SCIENTIFIC ABSTRACT ROZHANSKAYA, N.N. - ROZHANSKIY, V.N.

             /Rolanskaya, Yu. A. 6 of Euclidean geomefij.' M6skov.'-.,Oblasf Peda- -909 Inst. U Zap. Trudy.Kafedr Mat. 20 (1954), 59-123. (Russian) The article i's of an expositoty- nitur6,161lowing Mlbert but with some deviations, e.g. the 6nfinulty axioms are used at an earlier stage, and spatial geometry is treated concurrently with plane geometry. Special emphasis is laid on the concepts of completeness ar A consecutiveness. The latter means obtaining the full implications ol the axioms in one set (like those relating to incidence), before addine new concepts, Worth mentioning are; a detailed proof of Jordan's curve theorem for polygons on the basis of the axinms of incidence and order alone; an axiomatic discussion of affine geometry with respect to consecutive- rle,Ss (where the first set of axioms cons sts of the incidence and parallel axioms) ' separating out tae axioms referring to one straight line (where it turns out that they are complete in the euclidean, but not in the affine case); relating the concept of completeness to group theory so that the automorphisms of a certain group correspond to the different realizations of a set of axioms. H. Busemann (Lot; Angeles, Calif.). i 7 Tt~ in        53 Construct'lon D~-,si;ms Constr- action 1. I-an 'us C a 40 C,- ~uandard 1'.- et.al Coil s ruction "Lints 1'4-th "'cns F or Year,"' G. and V. B, Ludrii] r 0 Stroi Y or., r, m oil' -.11 r f bescr.;~by~s u1 n p-int- or u lant v- "n rroducti~-. capacit -. 0~`- n d S 11 ~.Ind!lrd tl'V:~-S c f vc'.,,L1 - cc-nstrizet.ion p S y of ?Of r r re sl~ M dy~j~ upland 4'_-,M: tcr-s er l,-Ca G;vos shotcl-,es of' --ouzan,:r arrful;~ci:mn'u of maiin ic 1on4i'.1-,-_':jnjl SeC4~40n Vith anci dir-onsions, tan~,~ gencral pi ar, with seclonda-2-v struict-L-res of I-FIFS slals and preffa-br- cated in f ced- s .:I r ~ d, tyl-cs. .,,'1o,in.1 is of 2,types: Ts -or,, concrete slabs. Foundations are concrete, Amil, I-er-ins are pre."-aLri-ca'i.ed.reinf6reeti c oncre e , and v -all s . are bricIr wit"'hout 1---lastuer or cinder 11ceRs with pilaetercd surface ,rcc--;,~On-olltput plants, a pressuro tmter reservo-ir 1,a-s -,eon dosigned.~to =rlace For the 4C, s.-.d und~arr-c~.nd rosc-1-70 Tese'r~rolr 'Vi`. tmTer. Viiere .0 CM=Nll~- U C -Z7 ZC S fUll'O rco,.i.blo, centrally, 're-,tin;7 of s tancluird plants is 7 r c r: o,,:e d b dist.r'~ct ~catir~'r~ T-1 7L_~ C.~ ~,,rl ~-usC. 26~2 .117   AA clla,~ furoacr h~ tn ix u~~ i h-im plant-gra,tkv jrtxn~tpotwz !'I K~L-. ton ~f 6 , 2j 4 - :1tUct, as of le-an Kit, pt. -Aim-d frnm peat'vvi f--un.I tL, shoken the time of the melt b 1 14-28% alid tn efler! fuel crotioin ies of 11 ~3-4 of kcvorifing t~ a tu, voy ~f 4ant I r2c tice rn oper-ation ww, pea. g.u, -rcvLsuin is ziadt f- inject- in liquid ftml3 wn,en am--~y c, fortify a C~ deteriarating in quislity- Di9tr: 4E2c/4E3d/4F4c  (Factory management)  AUTFORS' Zakharikov, N. A., and Rozha 72-1-2/3-3 TITLE: The Increase of the Luminescence and Enrichment of the Torch in Glass Smelting-Furnaces (Povysheniye svetimosti i obogashcheniye fakela v steklovarehnykh pechakh). PERIODICAL." Steklo i Keramika, 1958, mr 1, PP- 4 9 (U55R)- ABSTRACT; The, scientists Costa, 1. M. Koburneyev, R. Scherman, V. F-Koj~rtov.-. and A. V. Kavaderov (references 1, 2, 3) as well as the Inst .itIutIe for the utilization of-cas of the AN Ukrainian SSR are' of the opi= nion that a luminescent-to.rch in glass smelting furnaces transmits less,heat to the glass mass than a non-luminescent torch. Experi=.