V Card:  MLZ13, V. Calculation of horizontal reinforcement for reinforced-concrete eler-ert--- loaded u-ith eccentric stress and for irestressed-concrete elements. c.47'5. INZIP-NMISEE STAVEY. kraha, Cze choslovakia. Vol. 3, no. 11, Nov. 19 5. -Monthly list East European Accessions (LEAI) Lr. Vol. -, no. 2, Fel. 1?;' ) Uncl.  "-Czis, V. aes-ig,i of three - 'to matives for a Ir Jr. ~ r-irige r) I [ restrep~.-! -I cconcret;~. P. 509 (Inzen~ rske Stavly) Vol. 5, no. 10, ('Ct. 1)7, Fraha, Czechoslovakia r- SC: :'C,'-.:HLI i!:DEA CIF LAST v,-'TjRCF.,,A" ACC-,-S-,I"'.S -TC, 7-L. -1, 7. 1, JA"'. 11,r(-  MOZIS, Vilem, :mz., dr. nTables for designing reinforced concrete sections subject to bending stressw'by [inz.) Frantisek Man. Reviewed by Vilem Mozis. Inz stavbr 11 no.2:80* F 163.  MOZIS, Vilem.,jua., dr. I- Deaigaing of complicated reinforced concrete sections. Inz stavby .11 no.4.-129-132 Ap 163.  13 , V I -,..rr.. i nz, -r. ez-,-stressui fraw coz-,st"ctlons with inclined stamhicrL9. 'nz 3tavr~.,, l-) no.5t220-224 AlY  Moz-l-~f~-