MANUKOVSKIY., N.F.; POLONETSKIY, S.D.; OREKHOV, N.I.; SYCHEV, A.F.; BC)LDYRE.,V-,--M.D.; SEMENOV, V.M., nauchnyy red.; KRYUCHKOV, -V-.L., rod.; CHIRKOV, A.Ya., red.; PERSON, M.N., tekhn. red. [over-all mechanization of corn growing and harvesting]Kom- pleksnaia mekhanizatsiia vozdelyvaniia i uborki kukuruzy. Moskva., Proftekhizdat, 1962. 118 p. (MIRA 16:2) (corn (maize)) (Farm mechanization)  PITROV, V.P.; BOLDYREV, M.D., agronom, Advanced experience in over-all mechanization in corn cultivation in Voronezh Province. Zemledelie 7 no.2:37-45 F, '59. (MIPA 12:3) l.Starshiy inzhener Voronezhakogo oblastnogo upravlaniya sel'skoge khozyaystva (for Petrov). (Voronezh Province-Corn (Maize)) (Farm mechanization)  SKACHKOV,. I.A.; YELAGIN, I.N.; Yu.M.; BOLDYREV, M.D~: red. KOCHERGIN, F.V.; FOLESHCHUK, MOKSHIN, P.N.; GOMMKI L.I.p rl~illet production on leading farms] Proizvodstvo prosa v peredovykh khozialstvakh, Mosl,,-va,, Kolos, 1965. 134 P. (MIRA 18:7) 1. Direktor Nauchno-issledovatellskogo instituta sel'skogo khozzyaystva tsentrallno-chernozemnoy polosy in. V.V.Doku- chayeva (for Skachkov). 2. Glavnyy spetsialist po zerno- bobovym i krupyanym kullturam. Ministerstva sellskogo khozyaystva SSSR (for Yelagin). 3. Nauchno-issledovatell- skiy institut sel'skogo khozyaystva tsentrallno- chernozemnov. polosy im. V.V.Dokuchayeva (for Kochergin, Poleshchik, Boldyrev, Mokshin).  BOLDYRKV., M.I., aspirant Apparatus for recording the gall midge. Zashch.rast.ot vred.i bol. 7 no.6--46 JTe t62. (KrRA 15:12) 1. Moskovska-ya ordena Lenina seliskokhoz7ayst7ennaya akademiya im. K.A. Timiryazeva. (GEL11 gnats)  BOLDYREV, M.I., aspirant Improved metho for taking samples for soil analysis. Zashch. rest. ot vred. i bol. 8 no.lsC-48 Ja 163. (MIRA 16-5) 1, Moskovekaya ordena Lenina sellskokhozyaystvennaya akademiya im. Timiryazeva. (Soils-Analysis) 11  BOLDMEV2 M.I., aspirant; OCHMETENKO, Te.Ye., dotsent; BATYSHCHIKOV, H.K. ---Tomasiniana ribis. Zashch. rast. ot vred. i bol. 8 ho.5s22-24 W 163. (MIRA 16:9) 1. Wedra entonologii Moskovskoy ordena Lenina sellskokhozyavstvennoy akademii In. Timiryaseva (for Boldvrev). 2. Kamenets-Podollskiy sellskokhozyaystvezinyy institut (for Ooheratenko). 3. Glavnyy agronom mezhoblastnogo tresta sovkhozov, g. Khmeltnitakiy (for Batyshchikov). (Gall gnats) (Currants-Diseases and pests)  1. I ~ I I- . I - ; - - ' - ~ . .. ., 4 -w - 0 6 W1, Tfi a I . I I M SO LL UP it I a It4 4 I 1 Is P 9 A 3 1 U Y AL A a L , - k COMASAtf,041111111011191PAYMOMIlk OFO tithe jUtit".1jak plent. M.Ni'lissidytry. , .~1(111110' It 11"Wo"i1sw1tv" 1.1 tile U.N.S.14 -silly 014 (1947) %it river of WeLt"'Will, -, .11 14, to Isillic or. It, I,4v lite vAur, Ibi. I 00 the cul"Ikulcilti and r(plipittelit WA, twiall instal6l Isar 14'. 1`11". tst tile WIS. IIAMCWt, tile VAIsACitiVil 01 tile Vpat",, 1h,111% fill lite A-mit. it( lite W"-t,ll vulat"ItIvall are nut (%I. "fit flattest. -I 4111it tile WIC 4-1 filterilic-liate 11(vulud% kcvp~ 1.0.1hid. It 1, m."1111fill II'led 111.11 fit, capaivitiv, im, WallAw. tit tile 'I't. list Its- rituix"'I 1., 4, V 41 coltilluxtdir tile 11'allimill .4 rul"'Ist ""I ' l" ili t iA h Al f ng-up ti mater . vent t ,,,. e p As. itellidex 11toul I e4tialbliAted for lite esitil. tit ruarr Metal, (pAttirulatly lWalld I,r-km, f-ind in tit, me. 11'.01 1100 0 00 At (LASION74110. as, An I A tu o n N fl w it 1v .1, a Il 91 a K Is to It :~g . a 1. iia, : 0 0 0~6 0 0 o 0 o o 0 a 0 a 0 0 0 o 0 0 0 0 * 0 0 a 0 0 0 0 0 0 0 000,000000000000000 00100000000600000000  KUPRIYANOV, A.S., inzh.; AB11MV, L.Kh., inzh.; BOLDYREV, M,V., inzh. Patents. Khim. mashinostr. no. 6:43-44 N-D 162. (WRA'ils9)  BOLDYREV, M.V.., inzh. Application of geophysical methods for studying the condition of the roadbed. Trudy NIIZHT no-31:245-253 162. (1-aRA 16~9)  ABRAMOV9 L.Kh,, inzh; POLDYREV M.V,, inzh, j_ Patents. Xhim. manhinostr. no.lt46 J063 (MIRA 1727)  BOLDYREV V- Standardization of plastic containers. Standartizatsiia 26 no.8:34-36 Ag 162. (MIRA 15:8) (Containers--Standards) (Plastics)  ABRA1,11OV, L.Kh., inzh.;..KUPRIYANOV, A.S., inzh.:; BOMYREV, M.V.. inzh, Patents. Khim.mash. n0-4:45-46 JI-Ag 162. OMA 15:7) (Chemical engineering-Equipment and supplies) (Patents)  KUPRIYANOV, A.S.J. inzh.; BOLDYREV, M.V.,-inzh.; ABRAMOV, L.Kh., inzh. Patents. Khim.mash., no.2:44-46 Mr 162. (KRA 15:3) (Chemical apparatus--Patents)  BOLDIREV) II.V inzh. (Novosibirsk) Electric prospecting in railroad engineering. Putl i put.khoz. 7 no.8: 15-16 163. WIRA 16:9) (Railroad engineering) (Electric prospecting)  BOLDMV, N- (Chelyabinsk) Deserved award. Put' i putekhozo nooll:32-33 N '59. (MIRA 13:4) (KiLrgan Province--Railroade--Kaintenance and repair)  ACC NR, AP6018232 SOURCE CODE: UP,/Ol~16/6L')/OC,0/002/00'0~7/0070 AUTMOR: Boldyrev,.N. (Lieutenant Colonel) ORG: None TIME; Ice crossings '7-70 SOURCE: Tyl i snabzheniye sovetskikh voorushennykh sil, no. 2, 19060',0 TOPIC -GS; ice, transportation system, low temperature transport, tracked vehicle"~ arctiic'~vehicle, arctic climate, climatology ABSTRACT: Extensive experience in constructing ice cross:'.ngs in troOD garrison areas where communications and supply :would be impossible without them is the basis i for selecting an ice crossing site where the bank slope is no more than 10%. Knowledge o" the hydrograph-y and ice formation characteristics of rivers and lakes makes crossing site selection easier. ice crossings may involve using the natural. Ice surface, reinforcing the crossing zone by additional watering and natural .'-eez4ng of successive layers, or the laying of corduroy surfaces over the ice to permit passage of heavier loads. Reconnaissance of prospective ice crossing sites by special parties, and the techniques and equipment employed, are described. Load limit capacity calculations are suggested and three basic ice crossing variations are discussed using sketches which show dimensions, thickness, and other critical Card 112  ACC NR-. AP'dl8f~ .. easurement Construction techniques are described in detail and data on minimum 1. ice thickness in centimeters for tracked and wheeled vehicles of various weights &or average temperatures of -10*C, -.51 C and 0* C are listed. Ways in -which ice deterioration during thaws can be detected are stressed. Orig. art. has; 3 figures and 1 table. SUB CODE- 15,04/SUBM DATE: None LC,~rd  -LYuujx-rm-v, n. 13.-; YIIVIUINP ZAHrEF-EVAI-O.- D. Distances - Measurement; Visibility Calculation of visibility distance. Dokl. AN SSSR 84 no. 3, 1952. red. 9 Jan. 1952 Monthly Imst of Russian Accessions, Library of Congress, September 1952. UNCLASSIFIED.  