- ments, however, which were carried out inglass smelting furnac ,es, produced different results. Wi-th gas- and air consumption being equal,,the heat current rose by lo O/o in the case of the lumines- cent torch. In the glass works of Kiyev this led to an increase of themass output from 6oo - 700 to 700 - Boo kg/m~k per day an~to a. decrease of the specific fuel consumption by 15 - 18 o/o.'The same opinion is express ed. by M. G. Stepanenko and 4. A., SheludyalCOV (reference 1). After several methods, for the enrichment of low-calc--. rie generator gases had been investigatedland rejected, the most ith an addit Card 1/3 rational method for the combustion of, these gases. W3- ion  The Increase of the Luminescence and Enrichment of the Torch in 72-1-2/1-3 Glass Smelting Furnaces. of liquid fuel is suggested, by,which '"a the luminescence af .the , torch is increased.-As liquid fuels petroleum spirit and, where peat and pit coal with gas:purification:are uskid, peat- and pit coal tar should be used, which l eads to a saving of,.gas of,12 -- 1-5 O/o,~and, ,, , torch.' At ina .ddition,Ito an, increase of the luminesc3nee of the . the institute forthe utilization o! gastho met-hod ~ as ''well As .-the necessary equipment for the comb-i.,~.~onvf liquid fuels was worked out (figure 1). The. liquid fuel -tomizec~, by steam of 3 4 atm. excess pressure. Figure.2.shows influerce exercisedby the can- sumption. of vapor.and.of temperature of the.-blast furnace gas upon the relative output of.sooty,.Car.bon,.which -&as proved by,A. V. Ka= vaderov in his paper.(reference 1). Various-experiments.carribd out, with liquid additional:-fuel are.then,descftbed. Figure 3 shows the modification of the hea17 current impinging upon the continuous glass melting furnace in dependence on the ratio between the consumption of petroleum spirit and that of gas. The same results were obtained also by. AW _V. Xavaderov preference 1). Furthermore,.experiments un= dertaken for theinvestigAion of the,influence oftorch lumines=. cence.upon the operation of the furnace are described. Figure 4 shows.the dependence of the.saving of;gas on'the consumption of pe- Card.2/3 troleum spirit. Experiments were further carried out with a view of VIC. ASSOCIATION: Institute for the utilization of C as~, AN Ukrainian SSR (Institut ispoltzovaniya gaza AN USSR) . AVAILABLE: -of'Gongress. Library Card 13 3     (Glass furnaces)        (Irrigation) (Pamping machinery)   a I is to U it M .01 is itan, a is6 All JJJJ JOIS Jell b"Apal Ow itaAs14ce 0 0. M lwV '11 A - I "' a '#'- 1 - & - L~ 'j ~ b ' .- 0 'I Ruz ti 00 a ~0 1 1 ;1 410 Of the Atocitic energy of helium and that of the hylitages wAlecule by the method of the deusity Ir 0*S The caka. pvc for the knilzatkm eucrxy of lie the val,w 00 041 66 tool. the cakd. value fim the di-wx-n. currgy "s 4,11-5 v. 0.0 mupwtd (4) the 4~xpt 1. Y*luc, A AA, as* 00 =00 -00 coo 00 to 0 000 see, -00 00 Is A 111.11. AWALL CICAL- LITERATURE CLASSWICATIOn' 1 low, t"bill. we 0 *to. *.I" I i~~O 'Nags -4 1 Illail -AV a., is, I I I , S F . q j0 T a U 0 1 1 x III A] a 3 0 IF U : 11 "1 OL) 0 0 .0,0 IN0 0 0 0 0 a 0-6-0 0 0 ~14800 4100 0 0 0- 0 060 : "0  0 * 0 Ali * a 0 41 OD 41 016-4 0 0 6 0 0 0 0 0 0 0 0 0 0 @-*-a 4-0 44 4 6 -OF* 6 -0-9 0-0-0-0 * --*-- a a R A Is 17 A rt ju JI V U JA is 16 IJ M 4, 41 11 I a I A ki 11 it is is is it it 11 It AD M it c$ f: !~ 1; L I G It A. I L 4 it r 9 4 S I v Y A I AA Is CC PP U ' 1~ ", .... ;.; 1 -1. iW, 6.0 ..."1 t 4 Quantum theory at sparal iectron orbits in a Coultimb Id. i. L). R.111anAll and Va. 1. F'rrsikel. J. E.pl 00 AeWel. PAY4-M. S.