S/030/62/000/002/008/008 B105/B110 AUTHOR: Bulanzhe, Yu. D., Doctor of Physics and Mathematics TITLE: Present movements of the terrestrial crust PERIODICALi Akademiya nauk SSSR. Vestnik, no, 2, 1962, 113 - 114 TEXT: The third interdepartmental conference on the present movements of the terrestrial crust dealt with the importance of the present movements of the terrestrial crust in geology and for the forecasting of earth quakes, The conference had been convened by the komissiya po sovremennym tektoni.- cheskim dvizheniyam sektsii geodezii Mezhduvedomstvennogo geofizicheskogo komiteta pri Prezidiume Akademii nauk SSSR (Commission for Present Tectonic Movements of the Section of Geodesy of the Interdepartmental Geophysical Committee at the Presidium of the Academy of Sciences USSR) from November 14 - 18, 1961 in Moscow. It was attended by experts of the Academy of Sciences USSR), of the Academies of the Union ReDublics, the Gosudarstvawy komitet Soveta Ministrov SSSR po koordinatsii nauchno-issledovatellskikh rabot (State Committee of the Council of Ministers USSR -for the Coordina- tion of 5cientific Research Work); the ministerstvo vysshego i srednego Card 1/3  S/030/62/000/002/008/008 Present movements of the-... B105/B110 spetsiallnogo obrazovaniya SSSR (Ministry of Higher and Secondary Special- ized Education USSR) and the corresponding ministries of the Union Repub- lics, of the Ministerstvo geologii i okhrany nedr SSSR (Ministry of Geolo- gy and Preservation of Mineral Resources USSR) and other authorities,, The Y,ork was conducted in plenary meetings and in the following sections: (1) geologic and geomorphologic section; (2) section of geodesy and oceanogra- pby; (3) geophysical section. The compilation of a map of the present ver. tical movements of the terrestrial crust in the western part of the Euro- pean territory of the USSR is regarded as a success, The principles of the geophysical interpretation of elastic flows in the terrestrial crust that were developed at the Institut fiziki Zemli im. 0. Yu. Shmidta (Institute of Physics of the Earth im. 0. Yu. Shmidt) are mentioned. V. P. Shcheglov, Corresponding Member AS Uzbekskaya SSR, dealt with the movements of the continents in the light of present astronomical research, It is suggested that international centers should be established for the compilation of world maps of the present movements and that the data should be available to the members of the International Association for Geodesy and Geophysics. Among others, the following tasks are suggested: (1) compLlation of a map of the present movements in the entire territory of the Europenn part of Card 2/3  S/030/62/000/002/008/008 Present movements of the - B105/B!10 the USSR; (2) development'of stationary polygons for comprehensive resedrcl:; (3) development of new methods for the investigation of the motions; (,,~i) establishment of special laboratories for the development of methods of astronomical determinations of the changes in the lengths and widths for solving the problems of the presont movements 6f the continents-, Card 3/3  S/030/62/000/005/006/006 B100108 U'l "0 1~' Bulanzhe, Yu. D., Doctor of Physical and Mathematical 51 Ile 11 ~s "7r!7 -:1: naval quartz gravimeter 1962, 138-89 ~',kademiya nauk SSSR- Vestnik, no, 5,- in the Institut fiziki Zemli im. 0. Yu. Shmidta Akademii nauk (Inc-~itute of ?hysics of the Earth imeni 0. Yu. Shmidt of the of Sciences USSR) the naval quartz gravimeter ['If- -r, (GAL-P) was 6eveloood and tested. It is designed for submarines, for use on drift ice and in the calm arctic and antarctic seas. The sensitivity 6 o-f the -ravimeter consists of elastic quartz threads and is i-i-lersed. in aviscous organosilicon liquid. An electric thermostat controls the temperature. The gravimeter indications are recorded on a ,,hoto,-ri-~Phic film. The instrument is mounted in a Cardan's suspension with s.~ecial shock absorbera. Gravimetric measurements made on the sea -,-iith 3 - 4 instruments showed a maximum random error of +1-5 mgl. The sys-e:~;aiic error in the measurement range of 2-5 - 3.0 91 is less than Card 1/2  S/030 62 000/005/006/o06 naval quartz gravimeter B10610~ m~;l. This accuracy of the instrument is maintained for several.months. Data: graduation in recording 10 to 20 mgl/mm; at 25 0C the zero shift wit'ain 24 hours is 0.6 - 0.9 mgl? the temperature coefficient is 2 m6-1/deE;; power consumption 50 w; the weight is 25 kg- A small series 0~ There is sucl! instruments is being produced at the above institute. I figure. Card 2/2  BUIANZHE, Yu.D. _ International classification of literature on earth tides. Geofiz. biul. no.22:70-74 162. OMM 15-8) (Classification-Books-Tides)  th"ZHE Yu D - HESHCHERYAKOV, Yu.A. Study of recent crustal movements. GeofLz.biul. no.12:3-6 162. 1 (MIRA 16:5) (Earth-Surface) (Geology, Structural)  BULANZHE, Yu.Db Fifth Conference of the Representatives of European and Asiatic Countries. Geofiz.biul. no.1209-42 162. (MM 160) .(Geophysies-International cooperation)  BULANZHE. Secular variations of gravity. Geofiz.biul. no.12:74-80 162. (MIRA 16:5) (Gravity-Secular variations)  IWTOV, A.A.- BULANZHE Yu.D.; MAGNITSKIY, V.A.; MESHCHERYAKOV, Yu.A.; BLAG6VRTW-,' KS. - Establishment of the Crimean geophysical polygon for the study of crustal subsurface geology and recent tectonic movements. rjeofiz.biul. no.12:82-84 t62. (NiRA 16:5) (Crimea-Geophysical research)  DOLMN, Sh. Sh. and MIA=,. yu, j)s Present state of magnetic Measurement techniques. Title: Conference on problems of marine magnetic surveys (held in Moscow in April 1962. Source: Okeanologiya, v. 3, no. 4. 1963, p. 752  GERASIVIOV, I.P., akader.ik, otv. red.; ff~ANZH-T,._)~4,D,_, doktor fiziko-mater.. nauk, otv. md.; M-ESHOMYAKOV, Yu.A., kand. geogr. nauk, otv. red.; VERSTAK, G.11., red.; GUSEVA, A.L.p tokhn. red. [Recent crustal rovements] Sovremennye dvizheniia zermoi kory; sbornik stated. Fo--kva, lzd-%,o AINI No.l. 3'Q63. 382 p. (MIRA 17: 1) (Earth-Surface)  ACCESSION XR: AT4024453 5/3010/63/000/013/0041/0042 AUTHORS: Avayuk, yu. X.; Bujanzhe, Yu. D. :TITLEs Base gravimetrio stations in Antarctica SOURCF,: AN SSSR. XezhduvedomstYon;V*y goofizicheakiy 1comitat. Ceofizicheskiy byulletenlp no. 131 196~9 41-42 :TOPIC TAGS: gravimetry, gravimoter, base station, base gravimetric station, La Casta gravimeter A4PTRACT: The Mirny station has been established as the primary base station for all Soviet work in Antarctica. The bench markt a ooncrere alab in the cosmic-ray building, is at 660 33.21 S. lat., 930 00.91 E. long., and at an elevation of 20-7 m. The value of g at this station, determined by D. Sparkman with a La Costs, gravimeter and tied to the value at Washington, is 982 407-4 t 2.0 mgal (on tvhe Potsdam base). The authors have verified this value through several Soviet stations, checking the gravity difference between these stations and the Ui=y*y station on the one hand and between these stations and the Amundsen-Scott station of the U.S.A. on the other, and they agree with the Sparkman determination within 3.0 msal, which they consider to be within the limits of measurement error. They Card. 0  ACCESSION NR; LT4024453 :tharefore aooept Sparlman's value as a preliminary base value, subjeot to the refinements of more detailed work. Orig. art. has: 1 table. ASSOCUTION's- Uezhduvedomstve=y*y geofizicheskiy komitat IN SSSR (Interdepart- !mental Geopbysioal Committee AN SSS'D~ R., SMUTTED: 00 DATE ACQ.. 16Apr64 ENCLz 001 SUB CODE: AS NO REP SM 000 OTIMs 000 Card 2/?_  L 32563-66 EWT?i ~ SOURCE CODE: AUMOR: Bulanzhe., Yg.D.; PopgX,_je.I.; Tulin, V.A ORG: none b TITIE: Automatic processing of gravimetric o servations SOUIRCE: Ref. zh. Geodeziya. Otdellnyy vypusk, jibs. 6-52.194 V60-~l MF SOURCE: Sb. Vychisl. tehhn. v upravlenii. M., 11auka, 1964, 212-215 TOPIC T,%GS: gravimetry, gravimeter, gravimetric analysis, aerial survey, data processing VMEISIATION: The Aerogravimetric Laboratory of the Institute of the F-hysicG of the Earth of the SSSR Acade~ay- of Sciences has developed a s~,ron3ly d~K;ipcd g ravimetery-', s -Eiristed quartz glassftlireaq.'