BOLDYREV, N.G. "Upon the Time of Distinguising," Iz. AK. Nauk SSSR, Ser. Geograf. i Geofiz., nos. 1-6, 1-942  13OLDYBEV, N.G., Professor B Scientist; At All-Union Conference on Hadro-optics, Read paper on "Elptical Observations in Great Depths" (1Q,47) held at USSR Academy of Sciences, Leningrad Soviet Source: N: Leningradskaya Pravda, no.17, 21 Jan. 47, Leningrad  BOIA)YREV, N. G. "Ye. A. Svirskiy." Elektrichestvo, No. 1, 1950  1301,DYREV, IT. G. TT. 282 (Visibility range of actual objects) Dallnost' vidimosti reallnyl-h ob"ektov. Trudy Glavnoi Geofizicheskoi Observatorii, 19 (N.S.): 14-24, 1950  USSR/Engineering -,Lighting, Measuring Dec 51 Inst~~uments "Precision of Visibility Meters," N. G. Boldyrev "Iz Ak Nauk SSSR, Otdel Tekh Nauk" No 12, pp 1786-1791 Briefly reviews instruments for measuring visi- bility, based on extinguishing of visible image, and discusses precision of measuring. Visibility measuring instruments permit measuring relative, not abs,contrast of object and background against which object is observed. Relative contrast is de- fined ai ratio b4tueen abs contrast and threshold of contrast seniitivity. Submitted by Acad V. S. -Kulebakin.--- 205T24  USSR/PhYsics - Visibility Range 21 May 52 "Computing the Range of Visibility," N. I. Pinegin, N. G. Boldyrev, 0. D. Barteneva "Dok Ak Nauk SSSR" Vol LMI'V, No 3, pp 483-486 States that the law governing the variation of sharp-. ness of differentiation in dependence on contrast of observed objects with the surrounding background is the basis for computing the range of visibility. For the case of light adaptation of the eye, this law was lot proposed by A. A. Smirnov ("Sbornik Zritellnyye Osh- chushcheniya i Vospr*iyatiya" (Symposium: Visual Sensa- tions and Perceptions), 1935) as a result of detg the 225T84 the thresholds of discrimination of brightness ver- sus size. of object.. Proposes a simple practical formula (Boldyrev's) for visibility range. Submit*- ted by Acad K. N. BYkov 25 'Mar 52. 225T84  BOIDYREV, N. G. "Experimental Proof of the Energetic Theory of Visionn. Probl. Fiziol. Optiki., No. 8, PP 302-306p 1953. The author presents a mathematical analysis of wcpariments performed by other investigators., and shows that sensations identical in intensity must correspond to equal light beams striking the eye. The probability of differention depends only on the value of a,, determined from the formula (K -E)t~)=a, where K is the brightness contrast between object and background a is the solid angle at which the object is seen, and E-ia the threshold of contrast sensitivity which corresponds to the smallest Wceived contrast of and object of very large angular dimensions. The value of a does not depend on the the values of'iCand W separately. (RZhBiol,, No. 10s 1955) SO: Sum No 884, 9 Apr 1956  BOLDYREV, N.G. and MITENEVA, O.D. "Determination of ARetho Meteorological Visibility Threshold by using Contrasts of Distant Objects" Tr. G1. Geofize Observ.p No 42., 1953.. 32-51 New method of determining the visibility threshold of an object are suggested by making use of contrasts o f the diatant object* Equipment devised by V. A. Gavrilov, (RZhFizp 1955, 23463) is applied to_ipeasure;Lents. (RZHFiz, No 10, 1955)  L BARTENEVA, O.D.; BOLDYRU, N.G.; BUTYIZV, A.A. AI-M~~--, DetermintgrTge atmospheric transparenc7 and the illuminating power of distant fires by means of astronomical photometers. Trudy GGO no.42:59--68 '53. (MIRA 11:1) (Atmospheric transparency) (Photometry)  -Y. "Tha -~uuiitiu-. Natiure of' Daytime N. I. I in---r-,in 7 DA~: '101 93, 11-10 1, m-, 31-34 Poses the su:7gested by S. I. Vavilo-.'s classical visusil~-Aho~! inv-asti---tions into light-quantiu-. flue' ma-tions, of wh-ath-,r nuanttm. fluctuations plays ~--.n-, role in the process of daytime -vision an! wheth,'-r, then, it is - ossilble 'o easur--- tuhq,~ for hif7h levels of brirhtness. Cites related works of S. 0. 1-.ayzell (6bornik Lat~~r V-6 Nauchno-Takh Sassii po Svetoteklinike oil 1111-Ullion Ocl-Tach Se.-Sion oil Lighting Enaineering), 1--oscow, 1948) and of 1". G._..~Olj -rc!v V. Lui,-.ov (Tru,*,y __y Sessii Posvynshch P--my-ti '%Iavilo,,a (I'lorks of Session in 1-~ei:-ory of IbSCOWY -1953)'. Fr sented '-Y Acad A. N. Teranin 16 Jan 53. 275T")~7  USSR / Human and Animal Physiology. Sensory Organs. T Abs Jour: Ref Zhur-Biol,,, No 9, 1956v 41761. Author lnst : All-Union Scientific Research Institute for the Protection of Labor. Title : The Interconnection Between the Optic FunctLons of the Eye. Orig Pub: Tr. nauchn. sessil vseso n-I In-ta okhrany truda., 19549 (1955) vyp, Z, 84-90. Abstract: On the basis of data obtained from theoretical calculations, the author finds that It Is possible to extend the application of the laws of Bavllov to the following cases: 1) determination of the Card 1/2  USSR / Human and Animal Physiology. Sensory Organs. T Abs Jour: Ref Zhur-Biol., No 9.9 1958, 41761. Abstract: probable orlgin of optic 3ensation; 2) determina- tion of the various thresholds of the optic sensa- tion, partly at high levels of brightness. Quantum consideration may also be extended to cases of stimulation of N light sensitive elements (and not only of one, as stipulated In Havilov's theory). -- A. P. Bruzhes. Card Z/Z 148  BOLDYRBV.N.G., doktor tekhnicheskikh nauk, professor Glare from lighting devices. Svetotekhnika I no-3:6-7 Je'55. (NLRA 8:10) 1. Leningradskiy elektrotekhnicheskiy institut (Optics, Physiological)  BOLDYREV, N.G.; BARTZMA, O.D. Precision in measuringbrightness contrasts [with summary in ftlishl. Bioflzlka 2 no.6:713-719 157. (MIRA 10:12) 1. loningradekiy elektrotekhnichaskly institut im. r1. Ullyauova (Ienima). (Photometry)  BOIDYREV, N.G., GUREVICH, M.M., TIKHODEYEV, P.M., FMOROV, N.T. on N.D. Niuberg's article OColorimetric experiments as a menns of studying color sense and the requirements they should meet.* Biofizika 3 no.3:381-383 158 (MM 11:6) (COWRIMSTRY) (COWR SHNSE)  ALITH OR i Oikis, A. F. , Can41dsto of Technical ScIances,Docatt ?IVA$ Inter-UnIveraity 8cleatific Conforenes on Electric measuring Instruments and Technical Means of Auto3atlon (Hashvusovskaya nauchnoya konferentalya po alaktroitseritalln" priboras I tokhnichookin aredatvan avtomatiki) PIRIODICAL,igIzvestila V7nohikh Uchebnarkh Zavedonly.Elaktroaakhanika. 58, Wr 9, PP 150-135 (USSR) ANTIAM The conference was held at the ImalWadekly elaktrotokhnicbesklY institut Izent V. 1. U11yanova (laninal (Leningrad Eloctro-technical institute issai V. I. Ul'yazov (1,enin))on flovember 11-15, 1958. The representatives of eleven bigbar reaching establishments and throe research institutes participated and a large number of speciallato of various Industrial undertakings were present. SOV/1"_58-9-18/18 Xnter-UnIverolty Scientific Conference On Electric Measuring lastr~nts and Technical Means of Autoxatlan Bleatro-Ttehnical Pro" Ln Die p par 0 discrete a,, InSIN."Os a tonatic fiyetess with back coupling, has a own that the final automatic device can always be synthe Load frog elements Tossooming OR17 two states, 0 1, which are linked ato a finite number of elementary circuits. Docent A. M. Molik-Sh an T (AserbaydahLA industrial Institute Imeal. M. Asiabakov) in big paper *Problems of autmostion of a.c, compensation mechmmlsao" gave a systematic review of the problem and quated. practical example@ of auto-compensation squip"At Used In various branobot at anginsering.  