~S. R.) S. lj7-MS~ljk:;8); cf. t*. 00 Z .6143'~lct the Sommerfield theory, if the nuckim had charge of Z more than in the electron wotild ct,flult. ! ith it. 0 0 if Quantum -mechanically, with the citicept )f _06 dcocan (" a H-like nucleus with Z mine th.,in 137, thi- Thinction is derived, but art evallmli,in if Ihi. harv- -00 00 00 a: 08 -z* 0 00 '3' zoo 00 00 X: xO 0 00 21 00 zoo 04 -see 66 r -1 'i An L 04 a 4 is A, '41 L% 0 -V 4. 9 Is $1u 11 It It It N ~fto It I ~v,i 0.0 0 0 0 0 0 a 0 00 0 ~'40 101sal 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 00 0 ! 000000000000000000000: 0:00060-0400000600 e 0 0 00~  z 1 6 1 of If 11 11 w 1) 16 1 fil- N I I L Y A C C L I f, A-M -f- Q- -)L- 4 CROF-Pi - ~V! ---- psocti"S Garv-1-55-6-4UR-effectilin wernkon uctors- 1. 1). Hot- ,A lingli-h 549-50)(19-10-The cifect of the space chi&Fsr C should be taken into account when galvanometric rdrvts are studied IF& wmicanductors. rbccwrtkal consideration.' kdd to the 11"mulas tim",fory for the cak"s. of milact go -1910 rVaJAIAIJIV Of WjIjk.Ond%ICtfW% (l(K.P11114% FAM not ItiVen). -0. S 00 U. hl .00 X69 age a CID a Is t 0 S L A .11ALLURCICAL LIVERAIL41I CLAIISIMAUCk oat 431111 a., Lis U 1A A I a rw 0 M: IF I If It 1 0 0 3 b U AV 10 it a p IF OF at Is a It 9 It Ct tt It of 16n I VA    ACC NRt AP7004500 SOURCE COM UR/0030/66/000/010/0-10?,/0104 ALYHOR didate of phya oo-mathematical aciano 11ozhans.kiyp I Ds (Can os) ORG. none TITIO- Investigations in magaeto)Wdrodynamics O*u SSSR. Vestnik# noo.10, 1966, 102-104 URCE: AN S TOPIC TAGS: magnetchydrodynamics, interplanetazy space, magnetoactive plasma, elec-: trolyte, liquid metal A//C/,5f6?-5 COX)XEA9,F1Uee_ A~STIRACT: A conference on magaetohydrodynam1Cs,(D1HD) has,met in Riga every.even year since 1958. 'The fifth conference in this series met, on 20-25 June, and, for the first time, representatives from outside the SSSR were present (France, Poland, Czechoslovakia, and East Germany). After an opening paper on the origin of magnetic fields in planets and stars (by M. Steinbe~k of East Germany),.the.conference was divided into four sed-* tions: IDID in outer space, MED of low-temperature plasma,.MM of liquid metals and electrolytes, and general'questions,on MED., In the'first section, Do A. Frank- Kamenetskiy reported onthe physical interpretation of.,MM in describing the mechanism of.interaction between a sonde and the stream of.pla- it encounters. V. 0. Ge Go and B. ssed experimental data on near-electroder= Dro A. Lyubimov, V. Parfenav discu p esse's , in an NO chanael.' ~ Us, I.: Ivawv and Yu. I., MikhaylOV 0-3ned the,movement of a two-phase conducting systen in an electromagpetic field. -In thesectiola,devoted to Card 1/2  FACC NR- AP7004500 I-MD in liquid metals and electrolytes, Le A., Vulis and his co-workers reported on the ow ercurj in an open trough having a transverse magnatio,fields More than 30 .L1 of m papers Were devoted to consideration of different aspects of induction and conduction theory in 1QM machines using liquid metal. Much of this work was done in Latvia, and Esthoniao Application of NO -to industry received much consideration, particularly in ~.ore beneficiation, metallurgy, and foundxy practice.. General papers on MHD:includecl reports.on stability of M currents, the problem of streamlining masses of ~an elec- trically conducting liquid ina magnetic-field, solution of two-dimensional~problems when the on6-dimensional solution gives too coarse* an approximation. It was resolved that themost significant of. the i6ports be,pixbliahed- in the journal Xagaetohydro- dynamics, .1.ublished by the Academy of Scienzes'of the Latvian SSR, SUB CODE; 20/ 5=1 DATE; none C.rd Z/2    ------------- PHASEI BOOK EXPLOITATION. SOV/3746 Rozhanskiy, Lev Lazarevich Staticheskiye elektromagnitny7e.preobrazovateli chastoty .