- T based on the elastic propertie ct he meqsurerent 0f2 i9ravity acceleration is made by-thle-v-d-ri-a-tion of 'the t7hread angle of the force of J. tvist. It is determined by the deflection angle of the pendulum. The i-,Istx'xlent is used in naval gravimetry survey on submarines and surface ships, as well as for ex- perimental worl-, on aircraft. The time spcnt for ~rocessina of recordin~;s, durin-- which the effect of turbulent accelerations is excluded, significantly exceeded the time of observation. The special features and the conditions for autoinatic processi L_.Sard  L 32563-66 ACC NRi V-150111703 of Gravimetric data were studied. By observation from low-speed submarine or surface vessels the automatic computor has only to perforia the operation of averagin3 the record for a given period of time. In observation from an airplane the functions of the computor are more complex. Computing slipping average values of gravimeter in- dications or the current values of inte,-ral from the A-unction, which represents the motion of elastic system pendulum in time, can be considered as a preliminary problem i in this case. The device transforming the movement of the gravimeter penduluz;i inLo an analogy or code system must have an accuracy of 21-5- The most comprehensive vray of talldng readings is the method in which the measurement unit of the pendulum siqing is t'.,,e chanGe of the distance between two bloc1m, reflected from the elastic system speculum. Other known methods (for example the volume one) will hardly secure the necessary accuracy. B.U. SIM CODE: 09 2  L-256,17-65 EVT(l) GW ACCESSION HRt AP51DD4552 AbMaq: b~jimif~e_j Yu. D. (Doctor of pbysico-mathematical S/0030/65/O00/O01/01o4/oio6 sciences) (Fourth TITL.Et Investigation of contemporary motions of the earth's crust !interdisciplinary conference) !SOURCE: AN SSSR. Vestnikj no. 1, 1965, 104-106 ~TOPIG TAGS: geoactivityt geophysical research, (~ ~th c~rust, earthquake ABSTR ACT: The problem of observing the motion of the earth's crust was diecuaged in conference at Tallinn, October 12-16, 1964. It was the jq called by the Mezhduvedoms veiuW geofiziches iy -omitet pri Prezidium Akademii nauk SSM (Interdisci-olinar7_q_qppt~yptqpI_Co=aittee at the Praesidium of the Acade-my of 6ie Geomorfologicheskaya komiseiya pri Welenii-'nauk o Zemle Adademii nauk SSSR (GeomqKpholqg~cal Commission of the Division of Earth Sciences,_ Acadew of Sciences Sisk) Geologii Adademii mak of Sciences,__ Estonian SSR), 'j;~d Pribaltiyokaya nootektonichonkaya komisoiya (Near-Baltic Teoteotonic Only qualitp6tive axplanations could be ifv for a crwt movements. An underatmuling of physicol-chemical. processes within the earth  !A~o~aWW~ j4A Lj.VC.L %LV~%4jDf U"61&U L)A4VU QWAMV Faro- WAL -AV I-V-- P-,F- ties of the earth. A systematic investigation is nor under way in various Soviet territories, such as the Crimean polygon, Ashkhabady Kamchatka, and other places, with geologicalgeomorphological and geophysical tools. Observations are made from variations in terrestrial surface slopes and 2- to 4-meter horizontal shifts in the ,vicinity of Ashkhabad. Plans were made in the conference to draw compound maps of vertical and horizontal crust movements in eastern Europe and to prepare polygons :for intensive geological, studies in various Soviet countrieu duxing the forthcoming ithree years. ~ASSOCIATIOIT: none SUBInTTEDi 00 NO R'9F 50V 1000 ENCLs 00 OTMMs ODD SUB CODE - ES 1h  BULANZHE, Yu.D.,, prof., otv. red. (Apparatus and experimental methods for gravinietric research] Apraratura i metody eksperimentallnykb isaledo.- vanii po gravimetrii. Moskva, Nauka, 1965. 108 p. (MIRA 18-3) 1. Akademiya nauk SSSR. Institut fiziki Zemli.  BULANME, Yu.D., doktor liz.-matem. nauk Study of the recent movements of the earth's crust; 4th inter- departmental conference. Vest. AN SSSR 34 no.1:104-206 Ja 165. (14IRA 18:2)  BUIAN2M , Yu.D., doktor fiz.-matam. nauk Symposium on the study of the figure of the earth held in Prague. Vest. AN SSSR 35 no.2:86 F 165. (MIRA 18:3)  BULANZHE, Yu.D.JS prof. I-- Does gravity change with time? Zem.i vsel. I no.2:7-13 Mr-Ap 165. (~ff RA :LS: 8)  BULANZHE, Yu.D., otv. red. (Apparatus and methods for marine gravJr,.etric observt- tions] Apparatura I metody morskikh gravimetricheskikh nabliudenii. Moskva, Nauka, 1965. 132 y,. (MIRA 19:1) 1. Akademiya nauk SMR. Institut fiziki  GG GA ACC 1-4r(-. AT6011158 SOURCE CODE: UR/31S)7/65/000/002/0338/03h3 AUTHOR: Bulanzhe, Yu. D. 5 ORG: I;nstitute of the_Physics of the Earth,__AN SSSR (Institut fiziki zemli AN SSSR) TITLE: Study of the contemporary movements o--F' the earth's crust at permanent polygons [test areas) SOURCEi AN EstSSi. Institut fiziki i antronomii. Sovremennyye dvizheniya zemnoy kory. Recent crustal movements, no. 2, 1965, 338-343 .TOPIC TAGS. earth crust, geophysic research facility, gravimetry, seismology, epeirogeny I tectonics ABSTRACT: Study of the contemporary movements of the earth's crust requires multidiscipline investigations including geology, geochemistr geophysics, geomorpbology, geodesy, astronomy, and other geosciences. Of particular importance is the study of the vs.riations of geophysical fields vhich are the result of processes occurring in the Earth's interior. Since large-scale multidiscipline research is very complical and expensive% the author proposes that studies of this type be carried, out at special permanent polygons (test areas) located in regions vith Card 1/2 - U-Ml- 550-34-2----- - - ____ - ____ -----------  ACC NRt - Aj?6017986 SOURCE CODE: UR/0413/66/ooo/010/0086/0086 MENTOR: Bashilov, I. P.; Jju.1.jn D.; Dubovik, A. S.; Yerofeyev, V. I.; Kevlishvili, P. V.; Kobrin, L. V.; Kogan, B, Ya.; KazImin, A. I.; Popov, Ye. I.; Milthaylov, N. N.; Churbakov, A. I.; Shileyko, A. V. ORG; None TITLE: An automatic device for determining acceleration due to gravity on a movable base. Class 42, No. 181833 [announced by the Institute of Physics of the Earth imeni 0. Yu. Sbmidt, AN SSSR (Institut fiziki Zemli AN 8SBR)j SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 10, 1966, 86 TOPIC TAM gravity, electron optics, electronic equipment, gravimQter ABSTRACT: This Authorts Certificate introduces an automatic device for determining acceleration due to gravity on a movable base, using a strongly damped,elastic gravi- meter system. The installation contains a meter for acceleration due to gravity, a system of mirrors, lens, light source, two condensers and a slotted prism. Ac- curacy of measurement is improved, and processing of the resultant information ia sutomated by using an electron-optical converter wiLich changes angles of turn of a pendulum to digital code. This converter is made in the form of a code mask with lenses attached. A prism is mounted behind the lenses with metallic mirrors and photocells. UDC: 531-768-08:528,026  ACC NRi AFbUl'19(Jb 1--accelerometerS 2-system of mirrors; 3--objective lens; 4-light source; 5 and 6- condensers; I-slotted prismj 1-el~oi~bn-optical converter; 9--code mask; 10- lenses; 11-photocells; 12-prism ia,* metailic mirrors SUB CODE: 09,'081 SUBM LiTE: / Am'ay64  ACC NR% - AR6024298 SOURCE CODE: UR/0270/66/000/004/0035/0035 AUTHOR: Bulanzhc, Yu. D. ..T.ITLE: Investigation of present motions of the Earth's crust on stationary platforms ,80URCE: Ref. zh. Geodeziya, Abs. 4.52.289 AtF SOURCE: Sb. Sovren. dvizheniya zemn. kory. No. 2. Tarty, 1965, 338-342 `f0PIC TAGS: earth crust, earth gravity, earth magnetic field ".ABSTRACT: The nature of present motions of the Earth's crust can be comprehended onl) by studying the mechanisms which govern the physicochernical processes occurring in the Earth's interior. These studies are to be made in combination with other sci ences, such as geology, geochemistry, geophysics, geomorphology, geodesy, and astron- omy. Of special importance are the studies of variations in the geophysical fields which, together with deformations of the crust, are caused by the physicochemical processes occurring in the Earth's interior. In view of the complexity and high costs of such large-scale operations it is suggest-ad that the studies be made on special stationary platforms located in geologically different regions. As the first step the following operations are proposed: gravimetric and magnetometric surveys, seismic surveys and depth sounding, determination of the velocity of thermal currents and magnetotelluric sounding. Next the following .3ystematic stuaies are recommended: 1/2 UDC; 551.241 C.,-d  ACC NR: AR6024298 observation of vertical and horizontal crust motions, investigation of defo-mations and seismic and thermal regimes of the crust, and observation of slow variations in, the gravity and the magnetic field. The following platforms have been or are being established in the Soviet Union: Crimea, Ashkhabad,, Baskunchak, Garm, Alma Ata, and Petropavlovsk-on-Kamchatka. It is noted that the creation of similar platforms in the (hucasus, on Kola peninsula, and in the region of Baikal is of special scientific interest. [Translation of abstract) A. Pevuev SUB CODE: 08  BUIASH, Mikhail Alekseyevich, kand. ekonom. nauk- DaICHENKO V.P., kand. ~ko-n. -nai~J~, ~otv~ f~~d-.,--TUBOLEVA, M.V.