VOV 3(7) 0 /50-58-10-14/20 AuTHORS: Baldyrev, N. G., Barteneva, 0. D. TITLE- The Method of Mea-curing tha Meteor-_.'Iogial~"_ to Cmtxmh3 of Distant Objects (Metodika iizmereniya meteorologiclieskoy dallnosti vidi-mosti -o kontrastanil udalennykh ob"yektov) PERIODICAL: 14eteorologiya i gidrologio,ra, 1911-8, Nr '40, PP 50-53 (USSR) ABSTRACT: The theory of visibility (Ref 1) of real objects checked by the net of weather stations (Ref 3) is presented in methodical in- structions (Ref 7). Iffith the aid of these instructions, the meteorological view can be determined. Further it nan be found not onlf that, but also how distinct, individual rt-al objects will be visible under given conditions. In determining the meteorological view, the intensity of mist in the air must be estimated on real objects. This g-roatly incre,--ises the accuracy of observations (ief 8). Formulas (Refs 1-3) serve for deter-nin- ing the meteorological view: ln 1 S = F, 1 (1), Y10 being InK -lnK 0 Card 1/4 the true contrast between. object Lind sky background on the  So// 5o- 58- 10- 1 4,12r) ThelAet.bL,d cof Measuring the Mete-~=-1~~gi:~al v1eib-D-11ty klan~ge A-:-::-,rcUng t~:P Contrasts of Distant f~IJects horizon, K - the contrast as modified by the mist, 1 - the distance between the observer and the object. and F, - the limiting value of contrast sensitivity of the eye (fixed ,~~-ith 51~o). The possibility for a Dractical determination of the meteorological view according to (1) depenis entJrel-- on the supply of reliable table indications fcr K The error of this latter method was indicated with � I`f (Ref 5). The aceurnc.~ of .j/0 - determination of the contrast K of the h5zy object also depends on this. The more K approaches K 0', the greater becomes the er- ror in determining S. The determination results of S are not- equivalent. Some observations shoiild be ~-iven a which characterizes their accuracy. Thii~ weight lnK InK p 1n Then the mean value of the meteoroloCic.~~l view S is. calculated from several observations accordinr- to a simple and practical Card 2/4 formula S = F-1 (3), the numerator rep~ecentinl- 'he sum of Ep  ~he Method of Measuring the Meteorological -Visi-.)1l:Tty Range According to Contrasts of Distant Objects SO-7/5 0-:518 - 11 00- 14/20 distances to all objects for which the meteorological view was .determined, whereas the deno;ainator denotes the sum of all p-values. An extensive checking of the above method at the field base of the GGO (Glavnaya geofizicheskaya observatoriya = Main Geophysical Observatory) in Voyeykov in 1949 showed that a measurement of the meteorological view without the.use of optical instruments is possible with an accuracy of --I- 20;-to for the magnitude to be measured, Those results "led to the publica- tion of an instruction (Ref 4). The errors adhering to this method were determined. The sources of error including those of the 8 stations of the UGMS (Upravleniye gidrometeoreologicheskoy sluzhby = Hydrometeorological Service Administration) of the Ukrainskaya SSR, appeared, because at that time the table of standard contrasts by I. N. Nechayev had not yet been published. In the evaluation of observation results, the determination accuraoy according to the above new methods was investigated. To evaluate new methods, reliable indications on the meteoro- logical view were necessary. They were obtained according to Card 3/4 the method of "forks" (Ref 7)t 11 < S < 1 2 (4), 11 being the  SOV/50- 58-10-14;"20 The Method of Measuring the 114eteorcEcgicai Visibi1ity Poap According to Contrasts of Distant iftjects distance to the most distant visible object, and 1. the dis- tance to the nearest invi3ible object. Table 1 shows that the number of observations not to be acco!.-modated in the "fork" (4) is not great. This certifies the value of the method sug- gested. Table 2 shows that the mean 3quare error of S , at a weight p = 1, is independent of a division of observations into groups according to the intensity of mist. This confirms the correctness of formula (2). As the mean arithmetic value cf the error 4 (it characterizes the systematic error) was near zero. it was proved that the statistic control of observations of the station network could not detect any systenntic error in the new method. Also the choice of the numerical value of the lim- iting value of contrast sensitivity & - O~05 (Ref 3) proved to be correct. Finally, the authors carry on a controversy ~gaint;t. A. V. Gavrilov (Refs 5,9) who incorrectly presents a number of principal que5tions and recommends the return to the di- aphanoscopic method. The authors, however, advocate the table by Card 4114 Nechayev. There are 2 tables and 10 Soviet references.  3(7~; 224(3~ PHASE I BOOK EXPLOITATION Leningrad. Glavnaya goofizicheakaya observatoriya SOV,/4548 Issledovaniye radiatsionnvkh protessov (Study of Radiation Processes) Lenin- grad, Gidrometeoizdat, 1959. 142 p, (Series: Its Trudy, vyp. 80) Errata slip inserted. 1,200 copies printed. Sponsoring Agency: Glavnoye upravleniye gidrometeorologicheskoy sluzhby pri Sovete Ministrov SS3R. Ed. (Title page): V. L, Gayevskiy, Candidate of Geographical Sciences; Ed. (Inside book): V. D. Pisarevskaya; Tech. Ed.: A. N. Sergeyev. PURPOSE: This book is intended for geophysicists and engineers studying radiation phenomena. COVERAGE: This collection of articles treats problems in optics of the atmosphere and actinometry. Results of theoretical and experimental investigations of visibility range, transparency of the atmospher-, and the radiation regime of both the active surface and the atmosphere 3 Card 113  Study of Radiation Processes "VV f ~ ~7x+- are shown. Individual articles deal with therathodology of actinometric observations, No personalities are mentioned. References accompany each article. TA13LE OF CONTENTS: Bol4yrev, N--G-., and 0. D. Barteneva. Visual Methods for Determining the Meteorological Range of Visibility and Testing These Methods on the Hydrometeorological Station Netvork 3 Makhotkin, L. G. Results of Studying Variations in Direct Solar Radiation 11 Makhotkin, L. G. Regularities in Scattered Radiation Changes Under a Cloudless Sky 17 Makhatkin, L. G. Computing the Possible Diurnal Totals of Direct Radiation 23 Grishchenko., D. L. Relationship Between Albedo of the Sea and the Solar Altitude and Agitation of the Sea Surface 32 Barteneva, 0. D., and A. A. Butylev. Visibility of Color Lights Under Field Conditions 39 Card 2/3  Study of Radiation Processes 7) Ter - Markaryants, N. Yo. Computing the Albedo of Water Surfaces 45 Barashkova, Ye, P. Certain Replarltiev In the Regime of Total Radiation 51 Barashkova, Ye. P. Scattered Radiation In Karadag 70 Barashkova, Ye. P. Computing the Daily Sm of Total Radiation Accord- ing to Standard Obeeryatione 88 Barcahkova, Ye. P. Turbidity of the Atnesohere in Karadag 97 Golikov, V. I. The Probleu of Measiving Infrared Radiation With an Instrument Protected by a Polyethylene Windshield 112 Gulyayev, B. 1. Spectral Error of Imtr=ents Measuring Plant Radiation 126 Gulyayevi,B. I. Cftputift,,,the Cosine. Characteristic of Instruments Cbnstructed With a Convex Transparent Glass 135 AVAILABLE: Library of Congress Card 313 MM/lsb 11-3-59  8(2). 