(Static Electromagnetic Frequency Changers): Moscow Goseneraoizdat,-1959., 94 P.. (Series: Biblioteka po avtomatike, vyp. 11) 149000 copies printed. Ed.: A. M. Bamdas; Tech. Ed.: N. I. Borunov; Editorial Board of Series: I. V.'Antik, S. N. Veshenevskiy, V. S. Kulebakin, A. D.,Smirnov, B.-S. Sotakov, Ye. P. Stefani, and N. N. Shumilovskiy. PURPOSEs This book is.intended for engineers and.scientists engaged in electric automation, electrical machines., zmd,,other.,branches.of engineeringloonnected with the use of alternating,current of elevated frequeneye COVFRAGE.- The author presents the theoretical fundamentals of electromapetic~ frequency changers and discusses theireircuit diagrams, construction'. design methods, and possibilities of,application. More attention is giVen to frequency multipliers than to,frequency dividerso which aretreated only briefly. The author makes, great use.of his,'own experienceand of his published and unpublished works. He thanks Professor A. M. Bamdas for his help. There are,61 references t 40 Soviet (one of-which is a translation), 14 English, and 7 German. Card 1/4  Static Electromagnetic Frequency Changers SOV/3746 TABLE OF CONTENTS-. Foreword 3 Ch. I. Principle of Operation and Circuit Diagrams of Electromagnetic Frequency Changers ~7 .1. Principle of frequency multiplication 2. Methods of frequency,multiplication 9 3. Single7phase multipliers with thr,eerphase power,supply 4. Three-phase frequency multipliers 21 5. Principle of frequency division with static electromagnetic devices 23 Ch. 11. Application of Static Electromagnetic Frequency Changers 1. Frequency elevation of machine generators 26'. 2. ..Welding with elevated frequency current, 27 3. Induction heating of components 28 4. Fluorescent lamps current supply 30. 5. Power supply to.motors with increased speed 31 6. Utilization of the measuring part of the speed regulator as a sensitive element 33 7. -Measuring direct currents and voltages with,frequency,doublers 34 Card 2/4  Static, Electromagnetic Frequensy Chang-.~ SOV/3746 8. Utilization of-a frequency doubler as a magnetic amplifier with the output in, even harmonics 36 9. Other,applications of frequency changers 38,1 Ch. III. Theory and Design of Frequency Multipliers Without D-C Excitation, 42 1. Some design prerequisites 42, 2. Design methods 3. Effect of gaps iii the magnetic circuit 46 4. Effect of capacitive compensation 47 5. Determination of currents'andi voltages of the frequency multiplier 6~ Simplified method of determining voltages and currents of,elevateid,:, frequency 55 7. Design of frequency multipliers with three-phase pow6l- supply 59 8. Accounting for,dissipation-reactance 66 9. Selection of the kindl.of steel 67 10. Losses in.steel and copper 69 11.1 Example of designing a frequencytripler 70 ~Ch. IV. Theory and Design of Frequency,Multipliers With Direct Current Excitation 75 1. Theory of frequency doublers Card 3/4  - I- I - -- - I - 11 ------ Static Electromagnetic F-requency Changers . SO.V3746    it Is U w Is 116 9 a e -1k fa 1- F A__lk P a t- Is k A A I L M Wig) footings iAO,;%OplftlIt% well so 'A -04 Oil Ar d 6i i, 316 a 3247. Theory t T__~-, ~,t Rjozha _31ektricheatvo~-I;O_,_ Iff Rual no 00 The ana ly-tical method. uMs'eatod:is~ unitable foruny multiplieltion,", .