[TubO'Iieva,M.V.j, red,' (Decisivelfactor in the development of mankind; development and consolidation of the international socialist economic system] VyrisbalInyi faktor rozvytku liudstva; rozvytok ta zmitsnegmia svitovoi sotsialistychnoi sisteqr bospodarstva. Kyiv, 1961. 47 p. (Tovarystvo dlia poshyrennia politychrqkh i naukovykh znan' Ukrainsl- koi. RSR, Ser*4, no.4, (MIRA 14:9) (Communist countries-Economic conditions)  BUIA SH M In the branch of the academic institute staffed with volunteers. Vop. ekon. no-9:156-157 S 163. (MIRA 16;9) 1. Uchenyy sekretarl Ukrainskogo otdoleniya Instituta ekonomiki mirovoy sotsialisticheskoy sistemy AN SSSR, Kiyev. (Ukraine--Economic research) (Matual economic assistance council)  BULASHIEVA). L.K~ boundod Cuachy problem. Izv. AN Kazakh. S5-R. Ser. fiz.-m-apt. t--ik no.2:65-71 Ja-AP 165. (YJR.1 18-.5)  BULASHEVA, Ye.D* Analysis of the effectiveness of therapeutic and preventive care based on materials of the medical-sanitary squad. Sov.zdrav. 15 no.5 supPlameat:8-9 0 156. (KIZRA 10:1) 1. Zaveduyushchaya Stalingradakim gorsdravotdelom. (INDUSTRIAL HYGIM morbidity among factory workers, lowered rate In Russia) (VITAL STATISTICS same)  KUZNBTSOV, Petr Vasillyevich; BUIASHVICH, D.N., redaktor; IARIONOV, G.Ye., tekhnicheskiy redaktor [Installation of high tension distributors3 montazh raspredelitelf- nykh uBtroistv vyBokogo napriazheniia. Izd. Z-oe, parer. Moskva, Goo. energ. izd-vo, 1956. 223 p. (HLRA 9;9) (Blectric switchgear)  KUZWSOV, Petr Vaaillyevich; SMMNOV, A.D., inzhener, redaktor; SOWVIYFV, P.F., Anzhener, -redaktor; BULASHEVICH, DN,,, redaktor; VORORIN, K.P., tekhnicheakiy redaktor. (InstallRtion of distributing equiPment UP to 35 kwl Hontash raspredelitelln.vkh ustroistv naprte,zheniem do 35 kv. Moskva, Goa. energ.izd-To, 1957. 272 p. (Spravochnik elektromontera, No.1) (MIRA 10:11) (Ilectric power distribution)  BULASHEVICH, Dmitriy Ni-kolayevich; YURMOV, Viktor Dmitriyevich; - kOZMWYAKiN--, V.G., inzh., retsenzent; BRAbDENBURGSKAYA. 3-Ya.. red.; LARIONOV, G.Ye., tekhn.red. [Capacitive take-off of power from an electric transmission line] Rmkoatnyi otbor moshchnosti ot linii elektroperedachi. KoskVs, Gos.energ.izd-vo, 1959. 135 P. (MIRA 13:5) (Electric lines)  KUZNETSOV, Petr Vasillyevich; SHIRNOV, A.D., inzh., red.; SOLOVIYEV, P.F., inzh... red.; BULASHEVICH, D.N., red.; VORONIF, K.P., tekhn. red. [Electrician's handbook) Spravochnik elektramontera. Pod red. A.D.Smirnova i P.F.Solovleva. Moskva., Gos.energ.izd-vo. No.3.[Installation of distribution devices with voltages up to 35 kv.] Montazh raspredelitellnykh ustroistv napriazbeniem do 35 kv. 1957. 272 p. (MIRA 15:1) (Electric engineering)  F~LASTI,EVTCII, D.N., inzh. Determination of parameters ax.,d operating c'n&-,acterjs-U4-cs of III capacitor power takeoff systems. Trudy W E no. 20:5-43 f65 ("!Tlu~ 1~):I) Capacitor voltage transformers. Ibid.-.59-91  BULASPEVICH, G.A.,,gornyy inzbener; GORDEYEV, V.P., gornyy inzhener; I_ - -----PERMYAYOV_t V.M., gornyy inzhener Improving boring and blasting operations in strip mines of the Noril'sk Combine. Vzmw. delo no.47/4.-63-73 '61. (MIRA 15:2) 1. Gornometallurgicheskiy opytno-issledovatel'skiy tsekh Norillskogo kombinata. (Noril'sk region--Blasting) (Boring)  M6017571 SOURCE CODE: UR/0196/66/000/001/IO45/1045 AUTHOR: Bulashevich, D., REr SOURCE: Tr. Vses. n.-i. in-ta elektroenerg., vyp, 20, 1965, 59-91 TITLE: Capacitor voltage transformers SOURCE: Ref. zh. Elektrotekhnika i energetika, Abs. 11297 TOPIC TAGS: electric transformer, electronic transformer, electric capacitor TRANSLATION: The advantages of capacitor voltage transformers over inductor voltage transformers are considered, An analysis of capacitive power selection (yield) for measurement purposes is given. The conversion scheme is analyzed, expressions for er- rors are derived, and the effect of various factors on summary error in the transforme is described. The operating characteristics of capacitor voltage transformers are ex- amined and areas of application are suggested. 12 figures, 13 references. SUB CODE: 09/ UDC: 621.314.222.8 Card  - BULLSHEVIGHP R.Ye. (Moskva). Use of synthetic and vegetable estrogens In livestock farming. Usp. sovr. biel. 43 ne.2:208-223 Kr-Ap '57. (KIRA 10:6) (STIlalIMIOL) , (STOCK AND STOCKBREbIbG)  86434 S/181/60/002/011/020/042 B006/bO56 AUTHORS: Korovin, L. I. and BZ!j~,,UgA , "~YI;W TITLE: Oscillation,s of the Absorption Coefficient of Tellurium in a Magnetic Field Running Along the Optical Crystal Axis PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 11, pp. 2795-2804 TEXT: An analysis of the absorption spectrum of tellurium single crystals in polarized light within the region of absorption by free carriers makes a construction of the holeband of tellurium possible. As already shown, the hole band is not degenerate and has either one extromum in the center of the Brillouin zone or two centers symmetrically arranged on the optical axis (C ). Measurements of the absorption coefficient carried out by V. M. Orsunskiy and M. P. Lisitsa indicate that the second probability is more probable. The authors of the present paper study oscillations of the absorption coefficient in a magnetic field, which are due to direct transitions of electrons from the filled valence band to the hole band. Contrary to Refs. 5, 6, the dispersion law in the lower band is assumed to be not only quadratic but also linear with respect to the irreducible Card 1/3  4 4 Oscillations of the Absorption Coefficient S 1 -1/60/002/011/020/042 of Tellurium in a Magnetic Field Running Along BOO /B056 the Optical. Crystal Axis quantum number of the terms. Besides, the mutual position of the bands dif- fers from their position in transitions into the conduction band. This entails an extraordinary dependence of the oscillations on light frequency. The absorption spectrum of infrared radiation in tellurium single crystals is calculated for a magnetic field that is parallel to the symmetry axis of the crystal. The calculations are carried out in single-electron apprmi- mation by the method of the effective mass. The prezent paper consists of two parts. Chapter 1 derives expressions for oscillations 'Without taking account of collisions between electrons and phonons or impurity ions. This simplification causes the absorption coefficient to tend to infinity at certain frequencies. In Chapter 2, these collisions are taken into account by the phenomenological introduction of a half-width of the electron levels in the hole band. Thus, not only the position of the oscillation peaks on the frequency curve may be determined, but also the shape of the absorption peaks may be described. The results are finally discussed. Professor A. I.