9(6) AUTUOR. Anisi.al, V. I.. Xngivwe~ 507/119-59-3-1 3/15 TlTLS. Th. later-unlveraity Sclectific Can' renco tric.1 19 ... r a. Z1% 1-4 1-trva..t. and .. the Technical f . , Auto .ion .-Chnay. ( X.cf.rontmiya po .1ektroix-rit.1-my. prib.r- I to khati.h..ki. mrsdaty- a, to..tiki) PXXIODICAL, Priborostroy.aiye. 1959, Nr 3, pp 50-31 (US32) ABSTRACT. This Conference was hold at the Lsmicgradakiy el*ktrotalchnichash i'all!" 1.. 1. 1. Ully-ov. (L.=I-) (L..iWaA T of I ctrical vVy"a, (Lai.) ) 1. : Sa'..b b :r d h- 100 representatives d of uml or iti ifl. Itut.s. of the OKB. Yh I.!, Ihe SIB (Sy.ci.1 D.mig. Office), of Industries -4 other .rj-i..tLan.. More than 30 lectures were delivered in Ibe ft..tiag. . fth is Confer ... *. 1. opening the 1 1,B.radJtmkly underlined the out.t~dingLtportanotaf~toa*tIon, ;; 4 of .$&Suring technique for the devel.;--.t of national occon.y. it- X- Sh"Llovskiy In his lecture reported on -The Trends In t he Dslo opssal of 11.tb 4. . f Radlo otil. C~d 1/5 Control of ProductLa I.. a, t" ! : . th . d at ive : possibilities of using radio& atI's -thods 1. outrl. T.. C. Shr-ko, and 3. A. Sp.ktar reported am l * t"*d . of ...uring; heavy direct currents with the holy :f th . wool.az ..gas tl.r.--. U. A. 2"..bl.t I-w8tig.t.d problem 8 1f the wag. -I. -Pliftor. In 1 f "%-at,.. -4 1 ..h=1t:;. A. Y. Yateyev "Part ad on the present-day state ma the prospects of .at coatiacontrol technique. To. Z. Tsypkin investigated a. . V .. liar jr..tr f _d the yrzapects offered by * m :: au -at, a pul .. Sy.t . T he J..t are by 1. C. Doldyrwv disc-rore-tarmum- &..It :Lth problem. of stability af " Ushakay dlecuso*d 1h &&in trend . * . i the f mathematical analog computers :z f r Ind ustri P.t.r* d:sISn*d l U ". The re y rt bY a . . ; : T. S. 17.1by hki . ith -10.ra .1a-1 jr artalator a a for the calculation of cortelatica functions in the a- l r O' Card 2/5 ch -t:: iu both " active and p ... I,. freedom fr- di.tu,banc.. I. --- j..j. Sal...11to., di ......d di ,r l 1-1 ~ !I,- ! -d b - , : :v ,: d jj.ti... :. : :; pr -9 S. iff.Fm l! . - ..- d by a t do. t f L-d.p.. t function. hich a" b " r: y 'a !sted now conputi.9 !r -4 Y- , , as Ith I I a lay *-, -a, . . ;,a Dumbia reyortod an L-..t f r auto. ntm with automatic rwccrdiac ~- V.hak- and inat-a T.~ ,, ;. 9. 1, K a, _C r ... led m.p. r or tbi'i,to 4tIO :, L' ad 0tr' I .f y'Oduction ratio 0v di ... X.d f.d-.at.1 problems of the theory i auto .satin measuring Instruments with I.,or for the - or .... I of coa-l-tri tI"... To ayk., d .:It it1h problem. of th: c ... truction oi automatic d. 0. with high "cur&cY- P- I- , d. .. bridge C, d,,,u, Od fork d "I1.1 ut.,I. h in the Cangr.os :. , d *""*c' d Is 1, f * - i' , I M :f o T - b t - -: ~%-di -6 ho 4 y h C-d 3/5 L.-A. j,e~ttm, Th. planning of ....urL.C element- or  r= . 2 Tb:.Zn,t:r-uAiv r.iti 5cientific Conference an 3010 19-59-3-13/15 11 t, .1 U.:uring Instruments and on the Technical aaan& of Automation "our t. automatic q..ti. .6 -r~ in digital C:.y ".tions. of'dot =illad t 04mal ror 1. RMeraheakal Methods 3% tyy:r he a r . if a-mag-lia 1.ttau. P. P. Ornat.kiy. problems to measuring 1.0 ri qusatlli.. aVktr*..Iy to. freq :nci,.a by ;1,ctrL..,1y1Adic:tlc4pIftstrvm, at. of ver a 4W.tu, .. , ikolk , go, I ty . of me aRaze akr a kutostallo br :star. idg*:t&d it u ted for t * h :.catroll.f.thoparan are "rise yr.d~tl . I. . 1ADl - Son- Characteristics of aidgot induction noto-re-which a= be ueed in measuring technique and s4tocation. P!. &- Sorodal-i Ultran.-I pro "d liquid level C.1gem. !~. A. Skrip.-.kl Th. M.ul t us.aui4tica indicator for - .. ..-us 1 1'. riut bridge*. 1. T. S.wids Th. application of Listoa at. with am6netIc brfd4gwm, which po r.It rum considerable l,plifl..tl.. .1 - 1-ig, pexat.. mad .. iluj, ry 11", 1. "'. ...arese.t :ff I.M. 1. A. F, -t , Nothad or incr ... Ing the Card 4/5 watmitivlk; of gs.% analyzers. P. V. So,lt.klyi of apparatus far oasuring eibr.tlcn qUantill:v. - - ". I 'on rs* and" AL' lit a;" ' cation re ir VpIl alrouitry 1. utosatica, end me:surlg technique. C. 0. vo,QP.~b.nayyj Development f .quring amplifier* with ipex1conAuctor triodes. U. 1. lovzjvl'tv-r, M. A. Uir.." To. Af"ss$y.1, To "P. Utrytoc,s Precision semiconductor Ir;quenajr astor opera me according to $be principle. P. 0. likiltia and A k me:.url Ae 1b. am¬ic fi .1d '.'I t"l'Ieutb dt" by rtIstar. and transducersoporstL.g a. the 9.11 effect resolution was ad.,, .4 by the closing pi..ftxl ::!"f,plo; Alho Confer no., which Ind--cat* is,rvvi , and too rdIMing scientific res:.;.4Yh%:1rk I. the field of lectric zvaa~lud- and computing technique. card 5/5 1!  BOLDYREV, N.G., doktor telthn.nauk. prof.; XUZNRTSOV. V-1. Absorption and dispersion of light. Svototeklinika 5 no.9: 14-17 S '59. (141RiL 13:2) 1. Gosudarstvenrqy opticheatc4 institut. (Absorption of light (Liglit-Scattering)  .L Lu'rZOV, Andrey Vladimirovich;_.:~LR&T '- , N.G., doktor tekhn. nauk, retsen- zent; NOVIKOV, V.V,, Prof., rei;-enient; SHARONOV) V.V., doktor fiz.-mat. nauk, retsenzent; GORDON, G.G., inzh., red.; SHEYNFAYN., L.I., red. izd-va; ROZHIN, V.P., tekhn. red. [Inertia of vision] I4ertsiia zreniia. Moskva, Goa. nauchno-tekhn. izd-.vo Oborongiz, 1961. 247 p. (MIRA 14:10) (VISION)  24330 s/oig/61/000/010/043/077 q-& A156/A128 AUTHORS: Polavitakiy, K,K., and Bo G. -.11 L22i~"N TITLE: Photoelectric apparatus PERIODICAL: Byalleten' izobreteniy, no. 10, 1961, 46 TEXT; Class 42h, 1702~ No. 138391 (576885/8636/26 of March 16,1955). A photoelectric apparatus with two photoelements for comparing the magni- tude of two modulated light beams passing through agiven medium under ex- amination, distinguished by the fact that to enable this apparatus to pro- duce higbly-accurate performance when its measuring unit is a distance away from the exam3ned medium, the apparatus is provided witb a mixing resistance receiving photoelectric signals from both photoelements, and a potentiome- ter that nullifies the main harmonic on the mixing resistance, thus bring- ing about a photometric eq-oi.librium. Card 1/1  L, CL. 1",V 0 D,R Doc 'or Of tochnical seloncor, R I Delivered a ;zqcr toori,,,-a zvenipi 'I tit konforontsiya .y Lr-nAnC,fradnIdy hint-JAUL im, Ullyariova ftoninv,), J,,.uic 3.9,16, (I ,~~ourcc: Elcktricho.Avo, lcl`471 No. lp P. 76.  