*I ratio and works 'With -6- pinh cum cis. =gnetimation durvo-'It'~emblis% the external wharacteriatio ot the zmatiplier t 'be ca lculetad, irith. ~4" so Is 0, -for v6rio a -t-,- 1 d due 00 !.-atisfactory accu= u ~. y yes of ~ oa a and anables the 0. ,irimry current to -be determined. '.-,The Ormxvloa -given concern a 0 .3 fro-uoney triplar und -The expressions fo:r the,orima 0 it current forum short-circuited secondai~r in~oivo Bossos,functions of the age -00 4r first kind. Lathamatical appmiices astabl&sh the dcauract o glee, f t~a method and juatify.the sim)lificatione introduced. F. mraUB:: lip 74; 1. r 11 It to ME 411 1[% Via 0 0 9~0 0 0    - - --,7"  (Matveev, Arkadii L'vovich, d. 1956)       87158 S/144/60/000/008/005/oo6/xx :EO41/E335 Scaling of Static Frequency Multipliers where B and H defined in Eqs. (4), are,constants k k for a material. The method used in Refs. 1, 3 chooses instead and H as reference quantities. Table 1 a 3 g3--%res Nalues of these constants f or se-eral materials. Normalized.representations of a magnetization curve and a permeability characteristic are. given in Figs. 2 and 3., respectively, The little squares and -rircles,;, etc~jn F�g. 3 relate to the entries..in Table l_. Substituting Eq. (5) in Eqs..(l), (2), we obtain.Eq. h'ich leads to the 7 w scaling criteria of Eq., (8). There are 15 conditions, of which 8 may be chosen arbitrarily and'7 used as criteria-proper., The latter are t (time);. i., ing T 2 (currents in -,the input, bias and output windings, respectively); r (resistance of n Iz 2 (t-Ime constants of bias and output, ,.bias.wi.nding); _C' n Fi . 4 is the circuit of.a frequency doubler ~wi th 9 a common*load and bias wi-ndIng The only addi-tion-al cr! terlon Card 5/10       (BLOOD VOLUME). (COLTS)     )503-65 3SSIOWNR--'~-AP50120961--, MWO14 0 hydfa~it TIT Stu dy 6p;, .Lc tAdSa:;-airdra -t4-- itS.~ Stu 'dy- i - L t i ~-'- ijjij~sjg~'-'j~i -ma for the,.-st .iA f h y o :t is p -enomend~--tifiiA  s~F 03,-. 505 6694- S 5 IOR' M, P I A 5C ~t7 ? vodo- z r~,I,~goc -imer a w~o t -r:160.68.e~mi , arm d" cald- rqce urea--are'.Xevieiir1 ic-lmpact-~ oi-A .--.real a ura to s tu te h dr4ul is:~= e-pos I pipelines in a specified flow~iriitd IfitervA. -W -_Aq- :f i~-~h~.drqsys somewhat limited~ number -'pipe id ud-iTy-,-~Aqed- airdra teT6 d1 1 a ej~ e M r is" i o o og c#, - _pprqac,.:-,preseqte a-- corred or ki'' Antrodudtion'6 eniionl:6 b f dim I - - , ~Y__ a"- C.Yr ,ormut - e mo- at t ment -of yalve clqs,ng !for the impact rise in pressure h q t ,,t. e p rob I e t ion'--*.,fi~ V"Ailues o hete';~dorrhct 1 dete f 6 reduced to the experiments, rin nati tors under specific circumstances. For- ibe,~vurposes. of tbe_.test~~ng..,-,rqquired.,- in this study, a device was built to ~permit;.:%~k dt mehtat on tin, er-- a.--- y rau tance in the pipeline under investigation -7of 7 sup -to.466.bars -A;-w6rking.Uq uni 'to 'e-~;Oo 116 'Th t. was s Ia Lb flow-rate Of.UP to 1.5vlO Vsd6. e large enoug chd investigation of a stra 46-'i~~'i'~r 1-6--In Li6e ifii pa.:t was caused by closing--of .-~t h d 11 f he,line:VIt luai~41ectro- y rg4 ca va-ve. Tests were conducted on typ an a ..-,dtdndard~.dii~ W._10 working liqu~_4_. ,gion pipeli~ea.' Both laminar and turbuleb.t flow conditions were~-Ana ,results are presented and discussed in graphic and tabular form. The study re- veriled good agreement with certain well ktiown theoretical functiqua and-express 77  'J --'7:!7!'