- Ansellm is thanked fordiscussions. There are 1 figure and 7 referen- ces: 4 Soviet and 3 US. Card 2/3  86434 Oscillations of the Absorption Coefficient S/181/60/002/011/020/042 of Tellurium in a Magnetic Field Running Along B006/B056 the Optical Crystal Axis ASSOCIATION: Institut poluprovodnikov AN SSSR Leningrad (Institute of Semiconductors of the AS USSR, Leningrad) SUBMITTED: June 28, 1960 j Card 3/3  AID P - 2784 Subject USSR/Chemistry Card 1/1 Pub. 152 - 12/19 Author Bulashevich, Ye. A. Title A new laboratory method for preparation of phosphorus pentachloride by chlorinating red phosphorus in carbon tetrachloride Periodical Zhur. prikl. kh1m. 28, 4, 4-31-433, 1955 Abstract A detailed description of the method Is given. The phosphorus pentachloride obtained contained a very slikht amount of phosphorus trichloride and 25-40% carbon tetrachloride. One diagram, 12 references (2 Russian: 1930-1947). Institution None Submitted Jl 12, 1952  BULASEVICH, Ye. A.; TOLKAGRIN, 3, S. Preparation of alminum oxide dihydrate. Ilast, NA 1.9 no.10.- 123-124 '64. (I-MU 17:7)  I F C", "k, . L. BULASHRVICR, Yu.L. % I ~ Mapping graphitized rocks. R&zved.1 okh.nedr 23 no.2:59-60 F 157. (MINA 10:5) l.Gorno-goologicheakiy institut Ural'skogo filials, AN SSSR. (Prospecting-Geophysical methods)  BIILASHEV L CH, Yu. P - X y W t T 7NO ORDERS AND .7ii'vPT(r% PROrf%L*% A-D Influence of it nutgnetic fictEl on the formfion 0( Mrs- cmducling nuclei. Vn. 11. Bularlirvieh. J. -7N-FF I Amra. I U. IN. 113. It. is, imi-7111 il ).-rheo- -31 it, tlt~ BrIpVtMoilUttlill; Pli,es withill tile 14-AIY RK ft trilem haviog h sudam xvith respect to (Ire winsupertomfudivig plinw., and then c.Ak--. the Tnte of gtowilt of tire nuclei. For fig nt 4"K., tile t(Iiiii. rndius is 1.5 X 10-6 cm. and the surfnve Irnsion 0A'-' X IU- I crg./,rq. Col. Hathionun-  00- ve A **0 00 It 0e I 0*4 908 0 0 00 so caudwn of aw sha m comatims 'k go" metitte. ('11-V ISOM GLIurommm", Neend Cumcalrd. im the W 1 l wrostat swunipt I I the o e portion u( the roefgy - i Is the sum of tbe ebarecter mtk ormly of the iplememmT ::hem with a owfactcharpol vwbbk d. and the enrfly fetwatum of do art In t1if nondr. fumic*l imtkv. The i I a 0 In %ati'larl.'sy agnmenfol vAth expil. dot F. It. Rathmalm 000 coo logo Leningrad Imustrial Institutep 19409 lose use moba Hit O"T Qvi a" . T- " -1 1 1 "1 1 q S 1; o u a Av at D t, 1, 0 a a a a J 4 w ; u a Ak a a 41 losses 0 0 0 0 * 0, 9 o"Wili- 9- ago woo We 1 1 a 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 1 on-411 a a a 0 a 411, a 0 0 6 * 0 0 10112  I- )F j)7 jT jT jF W IT W JF IF U a U--- J. 1-1 T AIt AA 11111 M IP 9Lft- -L, a A. j1_1 k Ai s 004 0 0 00A 00 gas 00 00 4i: Mile appikation of the Inethod of radioactivity in search of=* in the alkau" rock bolt of the Urals. Yu.1'. Hsu. Glrad. sm U.R.S.S., .14T. sifillf, 1944, It a holu "c" ted. air wa- res'lifixt =00 0. 0 shovirtil the bight-li, emanstimi. 'to Ro j A $4.11 AWITALLURGICAL 1.11FRAIL0111 CLASIO'KATION '00 -7, 1_4 tw3aso will Ov an[ oftv it ;_610-61P U 99AIF -0 Aill . I I I I I - I - I - V 0 ot a at at KID 111RA An A I I N0 dAO' mile "0 us 10,110 go, 0 0 0 0 0 0 00 0 aj0 0 0 0 0 0 0 im o 4 0 0 0 0 q 0 0 0 0 0 0 0 T: : : : : : 0 0 0 0 0 0 0 0 0 0 0 0 & r * 0 0 * Am * a 0 0 0 0 0 a 0 0 0 0 0 6 Im 0 0 0 61~  00 uw Owwtu of Twrwirw *89414um it 1, fill. ldtlllV A-111 1-11. -l"I" 111.. ."1116 4 -- ..I.. fl'lll~ fit it., I r(Olval l"'t 'd . fit, 1~010 lovi-l' 14-lil'Itriv Hit- 1,1141i'm -~l 11- -1~' ld-wi, 'd th.- .4 md at I It 1"' M .111 g.", . .I.. Geophycial Section of Ylining-geological Inst.t., Ural Branch of the Acadeqr of Sciences.  The thetity of the interptetation of titdicimictive stionis ties. YUJI"Bulahe'.-jell. 1:1, q. Ak'Id. Aq,d S, 1 .1 R Sm Gepvkf_ It 6r,,61. 10, 46i) Che- Zent, I Russia lizime FAL) 149. 1. 1 L,~S% -Thr 111o I it'll I I, m .4 11'. entAnat ion If oul ~Allcr% of variou% kind* I, ttv.l I r, I fit., III, 'Sitnal ic-Aly. BY maLing I-criam wriplifting i-moilo-11, it.. Ciao'" ii.,l I- drlivvd: At' - (Al /?)(' m . Ili, It 'I - [fir (tio,11"'ll, ( di'mor 11-41 Ow '11111i'lou v-11" m.1 -.1 d. ,I I Ile l ive of ritimmlion %% tilt thr ml .-I Ow I .1 film 11-1 .,ml Oil Ili- I him lpm- III,- I I it,, ,.Rsm-, A . ~'IMIAW.l 41'.. -m '. 4 it .. . ... ..... 11 .... . ... I.- bomd. 11.1. oll't, .- , .14.",Awl, 4 Ih, d ..11mil"Itc, u. thr 11,11 11,0i'm ..I I M,  D In , n .1 the origin of the ionization of the air the &0i1. AbaJ, N.,-,k N ,'~' R.. .1. '~ It, IM. 4 fill, Mll I-111V F11 4)11 1,01110.61fal) 4 Ol. m '-I l1w ,,It 1% vall-I I-S, 1:911~.kl* IM, 111111171,11. M1114 I 111V .11111V111111'a 1114,111..1 g1'. it 1.11 ,1 11,111A Ill lilt " Ill it, .4 the .11,1101 ,4 lilt! rill.l. its"ll I'l'.111cing lot the I.- I'v 'I'll'I'loll Ill Ow arm. M. 4 '. M-'r  USM/Geological 'Prnspecting Mar/Apr 1948 Petroleum - Prospecting Coal "Use of the Theory of Neutron Core Sampling by Elec- trical Means in Prospecting for Oil and Coal Deposits," Yu, P. Bulashevich, Mining-Geol Inst, Sverdlovsk,14 pp "Izv Akad Nauk SSSR, Ser Geograf i Geofiz" Vol XTI, NO 2 Discusses method for calculating the retarding effect of fast neutratis. Delivered characteristic of the rook during neutron core sampling depends on the size of the neutron zone, and can change until it assumes a reverse characteristic. Presents a more effective 43.1,43 'USSR/Geologica,1 Prospecting (Cmtd) Mor/Apr 1948 method of using neutron core sampling In surveying fcr petroleum and coal deposits. Submitted by Aoade- mician L. S. laybenzon, 28 May 1947. 43243  YIII PO USSR/Geopbysics - Carottage, Neutrons MaY/Jun 51 "Theory of the Neutron Carottage," Yu. P. Bula- shevich, Mining-Geol Inst, Ural Affiliate, Acad Sci USSR "Iz Ak Nauk SSSR, Ser Geofiz" No 3, pp 30-37 Derives soln for eq of diffusion of thermal neu- trons taking into consideration stoppage of fast neutrons of source. Constructs curves showing distribution of neutron density around source for pumber of minerals and rocks that characterize presence of petroleum deposits. Discusses prob- lem on conversion of neutron diagram in connec- tion with variation in size of the sonde. Sub- mitted 5 Feb 51 by Acad 0. Yu. ShmJdt. 186T41  Ya wo/Geophysics - Anomalies Card 1/1 Pub 45-11/18 Author : Bulashevich, Yu. P. Title : Anomalies in the case of stratum-shaped disturbing bodies Periodical : Izv- AN SSSR. Ser. geofiz. 270-274, May-Jim 1955 Abstract : In the interpretation of anomalies of various force fields in geophysical prospecting widespread use has been made of the method of matching, based upon geological data and observed structure of the field without any as- sumptions as to the form of the body (stratum, ellipsoid, cylinder, etc.). In the present work the author analyzes the same mathematical expressions for areas where the form of the bodies are assumed beforehand to be stratum- shaped, without the nature of the anomaly being made definite; i.e. with definite limitations being placed on the type of anomaly, but not an the nature of the field. Eleven references; e.g. Yu. P. Bulashevich, "The relation between electrical and gravitational anomalies," Trudy Gorno-geol. in-ta UFAN SSSR (works of Mining Geological Institute, Ural Affiliate, Academy of Sciences USSR), Symposium'NO 1, 1950. Institution: Ural Affiliate of Academy of Sciences U3SR, Mining-Geological Institlllt(! Submitted : may 16, 1954 ~  BUIASHEVICH, TV.P. WMWAWA-MWM""d"ftWMMW Calculating Induced potential fields for spherical ore deposits. Isv.AN SSM.Ser.goofis. no-5:504-512 My '56. (MLRA 9:8) 1. Uralskly filial Akademil nauk SSM, Gorno-goologicheakiy institut. (Ore deposits-Zlectric propertion)(Prospecting--GeophysicaI nethod.9)  BULASHIVIG# Tu P.; ZARHARCHUKO, V.F. Z!,I-a ]Potential of a nAturally polarized ellipsoidal body. Izv.Aff SSSR Ser.geofiz. no.10:1174-1181 0 1566' (MLRA 10:1) 1. Uraltakiy filial Akademii nauk SSSR Gorno-geologichaskiy institut. (Torrea.trjaj electricity) (Ore deposits)  6u~jj S~l C-V,C,14 YU P SUBJECT USSR / P~YSICS CARD 1 / 2 pA - 1676 AUTHOR BULAEVI C, J`U. P. TITLE On the Self-Absorption of a Radiating Sphere. PERIODICAL Lrn.teohn.fis 11.6, fasc.11, 2599-2600 (1956) Issued: 12 / 1956 The derivation of the correction for the self-absorption of a radiating sphere, which was given by M.A.BAK et al. Zurn.techn.fis,26,379 (1956) can be consider- ably simplified. The density of the radiation cl~r_rent impinging at the point A and originating from a volume element dv - 2nR 2 sin 0 d 9 dR has the shape dI = (Ke-~1(R-Rj)/R2) cos 0 dv. If this formula is integrated over R from R 1 to R2 and within the corresponding limits over 9, one obtains arc sin a I (2nK/4^) f 'r sin 9 Cos 9 1 1 -e_~~ (R2-RI) I dQ. One