S/169/61/0.~O,/01 !/,/040/065 D228/D304 AUTHORS.- Boldyrev, N.G., and Bartenevaq O,D. TITLE: The connexion of the threshold of the sensitivity con- trast with the acuteness of vision taken as the basis of calculation of the visibility range of objects PERIODICAL: Referativnyy zhurnal. Geofizika, no, 11, 1961, 28, abstract 11B205 (Tr,'Gl. geofiz~ observ,, no, 109,10,61 53 - 60) TEXT: The dependence of the threshold of the sensitivity contrast on the angular dimensions of an object under observation should be taken into account when calculating the visibility range of actual objects which, as a rulep have small angular dimensions~ N.G,, Bol- dyrevq has proposed the following formula for determining the 1hre- shold contrast of an object with angular dimensions: (K - L)TI = (1 - E)82, where e is the threshold of the sensitivity contrastc. and SJs the Card 112  S/169/61/000/011/"040/065 The connexion of ihe threshold ... D228/D304 least resolvabl'e angle characterizing the visual acuteness of an observer V = 1/5., The results are a-tated for verifying the formula by the experimental data of O.D. Barteneva and by litera-Lure da-,.a, 4.1~ The authors conclude that the proposed formula does not contradJ--. '~- their experimental data, [AbsTrac'tor-s note: Complete -~,ranslat-ionl. Card 2/2  27,CS41) 31256 S/531/61/000/118/001/004 D218/D302 AUTHORS: Boldyrev, N.-G., and Barteneva, 0. D. TITLE: Range of visibility of real objects at twilight and at night SOURCE: Leningrad. Glavnaya geofizicheskaya observatoriya. Trudy. No. 118, 1961. Issledovaniye radiatsionnykh protsessov, 3-16 TEXT: The authors developed a method and an apparatus for study- ing the threshold of contrast sensitivity and acuity of vision un- der laboratory and field conditions as a function of the background illuminations. In the laboratory experiments, the screen on which the objects were observed was given the form of a cloudy sky and the objects had forms resembling the silhouettes of natural ob- jects. Binocular vision was used without any optical aids. Extra- neous light was excluded from the eyes of the observers. The me- thod is illustrated schematically in Fig. 2. The image of the ob- ject 0 was projected on to the screen K with the aid of the pro- Card 1 )~_  31256 S/53 61/000/118/001/004 Range of visibility ... D218YI)302 jection lantern S 1 which was also used to illuminate the screen. The distance S 1K was kept constant. A further lantern S2 co.uld be moved a-long the line MN. In this way the object could be made to disappear or otherwise, and the contrast sensitivity threshold could be determined. The objects were in the form of simple geo- metrical shapes (circle, square, rectangle, triangle, pendulum). The angular dimensions of the objects were about 50. The ten ob- servers who took part in the experiment all had normal vision. The contrast sensitivity threshold was found to be independent of the shape of the object. In addition, field experiments were carried out to determine the twilight sky illumination at which the obser- vers could detect standard contrasts of 0.11, 0.22, 0.44 and 1 with large angular dimensions. Four observers were employed with ?O-minute adaptation in open space. The results obtained under the Yarious conditions are given graphically, showing the contrast sen- sitivity threshold as a function of background illumination for ob- jects with -large angular dimensions. The dependence of the acuity of vision on the background illumination was obtained by analyzing Card 2/1- 111q"~  312 5 6 3/531/61/000/118/001/004 Range of visibility ... D218/D302 published information and the results obtained are summarized gra-* phically. Theoretical expressions are then derived for the light intensit-y distribution over the twilight sky, and a table of nu- merical values is given for various field conditions. The final section is concerned with calculating the visibility of real ob- jects at twilight and at night. Systematic observations of real objects (e.g. a church at a distance of several kilometers, a wa- ter tower, and so on) showed that the methods developed for calcu- lating the range of visibility during daylight also hold at twi- light and at night. Acknowledgments are expressed to A. N. Boyaro- va, who took part in the observations and the analysis, T. F. S)a- leznevap who took part in the processing of the data, and G. Ya. Bashilov, who checked the method of calculating the range of vi.si- bility of distant objects in the Odessa Hydrographic Region. There are 4 figures, 5 tables and 28 references: 20 Soviet-bloc and 8 non Sov--et-bloc. The 4 most recent.references to the English-lan- guagelublications read as follows: S. Q. Duntley: Visibility of. distant objects. JOSA, 38, 1948; Perry Moon: The scientific basis of illuminating engineering. New York and London, 1936; H. R. Card 3~~?,  3CJL)rq~v, - - ~~. I . Nravstvennoe vospitaylie detei v sf, ~va, U01IDedg,iz, 1952, 54 p. ,,e (Moral eduGation of children in t-ue family). mpj- ~'So: Accessions, Vol 6, Vb. 3, June 1953  DFMZER, A.A.1 DZYUBA, X.L.; BLINOV, L.F.. kandidat sellskokhozyavatrennykh nauk;.j2jjQffL N I kandidat pEdagogicheakikh na-uk; GAY-GULIRA, Z.S, GGO, TDTIg, ;t sellskokhozyarstvennrkh nauk; DMOV, Ta.G., professor; KOVALWO, V.D., ;KRYSINA, 0.1.; KMO, V.I.; WI N.Y.. kandidat sellskokhozyaystyennykh nauk,- MORDKOVICH, M.S.; POPOV, I.P. kandidat biologicheakikh nan ;SAGAWVICH, Ye.N,, agronom; SILIN, V.N, zootekhnik; STRUIMKIY. I.L., vrach; SUSHKOVA.LTAKffOVICH. X.L., Imndidat meditsinskikh nauk-, SR&POVALOV, Ta.Ta., kandidat sellako- khosyaystvennykh nau; SHENBMTSKIY, E.I., kandidat sellskokhozyay,~- stvennykh nauk; YAVNELI, A.Tu., kandidat meditsinskikh n&ukt RODINA, P.I6, redaktor; TUROVITSKIT, Te.l., redaktor;PZVZNXR, V.I.,,tekhni- cheskiy redaktor. (Home economics] I)omovodstv,,. Moskva, Gos.izd-vo sellkhoz.lit-ry. 1956. 