-7 7 va uei of a pressurev' shdc"k- stanc6s of-direct- raui -W.L y,.Mys therefore this experimental material can-be used- hydraulic impact in aircraft, hydrosj,ptems*, det ork--of the----,corTec he ekmihati t imii4i:,*A~~est gat ions'o -ASSOCTATIOM.'~ ~--'-No ne mffnm 'M -a.refined calc     1 -11 ROZIII. MIKIY, f-U,) st,arsIrl'.) 'MILIchin-y sotrudii'k; BOGLANOV, LV., .1-:3pirart;       GILELES, Ley Khatskqlevich; KOKIF, Georgiy Mikhaylovich, prof.; MITIN,   e Medical: 16iructi6,i,:,. s       S 6 1 a I IT it a It w IS is It 9 0 11 1 is V, x 11 9 a x 8 AS V a 8 to a A a4- I % UA :0 C A 53 539.374 6511. 2sculiarities of,the change saf crystalline structure of a metal:,on -00 deformation insurface-active madia. X. K. I Rozbenskiik T. A..Amfiteatroys an( "rl 7~' - -0 )-6 J F. A. Rabinder. Dokl. Akod. Nnuk, SSW 1 76-M 97-8 (1951 see Russian. 60 o3 Thin Cu wire was stretched in a 0.5% solution of eloic acid and in a a a 0.5% volution or cetyl alcohol, both solvents boing "caroaene. The degree so 3 of plastic deformation wus found to be greater than that occurring in an inert medium. Tje num or of grains also increased. It to thought that in 0 a surface--aCtiTO medium crystallittis break dorm moro acally into smaller gra ins and cove more easily ralatiire to one another. A. L. Mckay 0.0 wee 4, 41 44 *still alK GMT III or If SO 3a II 4T TV IF tv to a 9 aa It9 It a ft Ixt 7~ 14 4 AM 0e. 0 0 a 0 0 a 0 0 0 0 0.0 0 0 a off 0 0 as 41'6'6~6 6 0 O'Ce 0 a 04 0 0 0 0400000000410096* 'as a 0 0oi   V, N -T - t- N z electrical 'Conductivit C;~chmirnter -d the chwo of With Intermittent deformition of metalll[c sinEle enstals, V. N. Razlianskil, Yu. V. Goryuaov, and 0. D. Shchukid (M. V. Lomonosov State Univ., Moscow). Da"yAkad. N4uk S.S.S.R. 105, W-2(105); Sovid Research Phys. 1956, 5-7(Engi. lndatlon).-~-S~ gle of 99.99% ~zn tm under tension i were subjected to intemittent and tbe resistance was tnestsured. No evidence was found of r;hs ithe slip ione. I). humb V a,-C- t    Alm 4f.- VA Iliad si. dwm -or -tile Owen %10 tted fl! in toe Co. ot it It ur - A ",to a, we tit it j119 TA -too. ll~ '40 z __7 Card  0 120-2-27~3_7_____ kdTHOR: Shchukin,,Ye. D., Pertsov,,1\T. V., and Rozhanskix, V. N..' TITIE: A Method for the Investigation,of Irregularity of Plasti -c, Deformation. (Metodika Issledovaniya Neravnomerno.sti --plasticheskoy Deformatsii..) ivl PERIODICAL: Pribory i Tekhnika -Eksperimenta, 1957, No. 2, pp. 98 - 102 (USSR). ABSTRACT: Jump-like deformation of metallic, mono-crystals at constant loads is.fully discussed in References 1 - 3. The results of previousinvestigations have shown.thas. in order to obtain more accurate data for the,investigation of the effects of.evalanche shear, the sensitiv* Ity of the channell.and the frequency pass bands of the channe R should be increased. In,the present article the authors describe a method of continuous registration, of SmAll, sample deformations with an accuracy of down to 50xand frequency pass band of the channel 0 -.2000c/s, and of, simultaneous small changes,of the sample resistance with accuracy down to,O-5 x 107'j, ohm and frequency band from, a fraction of acycle to 1000cls. A schematic diagram of themechanical.part of~the apparatus is~given in.. Figure 1. It is,assembled on a vibration.proof and temperatureinsulatediplate, the sample used is a wire Card 1/2 0.5mm diameter,,3.30mm long., The. channel of the., register