obtains r-09-~ 2, R2 Ri = 2r a and here it applies that a fl - (a/r)2, where a denotes the radius of the sphere. With the substitution x = oos 9 there follows 1 2 2 _'7 PjirVx a I - (2uk/~ e 6- - )x dx. The computation of this interval is carried out elementarily and results in:  V Zurn.techn.fis,26,fasc.11, 2599-26oo (1956) CARD 2 2 PA - 1676 (3/4 a) 1 - 1 2 a]~ 0 36"A 2 f 2Qa)2 + 2,u a) 9" 6 Here 10 - (4/3)na (K/r ) denotes the density of the radiation current in the case of lacking self-absorption. The computation of the radiation intensity j which corresponds to measuring with a punotiform indicator is reduced to the above mentioned integral formula for I, but without the factor x in the function below the integral sign. This integral is taken in finite form in the special case of the spherical surface j/jo 2 1a -2,," al. 2nKa d notes Here Jo e t e intensity in the case of lacking self-absorption. The latter formula at a --) oD goes over into the known expression j - 2nK for the radiation intensity on the surface of a radiating half-space. INSTITUTION:  3(6,10); 9(6) PHASE I BOOK EXPLOITATION SOV/1924 Akademiya nalPSIS"S)"RI. Ural'skiy filial. Gorno-geologicheskiy institut. Geofizicheskiy sbornik, no. 2. (Collected Papers on Geophysics, Nr. 2.) Sverdlovsk, 1957. 207 P. Issued also as Its Trudy, VYP. 30 Errata slip inserted. 2,400 copies printed. Resp. Ed.: Yu.P. Bulashevich, Doctor of Physical and Mathematical Sciences; Tech. Ed.: L.A. Izmodenova. PURPOSE: This collection of articles is intended for field geo- physicists and exploration party leaders. COVERAGE: These articles discuss many new techniques and some theore- tical considerations involved in gravitational, magnetic seismic, electrical and gamma radiation exploration methods. In 4 articles V.N. Ponomarev discusses various aspects of magnetometry; N.I. Khalevin - the study of elastic wave propagation; and G.M. Voskoboynikov - gamma radiation. Extensive bibliographies accompany each articles. Card 1/5  Collected Papers (Cont.) TABLE OF CONTENTS: SOV/1924 Rodionov, P.F., V.D. Kokourov. Application of a High Frequency Electromagnetic Field in Exploration for Sulphide Deposits in the Urals 3 Rodionov, P.F., Application of the Non-grounded Loop Method in Search for Pyritic Deposits in the Urals 24 Kokourov, V.D., and A.A. Bashmakov. Field Vacuum-tube Volt- meter 32 Bashmakov, A.A, and V.D. Kokourov. Alternating Current Generators 36 Kokourov, V.D. Low-frequericy Field Comparator 42 Bulashevich, Yu.P. Similarity Principle in Modeling the Potartzattuff-of Ore Bodies Caused by Current 53 Gelfand, I.S. Alternating Field of a Vertic al Electric Dipole in a Bedded Medium 60 Card 2/5  Collected Papers (Cont.) SOV/1924 Gelfand, I.S. Alternating Field of a Horizontal Frame in a Bedded Medium 72 Ponomarev, V.N. Magnetization Curve of a Sample of Magnetite of Contact-metasomatic [Replacement] Origin 84 Ponomarev, V.N. Portable satuzation magnetometer 87 Ponomarev', V.N. Application of Magnetometry in Exploration for Pyritic Deposits in the Southern Part of Zaurallye 93 Ponomarev' V.N. Temperature Effect Problems in Magnetic Compensation Devices 97 Bulashevich, Yu.P. Magnetic Fieldata Horizontal Layer With NonIfffIrDrm-DI-s-tribution of Magnetic Minerals 100 Orlov, G.G. Nomogram to Determine the Depth Position of Bodies by the Points of Intersection of Potential Deriva- tives Curves Taken at* Various Elevations 105 Card 3/5  e te.,Medlat tyle Ila ,.qes latlori 116 'astle 0 07 't 'Ossl~ss, .-re 0 ted ,qe ol~S ~ 'Opass- '?ap its of Of '? 1,acted oa-LDe Go, Ikeel y..ef ~Or 10"L _1ected -g .1 - 'LOCI lt-5,es O~ tyke 10r, Is Ila -LeVl" -4all -qe tlo'(1 -Lorat e '3-ra tloa ,,,a,a I-ater Ilea Ila S'-'-P of N99 Tcjj a slope- -CopaSa sea teTTL j .q e 1-33 .4 la tyle S 'atle I I'a tyie 'Fla 13. StA J.,hoc 01, O~ Y, , ,., V~e %P os-Its 0 C S tije -Fla "40, -DeP Ve 0 ti"S -g.1 - OTIVIat , 140-5-aTIIIS i_e-0-f" ,tar j Oble'm 0 S, It tj'as the ,,Ipe jk.1 - ?r ii III jva - 00ast-clic -ql~v O~ ?,001CS d O~ Ket)~Iod lo aa jketllo as tv 'bajeloc olame e ltj Syiovt Sectlo ,ate I tae a jl* Of oj~'~ -~a tjo 1101 les NpPT pad,' '13~sa" TOL ar lolis '8016 130'a -jxi -? - t O~ Ta-, ,ste 0 .ate S the 14edLVO YOV COVBP_ dlo 0,00vl ~ S'Y- rajas 1: or -aeO'as L~-Yo-r!, ~Lomo -q0 Se  collected Papers (Cont.) SOV/1924 Karasik, M.A., and V.A. Bugaylo. The Genetic Relationship of Magnitogorskiy Granitoid Massif With the Eruptive Rocks of Basic Nature 173 Timofeyev, A.N. Computations of the Interpretative Grids for Geophysical Surveys 178 Timofeyev, A.N. Graphic Interpretation of Geophysical Anomalies by the Method of Tangents 189 AVAILABIE: Library of Congress Card 5/5 MM/ad 6-15-59  BULAS7.M,Tftv.Ttx.P.; VOSIOBOINIKOV, G.M. in Ural coal mines and the possibility of coreless boring of a pprtion of exploratory bersholes. I2,r. A SSSR. Ser.geofiz. no.1:109-11Z Ja 106' (MIRA 10:3) 1. Ural'skiy filial AN SSSR. Gorno-geologichookiy institut. (Arespecting-Geophysical methods) (Coal geology)  SOV/169-59-3-2292 Translation from: Referativnyy zhurnal, Geofizika, 1959, Nr 3, pp 33 - 34 (USSR) AUTHOR: Bulashevich, Yu.P. TITLE: The Analogy Principle for Simulating the Polarization of Ore Bodies by Current PERIODICAL: Tr. Gorno-geol. in-ta, Urallskiy fil. AS USSR, 1957, Nr 3c), pp 53 - 5 ABSTRACT: The author shows that it is impossible to perform an unambiguous distinction between ore-bearing and rock anomalies when using the conventional%l'e'lectrical 2rospecting methods, since the anomalies of artificial constant and quasiconstant fields are connected only with the difference of the specific resistances and do not depend on the current passage mechanism. It is of great importance that a deposit behaves In a current f1e2d as an ideal conductor, beginning with some higher conductivity of the deposit compared to the conductivity of the enclosing rocks. Card l/ 3 In this case, the intensity of the anomaly is determined only  SOV/169-59-3-2292 The Analogy Principle for Simulating the Polarization of Ore Bodies by Clirrent by geometric factors - dimensions of the ore body, its shape and depth of occurrence, but not by the degree of difference in electric conductivi-~y. Boundary values of the anomaly correspond to comparatively small differences in conductivity. Thus, high values of electroconductivity of pyrite occurrences are not the basis for a reliable distinction of ore anomalies. The author dis- cusses the influence of the polarization in the zones near the electrodes on the observation results obtained by the method of induced polarization. A criterion is developed for the analogy between results of t1he simulation and field investigations. This criterion will be l/ P a - a - )o/Jres - Const for spherical deposits, where a - resistance of the surrounding medium; a - radius of the deposit; Jo current density in the normal field; J,es density of the residual discharge current. The Introduction of linear 4- + dimensions of the object into the criterion is connected with the fact tha. the anomaly from a sphere is proportional to the volume, 1.e, a3, in the residual field in the zones Around the electrodes, while the field of Induced polarization is proportional to the surface area. The assumption of an intense polarization of the zones around the electrodes and their discharge after Card 2/3  SOV/169-59-3-2292 The Analogy Principle for Simulating the Polarization of Ore Bodies by Current, switching off the feed current is of essential importance for the mallogry criterion. Special experiments under laboratory and field condittions- are recommended for checking the criterion developed and also for explainLng, the influence and extent of polarization zones arourd the electrodes. A.A. Smirnov Caz~d 3/3  BUUSHZVICII, Yu.P. .134ajAl -~- -.:- - , , , ~ :.-,A~:' Magnetic field in hOriZODtal strata with ';-Iete-.-;-)Irranou-s distribution of' magnetic minerals. Trudy Gor.