479 p0- (Home economics) (MTMA 10:5)  C* OUF I CAT2GGRY A P,'D~ - i OUR RzBiol., 195~, Yto. A U T HL G IR T !T LZ T in~-: D(-, pth, c f n'. ing cl' s o'n of --S4:1Ya C, 7 (:1, -OUP rip t, A B 3T RA C T ~ C~ Z IN t t cf cl C; u 1. v t --n -zLn"! V f n c h C. C U b" fE 7 d c. q CTI ~Z, i.T,'( r,(1 re rv- C- r: t n L-Y 'j( E: ccrtc-nt cf t',:(- c r c. s t L r on ty C- b'--i~ int nu at t -e f' Ft- ry t -.t --- t -1 c. stl-u--c m "ut thf; I C 1, ci, 30-liC cm (n~lt- I' -" - ;-,, b~  Country USSR CATfGORY ABS. JOUR. fRZBlol., -,i0- 1,q, 195y, No- 97258 AUTHOR INST. .TITLE ORIG. PUB. AB3TRACT welluht), therefore a clepth of illanting of 1;11-10. cm is recommended, which, accor,~ijju to"Ye. autigyr- rcsults in Sc-~-,71, adaptabi"ity. Orl slopcs of about B-100 n-, ~iffercnces in adaptability and growth we7e obscrved on planti-lr, at diffei~ent depths (30-40-50-60 CPO. M. I. Notorina CARD: 2/2  AUTHORt Boldyrev, N. K. 2o-1 19-1-47/52 TITLE: The quality-DiaGnosis of the Grain of Spring Wheat on the',Badis 'Of the Leaves (Listovaya diagnostika kachestva zerna yarovoy pshenitay) PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol- 119, Nr 1, PP. 171-173 (USSR) ABSTRACT: The Vitrogen content in the wheat grain is an important index of the quality of the latter (References 1,2). The causes of its variability were studied by many re- searchers (References 3,4). The chemical COWOSition of the grain forms in agreement with hVreditary peculiari= ties of the respective sort on the one hand and under the influence of the environmental factors on the other hand. Therefore the-prediction of the chemical composition of the grain must be built up with the takin8 into account of the influence of the enti-e complex of factors upon the entire cycle of developmt--;t of the plants. The accu= mulation of nitrogenous and other substances in the wheat Card 1/ 4 grain is dependent on the total state of the mother plant  The Quality-Diagnosis of the Grain of Spring Wheat on 2o-119-1-47/52 the Badis of the Leaves (References 1,5). This state is determined by the rate of the passing through of the stages of development and is in close connection to the environmental conditions (Reference 6) which on their part first of all influence the growth and the development of the apparatus of leaves (Reference 7). The part played by the latter in the storage of the nitrogenous substance of the grain was emphasized by several researchers (References 1,50-10). In this con= nection some authors (References 1o-12) maintain that the protein content in the grain is in direct dependence on the content of the total nitrogen in the leaves. Others (References 9,19), however, are of opinion that the high protein content of the -rain is connected with the in= creased quantity of amino-nitrogen in the leaves during the time of ripdning of the grain. A quantitative dependence was, however, never derived. This was done by the author (Reference 13). In the present paper the attempt is made to utilize the earlier determined coefficients of the con= Card 2/4 version of the leaf-nitrogen into the grain-nitrogen for  The quality-pf~agnosis of the Grain of Spring Wheat 2o-119-1-47/52 on the Basis0 the Leaves the purpose of diagnosis of the quality of the wheat -rain. The experiments were perforned according to a method descri. bed in reference 13. The quantity of this coefficient varies between O,9o and 1,0 and depends on the sort of wheat, the supply of the plants with food elements, especially with ni= trogen, as well as on the moment at which the leaves were ta= ken for the analysis. Coefficients for individual sorts are given. Their decrease is apparently connected rith the early or late ripening of the respective sort (Reference 13). The experinental results are given in table 1-3. From table 1 is to be seen that the quantity of the non-protein-nitro6en in the leaves of Lyutestsen (=Lutescens) 62 and Gordeiforme (=Hordoiforme)'Io is almost equally high and that by this factor (Reference 9) in this case the increased protein content in the grain in the first sort can hardly be ey= plained. On the basis of the data given here as well as of the earlier publications the conclusion cap be drawn that the influence of the conditions of nutrition upon the Card 3/4 nitrogen,content in the wheat Grain is brou.-ht about by the  The quality-Diagnosis of the Grain of Spring Wheat on 2o-119-1-47/52 the Basis of the Leaves storage of nitrogenous substances in vegetating leaves during quite a certain period of development. In this connection, in order to attain a high nitrogen-content in the grain, 1) a comparatively high percentage of total nitrogen in the leaves during blooming-and 2) an increased content of mobile amino-nitrogen in the leaves shall be guaranteed. From the analysis of leaves after blooming it is possible to determine the plants' need of nitrogen, to make a pre= diction on the quality of grain and to decide the necessity of a top-dressing with nitrogen in later phases of develop= ment. There are 4 tables and 2o references, all of which are Soviet. ASSOCIATION: Omskiy sellskokhozyaystvennyy institut im. S. Id. Kirova (Omsk Agricultural Institute imeni S. M. Kirov) PRESENTED: October 9, 1957, by A. L. Kursanov, Academician SUBMITTED: August 14, 1957 Card 4/4  BOIDIRW&Au V9000-001-1' M-!'4mlm, Possibility of predicting the quality of spring wheat crop by the nitrogen content of leaves [with summary in English]. Fiziol.rast. 6 no-1:73-81 -Ta-F '59. (MIRA 12:2) 1. Department of Agrochemistry, Kirov Agricultural Institute, Omsk, U.S.S.R. (Wheat) . (Leaves) (Nitrogen)  17'(4), 30 (1) ,. Ir C~O AUTHOR: Boldyrev, V20-1126-4-55/62 TITLE: Relation Betriben the Chemical Composition of Leaves. Yield and Grain quality of Summer Wheat as Dependent on the Fertilizers Applied (zavioimost, mezhdu kchimicheskiri scstavom listlyev, urozhayera i kachestvom, zerna yarovoy pshenitsy v svyazi s primerx-tuyem udobreniy) PERIODICAL: Doklady Alradernii nauk SSSR, 11059, Vol 126, Nr 4, pp 886-889 (USSR) ABSTILNCT: The great importmice of the analysis of entire plants for the determination of the nutrition necessar..~ for them was proved in several papers-(Refs 1-4)- On the other hand, it became evident in recent years that the analysis of leaves alone is even more important for determining the nutritive state (Refs 5-8, 17-19). It vras possible to determine the "critical" nutrition level of many cultivated plants (Refs 6, 17-23). Towards the end of the blosooming time. there is a certain connection (Refs 9-14, 17r 21) between the nitrogen content in leaves and the nitrogen of the ripe g-rain. This made It possible to suggest a method of leaf diagnosis for the grain quality of wheat (Refs 11, 12). But. Card 1/4 the dependence of the height of the xvheat yield;on the  Relation Between the Chemical Composition of Leaves, 70V120-1 26-4-55/62 Yield and Grain Quality of !Aimm er Wheat as Dependent on the Fertilizers .