-greol. in~?t. , ~-.30tlOG-I,G4 157. (I,fIRA 11:7) (~Iagnetic fields)  SOV/169-59-2-1253 Translation from% Referativnyy zhurnalj Geofizika, 1959, Nr 2, p 35 (USSR) AUTHOR- Bulashevieh, Yu.P. T 17-M - The Equivalenc~e of the Vol'Ime and Surface Radiation PERIODICAL: Tr. Gorno-geol, in-ta..' Uraltzkiy fli, AS USSR, 1957, Nr- 30, P-, ~146 - 153, ABSTRACT-, The anthor PrODOSeS the. method of zzubstitution of the equivalsnt surface density (ESD) ior the volume density of 7- -emitters to simplify the coqputl-ation of Intensity of the I -emissionlrom volume sources, A formula connecting the magnitude of volume density with the ESD is derived for an emitting stratum covered by an Inactive lkyer. The formalae, ar-, cited for the case of an emitting stratum of unlimitled. thickness, out- cropping on the surface, and of an. emitting thin layer, Examples are given. for computing the intr~.,nsfty of T -emission from -ar, =11mited barld, fro-M a semiplane, and from an element of a circul~Lr- ring. The author points cut that the results are best in the ease of lirn'.tsd bodies, when the volume. density Is substituted by the ESD. It is assumed for deriving the formul'a'e and for c-31cul.ationS 4 at-. the original. and resox-ded emissio~is are monc- ,,h Card 1/1 chromatic. A pedcn~v  .1 rl C 1. '11c". L'.4 I,c L cli C. uy Y. Report pre-~-ented at 2T)d ij', AtCr-.S--f*r~1-l-c-.-,--'-~  SOV/.49-58-1l-'11/18 AUTHOR: Bulashevich Yu P.. TITLE: Method of Determination of EmanELting Coefficient of Rocks in Natural Strata (Metod opredeleniya koeffitsi~enta emanirovaniya gornykh porod v yestestvennom zaleganii) PERIODICAli: Izvestiya Akademii Nauk SSSRI, Seriya Geofizicheskaya, 1958, Nr 11, PP 1383-1388 (USSR) ABSTRACT: The concentration of emanation in the pore air depends not only on the radio-active elements but also on the coefficient of emanating and porosity, or more exactly on their relationship. Therefore, the emanating fields should be classified according to their Radon (or Thoron) content and the emanating coefficient. The emanating coefficient should be determined in the conditions of natural stratification of rocks, This can be done by means of combining the emanatioh and gamma intensity measurements pei~formed for the same points,, The method is simple, The pore concentration of emanation depends on the relative emanating coefficient and the percentage of initial radio-active element, while the intensity of gamma radiation depends only on content, From two equations describing this relationship, it is possible Card 117  SOV/ 49-58-11-11/18 Method of Determination of Emanating Coefficient of Rocks in Natural Strata to exclude the content in order to find the emanating coefficient, To find the amount of concentration of emanation the equations (2.1) for Radon, R., can be used (Ref 2) where cLR, concentration coeff-icient of Radop-7 I - porosity, volume weight, q - content of radium, If the uran P content is substituted, the equation (2.2) is obt~yned. If the emanometer*is scaled in emans, the initial electric curren't iRn gives the value of concentration, i,e,. iRn = CRn, When the amounts of Thoron and Radon become eaual, this current for each element can be expressed as iTn eX Th -A L (k Tn + kThA); Th Rn eXU -AN kRn U Card 217 therefore, the transition coefficient can be calcill-A  OOVI 4 9-58-11-11/18 blethod of Determination of Emanating Coefficient of Rocks in Natural Strata iTn , as k = .:-- = 0.8. 'Rn The assumption is made in this case that all the ions from the decomposition of Thoron remain in the camera of the emanometer, To find the relation of the initial current i Tn to the content (in percentage) of Thoron in the formula (2.2). the concentration of Thoron is of ionisation (Ref 5) from defined: C kRn Tn ~ kTn + kThA i,q,(2,3) is used, The actual found by eliminating the factrr iTn 'd the new equation 0,42i Tn 9-In In order to determine the emanating coefficient, the percentage of thorium. and uranium in formulae (~.2) and (2.3) should be substituted by the intensity of gamma radiation. Thus, the equation (3.1) is obtained where A~ B and C - conversion coefficients (Table 1), II - residual ions. The determination of the*emanating Card 3/7 0  SOVI 49-58-11-11/18 Method of Determinati.on of Emanating Coefficient of Rocks in Natural Strata coefficient in practice depends on the various conditions. The most common case is when only one radiating element is -present. If I = APU (4.1), then from (2.21 arid (4,1) the relation (4.2) is obtained for uranium. Similarly., the relation (4.3) is obtained from (2.3) for gajwna radiation of Thoron, By using the formulae (4.2) and (4,3) it is possible to find the 6ifferent emanation characteristics, For instance, three types of Radon anomalies can be distinguished by taking account of the emanating coefficient O'Rn greater than I (slow emanation), TI greater than 5 (Radon aureole) and less than 1 (increased initial radiation). The first case of Radon anomaly is found in the layers of granite-gneiss and graphitic rocks. The measurements were made by the author (Ref 11) of ionisation currents and of the intensity of gamma radiation and some of the results are a-iven in Table 2. According to this data the relationship of thorium and Card 4/7  ~3OV/ .49---58-.11-11/18 Method of Determination of Emanatin- Coefficient of Rocks in Natural Strata uranium in granite-gneiss rocks could be expressed as, O'Rn ip - O~8 'Rh ja 'Rn PU ITn Card 5/7 i~e. (xRn ly a-T.- The graphitic-carbonaceous-silicon slates are character- ized by the high emanation of gamiria radiation, the ratio of aR]a/A being equal to 3~4, The emanation of Thoron in this case is small, sim~~lar to granite-gneiss rocks, In order to determine the emanatinG coefficient of exo-contact rocks in the granz--te intrusive layers,,with the variable concentration of Radon showing some correlation to the gamma intensity, the measurements were carried out by means of the two lines method (L-1 and L-2), The results of one line (L-1) are shown in Fig,1 (1 - ionisation current of Radon, 2 - Thoron.. 3- gamma intensity), In order to determin'e the distribution of  60VI 49-5S-11-11/18 Method of Determination of Emanating Coefficient of Rocks in Natural Strata emanation with depth for the maximum points of C Rn' two holes, 4 and 4.5 m deep, were dr-Jiled (Sh-l. Sh'2). The mean values of the ionisation current and gamma intensity are shov%,n in Table 3, It is possible to determine the relative emanating coefficient of Radon at the maximum point by the application of the whole value of gamma intensity, Thus. for the point 2 of L-1 (Fig,l) with volume weiGht -2 g/cm3 the ratio aRn/11 = 1,,7 is obtained, It is possible to calculate this coefficient for Sh-l b.Y takinG the mean concentration of Radon and the gamma intensity re3ative to L----1 (Table 3), The surplus of Radon will be 16f--/Cl emans and of gamma intensity 171 mkr/hr,, Substituting these values into the formula (4.2) the relative emanating coefficient of Radon for Sh-1 was found to be 2.1, Similarly, the emanating coefficient can be calculated for Sh-2 and L-2., Gezerally, it can be stated that the measurements show that the relative emanating coefficient represents a constant value dependent on the kind of rock, When the calculation is based on Radon, the 3oeffici.ent is equal Card 6/7  8OV/ 49-58--1i-11/18 blethod of Determination of Emanatini~ Coefficient of Rocks in hatural Strata to 0.24 for bituminous granite- Ene is s, 3.4- for granite- carbonaceous-silicoa slates and l..8-2,1 for granite- --neiss in exo-contact granite intrusion layer, There are 3 tables, 1 fi6ure and 1l references, all of which are Soviet.. ASSOCIATION: Urallskiy filial AN SSSR,Instit-ut -eofizik-i 0 (Ural Branch of the AC.Sc. USSR, Institute of Geophysics) SUE~1ITTBD,,, November 22, 1957 Card 7/7  VP ON 14 '1 Ali, Ali a All I I'maii -lit D.21 -111W  21(8) AUTHORS: Bulashevich, yu. P., Kartashov, N. F. SOV/89-6-5-23/33 TITLE: On the Shifting of the Equilibrium Between Radon and Its Decay Products in an Air Current (0 advige ravnovesiya mezhdu radonom i produktami yego raspada v vozdushnom potoke) PERIODICAL: Atomnaya energiyal 1959, Vol 6, Nr fl, PP 584-585 (USSR) ABSTRACT: In a mine in which emanating rock is found, the exhaust air contains radon and its decay products. The shifting of equi- librium is calculated. Radon concentration may be calculated o-- from Y 0 + lo - " - Q (1), where q denotes the 4 xx S quantity of radon yielded per unit E.,rea in the mine, v - the convection velocity of the exhaust a.irl c - radon concentra- tiong A - radon decay constant, 1 - perimeter of the excavation, S - the area of the excavation. The exhaust air is assumed to move in the x-direction. If c - 0 ar.d x = Ot c a 11 - exp(-~ x)] is calculated from (1). As t A v v (time during which the air volume element passes over the Card 1/3 excavation), the following is obtained for the  On the Shifting of the Equilibrium Between Radon and Its SOV/89-6-5-23/33 Decay Products in an Air Current RaA-concentration (in analogy to the solution of equation (1)): do A 0 [1 - exp (-At)] . The RaA-concentration, dt A A which is in equilibrium with Rn, is obtained from 1 exp(-At) AE1 -exp(- A At)l A = Q 9~ 'A - + - -A A( ~ 1) 1 - Thus, as shifting coefficient 'qA for RaA equilibrium the following is obtained: -exp(_~ t) A Li A -rresponding coefficients A _~ - A-A 11- 71 .The co 77:7 + exp(-At for RaB and RaC are derived in the same manner, and all three are recorded in form of curves in degendence on t (0 to 60 min). The sum coefficient 'IA+13+C is formed graphically. If the YI-values and Rn-concentration are known, it is possible from ci ='qic VpC/1 to calculate the concentration of any decay Card 2/3 product. In the case of nonuniform emanation, calculation of  On the Shifting of the Equilibrium Between Radon SOV/89-6-5-23/33 and Its Decay Products in an Air Current 'Q is more complicated. At the air exhaust outlet a higher concentration may be expected than in the case of a homo- geneous emanation. There are 1 figure and 5 references, 3 of which are Soviet. SUBMITTED: January 6,1959 Card 3/3  S/049/59/000/12/007/027 E032/E591 AUTHORS. Bulashevich. Yu. P,, and Khayritdinov,. R.K~ TITLE- On the Theory of Diffusion of Einanation3 in Porous Media& PERIODICAL: Izvestiya Akademii nauk SSSR, Seriva geofizicheska-%ra.. 1959, Nr 12, pp 1787-1792 (USSR) ABSTRACT: The present paper examines the basic equati.=s of 'Iha theory of diffusion of radioactivf! emwations In porous media, and gives a general deri-vation of the diffusion equation, taking conve.:,I.ion into account The diffusion and convection curronts are defined Eqs (2.1) and (2.2), where c is the concentration of the emanation in the pores, D is the diffusion coefficient, I is the porosity, Q ).s the -zate of liberation of the emanation into the pores per un:Li- volume of the medium, % is the decay C-:)nstant of the emanation and v is the velocity of coiwec t -i ve transport,, The rate of charige D1' Lhe amount, of the emanation in the pores in a volumc. I c---n then be -written in the form given by Eq By transform-iiig j Cardl/4 the surface integrals into voltime iiitegr-als and equat  S/049/59/000/12/007/027 E032/1;591 On the Theory of Diffusion of Emanations in PDrous bledia the integrands, one obtains Eq (2.~), In the case of a uniform porous medium, and with v = const, Eq (2~5) is obtained. Eqs (2.4) and (2-5) also describe the case where the pores are filled by a liquid rather than by gas. If surface phenomena are excluded, then on the boundary between two porous media, the total diffusion and convection current density must be continuous and this is expressed by Eq (2.7). The normal velocity components on the separation boundary are subject to special boundary conditions. In particular, in the case of filtration of an incompressible liquid, Eq (2.8) must be obeyed. Bearing this equation in mind, the boundary condition (2-7) may be rewritten in the form given by Eq (2.9). If the diffusion of the emanation can be neglected in comparison witli the convective transport, then D 1 = D 2 = 0, and the degree of equation (2-5) is reduced. Accordingly, Eq (2,9) gives a single sufficient condition on t'he separation boundary, namely, the condition given by Eq (2.10). In the Card2/4 absence of convection, Eq (2.9) leads to Eq (2.11)~ 0  S/04()/59/000/12/007/027 E032/1591 On the Theory of Diffusion of Emanations in Porous Media In this case, Eq (2.10) becomes an extra requirement, It is shown that this extra condition is satisfied in the case of a stationary distribution of the emanation. In the case of stationary diffusion, Eq (2.5) leads to Eq (2.12). The above equations, namely, Eq (2.12) and the boundary conditions, may be rewritten in the K form given by Eqs (2.12) to (2.15), where c ~c and D D/1- In the major�ty of papers on the theory of the emanation method, use is made of Eq (2.13) and the boundary condition (2.15) However. the condition (2.14) is usually replaced by c 1 = C 2 and no indication is given as to which concentration is being considered, i.e. volume concentration or pore concentration. To check this point, an experiment has been carried out and it was found that if the dimensions of the micropores are greater than the mean free path of the diffusing atoms of the emanation, then the concentration in the pores is continuous across the separation boundary of Card3/4 two media with different porosity. It is pointed oU0,  sl'049/59/000/12/007i"027 E032/E591 On the Theory of Diffusion of Emanations in Porcus Media that the numer: ical results obtained by Budde (Ref 8) are incorrect because his calculations were carried out on the basis of equations of the type given by Eq (4.1) with boundary conditions (4.2) and (4,3)., It is shown, however, that under these boiindary conditions the correct diffusion equation is C - ~a C = 0. D The experimental work reported in the present paper was done on builders' sand with a density of 1.110 g/cm-), porosity of 39% and humidity of 4%. The diffusion length was found to be 80 cm and the diffusion coefficient 0.54 x 10-2 cm2/sec. There are I figure and 10 references, 9 of which are Soviet and 1 German. ASSOCIATION: Urallskiy filial AN SSSR Institut geofiziki (Ural Branch of the Ac.Sc., USSR, Institute of Geop~hjsi SUBMITT D: April 4, 1959 Card4/T  s/o4g/60/000/02/006/022 E131/E459 AUTHORS,. Qlashevich, Yu.P. -, and Shulyatlyevv S.A. 7'-'--"-'- " TITLE. The Optimal Conditions of Activated Continuous Prospecting PERIODICAL~Izvestiya Akademii nauk SSSR~ Seriva geofizicheskayal, 196o, Nr 2, PP 253-262 (USSR) ABSTRACT3 The authors describe their research on the distribution of activated atoms along the axes of wells. The activation was effected by the generator of neut.rons being in motion, stationary or pulsating, The relationship between this distribution and the speed.of prospecting and the parameters of the medium were also considered. The amount of atoms of a radioactive isotope produced by the activation during the time to was calculated from Eq (1.1)., where X - constant of decaying, No - maximum possible number of activated atoms. The rate of activation per unit of a cylindrical layer is given as Eq (2.1), where z - coordinate of the observation point, vt - coordinate of the source of neutrons, L - parameter of the distribution, A - rate of activation. The expression (2.1) corresponds to the Card 1/4 experimental distribution of the thermal neutrons. The  S/049/60/000/02/008/022 E131/E459 The Optimal Conditions of Activated Continuous Prospecting experiments showed that in the case of a Po-Be in water and r >20 cm, r2 = ke-r/L is the density of thermal neutrons), the migration distance is equal to 10 cm. The linear density of the activated atoms n can be determined from Eq (2.2), where I is obtained from Eq (2.1). The initial conditions are defined by the relationships (2.3) to (2.10). Fig 1 shows the distribution of the activated aluminium in bauxite calculated from Eq (2.9) and (2.10) for different speeds .of prospecting. It can be considered that the intensity of y-radiation is proportional to the concentration of the radioactive isotope as shown by Eq (2.11). The optimal sounding is obtained when its length is equal to the distance between the generator of neutrons and the point of maximum concentration of activated atomsi this can be found from Eq (3-1) (see Fig 1). Fig 2 shows the relationship (2.10) calculated for the concentration of activated atoms Al in bauxite and the speed of prospecting for a constant soundi ng d ~ 150 cm, The Card 2/4 optimal speed can be calculated from Eq (3.2) for the  s/049/60/000/02/008/022 E131/E459 The Optimal Conditions of ActivAted ColitillUOUS Prospecting condition (dn/dv) = 0 and d =-constant, The rate of activation produced by the pulsating generator of neutrons can be determined from Eq (4.1). In this case the conditions in front of the generator are described by Eq (4.2) and those behind it from Eq (4.3). The density of activated atoms at a distance d behind the generator can be calculated from the latter equation ,when z = vt -- d. The expression (4.3) can be simplified when d = 0 and can be shown as Eq (4.7) and (4.8). If the activation is performed in respect to one out of many elements in a rock, the proportion of neutrons Qo used for activation of that particular element can be calculated from Eq (5-1), (5.2) and (.5.3)- where 'To is the mean lifetime of a thermal neutron in a rock, KO is the mean rate of capture of the thermal neutron, v is its mean velocity, 1i is the density of i-atoms, ai is the corresponding rate of capture, No is the total number of thermal neutrons in a rock. The total number of activated atoms of aluminium in the Card 3/4 bauxite zone of the hydrargillite sti-ticture can be  s/09/6o/ooo/02/008/022 E131/E459 The Optimal Conditions of Activated Continuous Prospecting calculated from Eq (5-8)- between the proportion of of Al and the content of figure that the magnitude than the concentration of and 15 Soviet references., Fig 4 shows neutrons used k'203 It can I iEq 5.10) A1203, There the relationship for activation be seen from this increases faster are 4 figures V ASSOCIATION; Urallskiy filial AN SSSR Institut geofiziki (Ural Branch of the Academy of Sciences USSR, Institute of Geophysics) SUBMITTED2 June 27, 1959 Card 4/4  BULASHVICH, YU.P. "Nuclear geophysics"; collection of articles on the use of radioisotope emissions in petroleum geology. Izv. AN SSSR. Bar. geofiz. no-8:1223- 1226 Ag 16o. (MIRA 13:;) (Prospecting-Geophysical methods) (Petroleum geology) (Radioactivity)  L F V; c. 11, U I:) PHASE I BOOK EXPLOITATION SOV/5592 Vsesoyuznoye soveshchaniye po vnedreniyu radioaktivnykh izotopov I yadernykh izluchenly v narodnom khozyaystve SSSR. Riga, 1960. Radioaktivnyye i-zotopy i yadernyye izlucheniya v narodnom khozyaystve SSSR; trudy Vaesoyuznogo soveshchaniya 12 - 16 aprelya 1960 g. g. Riga, v 4 tomakh. t. 4:' Poiski, razvedka i razrabotka poleznykh iskopayemykh (Radioactive Isotopes and Nuclear Radiation in the National Economy of the USSR; Tran- sactions on the Symposium Held in Riga, April 12 - 16, 196o.in 4 volumea. v. 4: Prospecting,Surveying, and Mining of Mln-' eral Deposits) Moscow, G6stoptekhizdat, 19061. 284 P. 3,640 copies printed. Sponsoring Agency: Gosudarstvennyy nauchno-tel&Lnicheskil-y:komi-tet Soveta Ministrov SSSR. GosudarstverTnyy komitet Soveta'Ministrov SSSR po ispoilzovaniyu atomnoy energii Eds. (TItle page): N. A. Petrov, L. 1. Petrenko, and P. S. Savitskly; ed. of this volume: M. A. Speranskiy; Scientific ed.z M. A. Speranskiy; Executive Eds.: N. N. Kuz'mina and A. G. Ionell~ Y Card 1/11  Radioactive Isotopes and Nuclear (Cont.) SOV/5.592 Tech. Ed.: A. S. Poloaina. PURPOSE : The book is intended for engineers and techn1clans dealing with the problems involved in the applicaticn of radioactive iEotopes and nuclear radiation. COVERAGE: This collection of 39 articles is Vol. 4 of the Trans-*--c- ticna of the All-Union Conference of the Introduction of Radi.o- active Isotopes and Nuclear Reactions in the National Economy of the USSR. The Conference was called bv th- Gosudarstvennyy nauchno-tekhnicheskiy komitet Sovet MinistrovSSSR (State Scientific-Technical Committee of the Council of Ministers ---f the USSR), Academy of Saiences USSR, Gosplan SSSR ~State Planning Committee of the Council of Ministers of the USSR Goc;udar_=tv!Fr- nyy kom-itet Scveta Ministrov SSSR po avtomatizatsii i mash'-no-- stroyeniku (State Committee of the Council of Ministers of the USSR for Automation and Machine Building),and the Counle-.11-o-P Ministers of the Latvian SSR. The reports summarized In publication'deal with the advantages, prospects, and Card 2/11  Radioactive Isotopes and Nuclear (Cont.) SOV/5592 development of radioactive methods used in prospecting, sur- veying, and mining of ores. Individual reports present the results of the latest scientific research on the development and improvement of the theory, methodology, and technology of radiometric investigations. Application of radioactive methods in the field of engineering geology, hydrology, and the con- trol of ore enrichment processes is analyzed. No personalities are mentiorkL There are no references. TABLE OF CONTENTS: Alekseyev, F. A. Present State and Future Prospects of Applying the Methods of Nuclear Geophysics in Prospecting, Surveying, and Mining of Minerals 5 Bulashevich, Yu. P , G. M. Voskoboynikov, and L. V. Muzyukin. -19 Neutron and Gamma-Ray Logging at Ore and Coal Deposits Gordeyev, Yu. I., A. A. Mu-kher,and D. M. Srebrcdollskly. The Card 3/11  - BULASHEVICH, Yu.P.; SENIKO~BUIATTO'Y, I.N. Experimental testing of optim= conditions for continous ac- tivation logging. Izv. All SSSR. Ser. geofiz. no,4:541-543 Ap 161. (MIRA 14-3) 1. Institut geofiziki Urallskogo filiala AN SSSR. (Radioactive prospecting)  DYARDIN, 1. G., NTIA~~----,,~4'!C)l A'a P r" I Vi ': 0, ?,. f- i~- * proumu in tL:-,i ur --:: , roport to bo aul"Itt~d for c~~i Nualoca- Erakow, rokad, 24-30 C,-Vt 1,("'22.  .-BULASHEVICH,-Xu.P ; SENIKO-BULATNYY, I.N.; DEYEV, L.L. Gama-spectrometric activation logging,. lzv. AN SSSR. Ser. geofiz. no.9:1153-1157 S 162. (~aRA 15:8) 1. Urallskiy filial AN SSSR, Inatitut (;eofiziki. (Radioactivo prospecting)  2. L 1235-66 PIT(;) ACCESSION NR: AT5022651 UR/2874/65/000/003/0003/00151 _:'AUILHOR: Bulashevich, Yu. P.; Khalevin N. I.. Timofeyev, A. N.; Kuznetsov, A. :5,V .4.5 Vq TITLE: Selection of a site in-tbe Urals for sinking a spRerdeep boreho3,e SOURCE: AN SSSR. UraL'skiy filial. Institut geofiziki. Trudy, no. 3, 1965. sbornik, no. 4: Metodicheskiye voprosy rudnoy geofiziki Urals, (Geo_~: physical papers, no. 4: Methodological problems of mining geophysics of the Urals), 3-15 TOPIC TAGS: superdeep drilling, 14oho discontinuity, Conrad discontinuity, gravity survey, seismic survey, seismic profile, aeromagnetic survey, magnetic survey, earth crust ABSTRACT: Since 1961, several Soviet scientific organizations have carried out inve.s- tigations in the'Ural Mountains to determine the optimum location for drilling a .superdeep borehole. The arqa covered extended along the range from 511201 to 580hol: N. Lat. The announced purposes of these studies, both of scientific and industria-L-i import, were as follovs, 1) thickness, composition, and stratigraphic'sequence of geological formations; 2) nature of the geosynclinal sediment-"granitic" transition zone; 3) thickness and tomposition of the~*,"granitid" layer 4) nature of the gran.~  14 [A~CESSXON NH: AT5022651 itic" layer-"basaltic" layer transition zone; 5) physicochemical changes in the rockes with depth; 6) types of igneous intrusions and ore bodies; 7) physical propeil- ties of the rocks and the nature of discontinuities (Conrad and Moho), and 8) chanpa in temperatures with depth and the thermodynamic conditions at great depths. Result,s of preliminary studies indicate that the most favorable site for the borehole will probably be in the Tagil-Magnitogorsk synclinorium in the Verkhotur'ye-Krasnoural'ok region where a number of industrial boreholes have already been drilled to a depth of 1.,2 km. Final selection of the site, however, will require additional gravity and magnetic (terrestrial and aerial) surveys as well as deep seismic sounding and reflected-vave profiles. Orig. art. has: 6 figures. [ER) ASSOCIATION: Akademiya nauk SSSR.' Urallskiy filial. Institut geofiziki (Ural Branch, Academy of SciencesSSSE; Institiite of Geophyqij~s) SUBMITTED: 00 ENCL: 00 SUB CODE: ES NO REF.,SOV: 012 OMER: 000 ATD PRESS  BITIAT, A. J. KACZMAREK; A. BULAT "Tables of suggested conditions for machim manufacti3ring.11 P. 95 (Mechani , Vol 25 No 2 Feb 53 Warszawa) SO: Monthly List of East European Accessions, Vol 2 No 9 Library of Congress Sept 53 Uncl