-I.Pplied chemical composition of the leaves has been poorly investigated. There axe no data on the said "critical" level for the summer wheat (Ref 6). This complicates the evaluation of the results of leaf analysis for the determination of plant.3 by nutritive suostc-Lncev. To solve this problem.. the author carried out field and greenhouse experiments on ordinary, mediuffi-sandy and loamy black earth in 1,054-57 (Professor A. Z. Lambin conducted the work). Various doses of nitrogen- rind phosphorus manuring were applied, the dynamics of the nutritive substances maring in the soil were studied, and the leaves were analyzed towards the end of the blossoming time (Refs 11, 12). This made possible the determination of several nutrition levels of the eiimnler wheat with respect to nitrogen, and an informative indication of the "critical" level with respect to nitrogen and phosphorus. The term "critica'I level" means such percentage content of the respective element in the leaves, above which there is no more rise in yield by the introduction of this element in a mineral fertilizer, or the rise in yield falls rapidly to zero by this introduction 01efs 17, 19). The critical coacentration lies Card 2/4 within such limits, above which the nutrition of the plants 'eith  Relation Between the Chemical Composition of Leaves, SOV/210-126-4-55/62 Yield and Grain Quality of Summer Wheat as Dependent on the Fertilizers Applied corresponding elements can be oonsidered abundant, and below which the plants are short of these elements (Refs 6, 24). The results of the experiments by the author are discussed from this point of view. Figure 1 (showing the dependence of the height of the grain yield on the nitrogen- and phosphoric-acid content in leaves at sufficient P- and K-supply) indicates that the rise in the N-content of leaves is accompanied by a rise in the grain yield (Ref 15). The further rise in yield, however, becomes small when the N-content of the leaves has attained 3 The method of the analysis of leaves permits the data concerning the demand of fertilizers of the plants to be accumulated not only immediately after the harvest but also in the year of taking the plant samples (Table 1). On the basis of a general leaf analysis in the blossoming phase, a sufficiently accurate fore- cast of the grain quality of the wheat-can be made, and the application of a late nitrogen after-manuring can be undertaken in a more adequate Yray. Finally, the latter gives a valuable hint for the principal manuring with nitrogen and phosphorus in the following years. There are 2 figures, 2 tables, and Card 3/4 25 references, 19 of which are Soviet.  Relation Between the Chemical Compooition of Leavea, VOTI " 120- 41 2 6-4- 5505/62 Yield and Grain Quality of Summer Wheat as Dependent on the Fertilizers A-pplied PRESENTED: December 7, 1958, by A. L. Kursanov, Academician SUBMITTED: Augrust 2, 1958 Card 4/4  BOLDYREV. 11. K. I14 Using the total chemical analysis of leaves to eletermine the nitrogen and phosphorus requirement of spring whoat during the flornacence period. Pochvovedenie no.11:104-114 N '59. (MIRk 13:4) 1. Omskiy sel'skokhozynystvennyy inatitut im. S.14.Kirnva. ('vnieat) (Nitrogen) (Phosphorus)  BOMYREV, R.K. Follar diagnosis of nutrient requirements in spring wheat. Fiziol. rast. 7 no.5:578-583 160. (KM 13:10) I, Department of Agricultural Chemistry of Kirov Agricultural Institute. (Wheat--Fertilizers and manures) (Plants--Chemical analysis)  BOLDYREV, N. K. Cand Agr Sci, Diss -- "Leaf diagnosis of nourishment conditions and the quality of summer wheat grain in connection with the application of fertilizers". Omsk, 1961. 4 pp, 21 cm (Min of Agr RSFSR. verm Agr Inst imeni Academician D. N. Pryanishnikov), 200 copies, No charge, 1 works by the author listed on pp 23-24 (KL, No 9, 1961, p 185, No 24383). Z61-51119  BOLDYREV, N.K. Leaf analysis of nutrition and foliar nitrcgen feed-ing of spring 'NSSSR no.4:79-85 161. wheat. Izv.Sib.otd.AA (MIRA 14:6) 1. Omskiy sellskokhozyaystvennyy institut. (Wheat-Fertilizers and mawes) (Plants-Ilutrition)  BOLDYREV, N.K.-(Omsk) Foliar diagnostics of the nutrition and the quality o-f field crops. Usp; sovr. biol. 53 no.2:246-264 Mr-Ap 262. . (KIRA 15:5) (PLANTS-CIENICAL AIULYSIS)  BOLDYREV, N.K. Using leaf diagnosis to define more precisely the boundary indices (limits) of Truog's method in Chernozem soils of Omsk Province. Pochvovedenie no.9:25-34 S 162. (MM 16-1) 1. Omskiy sel'skokhozyaystvennyy institut imeni S.M.Kirova. (Omsk Province-Soils-Phosphorus content)  ,- BOLDYREV., N.K. Evaluating the chemical analysis data for diagnost'Lc pUrpos,.s. Pochvovedenie no-4:93-97 Ap 164. (MIRA 17:10) 1. Omskiy sel'skokhozyaystvennyy Institut imeni S.M.Kirova.  BOLDYREV4N81-18 600 1. BOLDYM-X, N. M. 2. USSR (600) Elektrotsink Plant. "The Profitableness of Reproces,-ing Ivfaste Eateri a] s" Tsvet. Met., 14, No. 1, 1939. 9. YM Report U-1506, 4 Oct - 19-51.  BOLDYREV, N. m. . '"The Intrpla-nt Planning, Cost and Profitableness of a ComPlax Treatnent of polymetailic Rw Materials" Tsvet. Met. 14 no. 8, August 1939  BOIDYRDEV, N. 114. FA 2-STIO' I *Ukls *rlAlw 1947 ZInb Lead 'Me Complex Reprocessing of Polymetallic Raw Wteri- &Is in the 'Elektrotsink, plant,* N. M. Boldyrev, Zlektrotsink Plant, 21 pp "Tevetnye Metally" No 2 7he "Blekbrotsinie" plant vas constructed in such a manner that all raw products In the production of ,zinc and lead can be reprocessed for the materials In them. The article gives an account of this set- up and its advantages. AiV _7 2ft67  ACCESSION NR: AP4024498 9/0142/64/007/001/0121/0125-:: AUTHOR: Boldy*rev, N. M. TITLE: Amplitude limiter using a resonant circuit with controlled attenuation SOURCE: JVUZ. Radiotekhnika, v. 7, no. 1, 1964, 121-125 TOPIC TAGS: amplitude limiter,, resonant amplitude limiter, selective~ amplitude limiter, low threshold AM limiter, receiver output regula- tion, receiver bandwidth limitation, limiter transient response ABSTRACT: A resonant selective amplitude limiter is studied in which amplitude limitation sets in (when the input voltage exceeds a,'' set value) because an active resistance (pentode with large resist- ance in plate circuit), shunting a resonant circuit, is decreased by mearis of a control circuit sensitive to the input voltage. The-oper., ation of the limiter is analyzed by solving the differential equation of the current through the tank-circuit inductance, using the method of slowly varying amplitudes. It is shown that the limitation ebar-'. acteristIcer!-are fairly flat if the amplitude of the tank-circuit Card 113..  ACCESSION NR: AP4024498 voltage varies slowly and there is no filter in the control circuit. The transient response of the limiter is analy;'ed for a control cir- cuitiin the form of either an integrating or a differentiating net- work'. If an integra~ting network with a small time constant is used, ,the limiter can be used for effective limitation of AM o.-cillations with low threshold (several hundredths of a volt) and sharp transi- tipn,,into the limitation mode. In 'he case of large time constants the lijdte,r* can be usdd for supplementary output-level regulation in a receiver input - stage, but results in poorer receiver select- A differentiating network can be used to narrow down the re ceiver bandwidth relative to the modulation frequency. Orig..'art. has: 4 fi;ures'and 6 formulas. 9 -ON: None ASSOCIATI J SUBMITTED; 22Sep62 DATE ACQ: 15Apr64 ENCL; 01 SUB CODE: GE, SD NO REF SOV: 002 OTHER:.0001 Car4 2/.3  ACCESSION NR:'AP4024498 ENCLOSURE: 01. WN pu D cc Anplitude limiter with resonant circuit and controlled attenuation T, - implifier tubeq RU - adjustable variable resistance, CC - control circuit, D - detectorg Ed - delay voltage Card 3/3 W.7 g  B, .'~ PI-V N~ ~7. Y . ; in'.- 6 n It a *~ 1, - -., I ',b a z, ) ~ 1-..". r .' ! -, it 7,:,7y, -, U', ~,. Trud7 I . I , Sl r, - )o"r) ". 16 -, (WRA 1 '.8) %i; .1 , , . t.,*, . 1.0 7  B':'~-l,YRFV' 1 i-4 s, . .,-- 0~ - le. 1, " ' ~28 ~tr - ~; uIv-u. Ge ~ ~7 - ~ 11C , - " ItITRA - -- I ~ I t  "r,7 D ''C'V NT ~TT- Bo'LDV-;L-','V toc;lllo rzp-r,  1. BOLDYREV, P., Eng. 2. ussR (600) 4. Dairy plants - Mol. prom. j 13, No. jo, 1952. 7. improve construction of dairY Plantc, 9. 11 :)f pussian Library of Congress, 1953. Uncl`954:"ed- ,2.nt_l,lv -List 2.1- 4"w,  BDLDYREV,_~_.;-_BURTSEV, L.,- NOVIKOV, V. Processing of cattle in British, Dutr;h and French enterprises (to be concluded). I~Uas. ind. SSSH 32 no.1158-61 161. (MM 34:7) (Slaughtering and slaughterhouses) (Cattle)  -BOIDYREV, P.; BURTSEV, L.; NOVIKOV, V* In British., Dutchp Danish, and French meat-processinglontorprises. Idasoind.SSSR 32 uo*2t54,-58 161* 1 OKM 14:7) (Meat incb2 try)  - DOIJ)YR:I-,V, P.; BURTSEV, L.; NOVIKOV, V. Z-- Poultry processing in the enterprisme of England and the Netherlands. Mias. ind. SSSR 32 nqa4:53-59 161. (141RA 14:91) (Great Britain-Poultry plants) (Netherlands-Poultry plants)  BOLDYREV, P. j 14mov, v. State Institute for the Design and Planning of Meat Industry Plants works on standard projects. Mias.ind. SSSR 33 (i.e.34) nq;2:11-12 163. (MIRA 16-4) 1. Gosudarstvennyy institut po proyektirovaniyu predpriyatiy nWasnoy promyshlenuosti. Neat industry) (Factories Design and construction)  BOLDYREV,_I.; KAPLA.N, N.; GUREVICH, A. Selecting the type and capacity of meat industry enterprises under construction. Pffas.ind.S.S.S.R. 33 no.6:29-33 162. (MMA 16:1) 1. Gosudarstvennyy institut, po proyektirovanlyu predpriyatiy myasnoy promyshlonnosti. (Meat industry) (Factories-Design and construction)  B~~ inzh.; AKSENENKO, M.I., inzh. Physicomechanical properties of sandstones and siltatenes-ift-the Kiselevsk-Prokoplyevsk region of the Kuznetsk Basin. Sbor. , KuzNIUI no.9tllS-137 161. ~ (MIRA 16:5) (Kuznetsk Basin--Siltstone-Testing) (Kuznetsk Basin-Sandatone-TeBting) r  " 7- 7,1h PCIE, 11 , "I U F. , B1 T, h , _., A i I VAYI)ijh(')'VA F, Ilive _~~ I. I ga t -inog al s a am b-, e clk' pby mesnp, of u (:,one wecigk~ n ~ f minln,g the Second internal. SbDr. KuzNIUI no.10:165-176, I  MALAKHOV, Ivan I:uzlmich; MIELOITITSKIT, Dmitriy Gcogriyevich [EhmelInytelle-yi, D.H.J; BOLDWY. R., red.; GUSAROV, K. [Huatirov, KJ, tekhn.red, (Econonve organization, and planning of machinery plants] Nko- nomika, organizatsila i planuvannia T&qshvnobudivnyl.-h pidpryienstv. Kyiv, Dorzh.vvd-vo tgkhn.lit-ry URSR, 1959. 163 P. (HULA 13:6) (KachiAery,  BOLDIREV, R.N.,,-. inzh. Geometrical substantiation of the method of approximate copying of bevel gear wheels. Izv, vys. ucheb. zav.; mashinostr. no. 3:744P. 161o (MIRA 14:5) 1. Chelyabinskiy poli kbrilcheakiy institut. (Gear cutting)  -iINVENTOR: Tkachenko, S. D.; Kislitsin, V. I.; Boldyrev, R. N. IORG: None iTITLE:, A method for reproducing curved surfaces by-mechanical duplication. Class 67, !No. 190235 (announced by the Scientific Research and Technological Design Institute I" lor Automation and Mechanization of Machine Building (Nauchno-issledovatellskiy i i proyektno-tekhnologicheskiy institut av-tomatizataii i mekhanizataii mashinostroyeniya))', SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 1967, 1145-146 ITOPIC TAGS: metal machining, diamond, abrasive ABSTRACT: This Author's Certificate introduces a method for reproducing curved sur- ifaces by mechanical duplication. A feeler moves over a master form and transmits its own motion to a tool of identical profile. Provision is made for using a self-sharp- ening diamond tool regardless of wear by incorporating an auxiliary abrasive tool which periodically alters the shape of the feeler as the diamond tool wears. -Cord 1/2 uDc: 621.923.4:621.9.072  I-- .,-. lIrpjuqou-f j I I I i I I 1--diamond tool; 2-abrasive tool, 3-feeler  BOLDYRNV S. - -, Photography of small objects at a close range with the IYJID' and "Zorkii" cameras. Sov. foto 17 no.9.-51-,54 3 157. (KLRA 10:9) (Cameras-Squipment and supplies) I 4  BOLIARIAIN) S. 20681. Boldyrev, S. Bjtva za ozero Sevan. zSevanstroy, Ann:. SSR. Ochesi.7. Ill. "i. Petrov. Znaniye -- sila, 1949, No. 5, S. 13-18. -- Prodolzh. SlEduet SO: LETOFIS ZHUAL STATEY - Vol. 28, Moskva, 1949  PIQPwV.k._S!... -1 Through the snow storr. Vokrug aveta no.12-.25-29 D '54.(MLRA 8:1) (Ural gountain region--ftow) (Ural Mountain region--Storm)  BOLAR"AT) S. Boldyrev, S. - "In the laboratory of Engim~(,.I- Lebeftv", (The hirli-altitude clectriu.1 laboratory of' t,hc Academy of Sciences Armenian S')'Ii)., Illustrated by N. Petrov. itianiye-sila, 190, No. 3. p. 6-7. SO: U-h11O, 17 July 3, (Letoois 'Zhurnal !nykh Statey, No. 19, 190).  1. BOLDYFEV, S. 2. USSR (600) 4. Rolling-mill Machinery 7. A step into the Puture. Znan. sila No. 4, 1953. 9. Monthly List of Russian Accessions, Library of Congress, Aoril 1953, Uncl.  A)JTHOR: L-o I d 1, re- TITLE: Crystallizer of Engineer Goldobin (K_ristallizator inz-henera Goldobins) PERIODICAL: 7naniye - siln, 10rS, Nr c;, ABSTRACT: The author tells how the entire process of producing cast i-ron and steel at metallurgical plants runs 141-e a big Complicated conveyer till it reaches the stripping s;ction where the cooling down and crystallization takes place. There,a delay of almost 2 hours occurs. To avoid this, Mikhail Fedorovich Goldobin in- vented a machine resembling 2 tractor caterpillars placed slantwise one upon the other. The links of the lower and upper caterpillars constitute the halves of the mold. By placing them one on top of the other they form a mold with a square section. Into the upper end of this mold, consisting of many links, the liquid steel is poured. The caterpillars push out from the lower p,-rt of the combined mold the hardened pieces which Pre still glowing but Are already crystallized. From the "Serp and 101olot" Plant the machine will be sent to the Dryanskiy mashinostroitellnyy zavod (PryPnsk ndhine Ruil-ling Plant) where it will turn out 20-30,000 tons of pieces 'Der year. Card 112 In the meantime, the efforts of several metallurgists to in-  Crystallizer of Engineer Coldobin 4-5F-55-26/41 vent a continuous method of casting with the help of vertical crystallizers have also been successful, A device of this kind has been installed st the '_,ormovskiy zavod ("',%rasnoye Sormovo" Plant at Corlkiy). In this connection 'the Lenin Prize has been awarded to Academician I.F. Rnrdin, N.N. STelyakov - a former director of the Plant "Krasnoye Sormovo", and to the plsnt's workers N.L. Komandin, K.P. Korotkov, N.P. Mayorov, A.V. KhriDkov, as well as ~.'.D. Gritsun - Director of the Novotullskiy MetallurgicnI Plant, and to C.V, "urskiy and V.A. Kazanskiy -- workers of the same plant. There Pre 6 sketches. 1. Metals--Production Card 2/2