SCIENTIFIC ABSTRACT WEYROCH, J. - WIATROWSKI, S.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001961520020-5
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
September 1, 2001
Sequence Number:
20
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R001961520020-5.pdf | 7.05 MB |
Body:
WEYROC1119 janusz
Role of the eacnomistin the Industrial enterprio - r-Y
intervi, i with. Prof. E.LiptnSkt. Przegl techn r1c.41:-
14 0 '(2.
,-_~~YROCII, Janusz
The guaranty of the development, of our cconomy; interview with
Minister Kazimierz Olazewsl:i. Przeg.1 techn 86 no.15:3,6 11 Ap 165.
ME
a 0-0 6$ S 4j 6~ O_#7 O-St 0 a 0 4
IE001-11now- M
1 10 it U 1) 4 is I# I? te if 11 21 n v x 14 10 12 U mis 3617 XNA: it ma won*
A ---- --
00
go
00 -00
00 c 1
-as
00 a J.
Acad. Pckwim Sci. If Leshits. BmU. G-SA- 233-259.'jW&4da','1'9_37.
Z
too Gmmwiv.-Tbe types and, transfortnatione, of the normal C6"dhmtes of
a Risawtuian Umtric In four dimensions are ortudled under the hypothesis .00
00 't
that the coordmat;;"olf sorim, liarticulir systern tran accommR,w tall 6196
00 .3 G. C. McV. -96
rules I's -I'd
if! age
*0
so's S so*
tie 0
41,8 1 L "TALLURG IKA-LLITIM1414141:CLASSIFICA11CM i use,
o L
lojc.j it all Qok arl _11T, 5;VT 411411 dil d" it. 10
U TS Av so is. 0 61 2 At 4 3 04;
'v PIP P-tv P Do It it R 51 -K It 11, it It w0 a 1 '14
0 fe *~* go 0 *904 000-00 49's GIs **@**so* 000*009409~
a
W 4 0 00 0-00 0,90 OWO *so*A
N-9 0 0 9,0 :1 0 :0 0 0-0.0
P31V4
a 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0
0,3. is 14 1? 4 ;# a Ad Is is
A C I-A. J- L_J_4__AA -00 Q DR- I
go
00
of
s us Natassat. 1864-1937.
d1als
L
1,
1
4
Of ,10g.
0
eta Phyl.
.
00
to
0
000
a
0
o 8
,U;, IAl!
-0-6 _10-9-0-0
0 0
4 0:
do
00 0
-
_
-
0
-0 0 a 0 0 000 0 0 0 0t
ks it u H m a % Ly a 0 ip $11 '1 a) w "o
A.--I A it a J, a I A j
00
00
0
ary nake.
telawks
-00
-00
-00
-00
Aloo
A =00
roe
600
000
are*
::00
tiff
UOO
I'violl
via., NO*
L.-I-i "viol' - --- -- too
V till:
AV 10 As
u INN 9 a If
0 off 0 0 0 0 0,41 0 f sie * 0 0 0 0 0 0 oes 00
*0 00-00 00 00 0 000 0 0, 0 0 0 ors, 0 010000 006 0000 foe 0
10 f- It tl 14 11 w It 10 It a n 14 IM I# it A If 11 It It P is m m x It 0 it it is id at
A a J_ /&-_L 1, k f to It jkA I k j k a I-
-~t.j
0e
460 , " ~ 't
4L Two robllwititdc rrod#la oi I)Irmc*n r1rchon, JAII IV.
WrysLwllllolf (JAST11'"6411 Univ., 137.
-C2'(I%IG)--Thc mcond of the mutick do&riLwtI cArlicr
(Nalure 137, -d(Ws, 109) is coinparcil Aild t1w1trAited With iti
00 e(quarri-tri. It i, '"lly throogh the
14 splAwlitli"ll Otal 11 '4 11 r),virtm 1w.
.00
I-ml pualuctims" M. I'cl(V ;%e
Zoo
-09
-Al
tie 0
1114110'
.4 1 SSIONT') .&P a- cat llcptf -Wilrl-ll-aw
4 1 1 F--F--r -T--r
a I M a
u 15 to '-'l; cr'l, tv a a a, x a at r IS it MO 4 1 1- t 0 Put 0, 61 a
ti 00"l,
I I v It a a pi Is Id (Y 1$ to x11 it A a ita ids liu'xb4o 1 a U IN 40:7
A.
A-J.-
CAP(of_.. log, -.0 of- cooff
"C".1as w"x
09
sod .00
WlYMOMV,-J.. AM) RAAWk A-
.00
at
00 am obtsined ft a IM .00
MW fMM thm do o *wdow of a pokin an 4W-o& 'o
06 boo do ovado at& rM patkk
in ro
00 is fowid to be.a.vOlwo lb'did VA",WVWPMd .40
06 jr an 0 WMINK fisolwim lu me
than pal "goo
zoo
00
zoo
f0 VAN Wq f-,V
oF MOTION ~l P'
00 A 0
n e-
;;0
AO
zoo
see
Ao
-iLA MITALLMMICAL LITIROVOI CLAWFICATIo
1 134.1 o"IT,
C-V as( allill aw CE-V Ist
u AV to 4 MlA1 8 ad0 N 0 9 a a 2 1
I'l;, P, C, to It w dig aitaIt aM cc Ig bro ;i14 . I 1 .1
0 Vo 0 0 0 0 0 0 0 0 0 0 0 0 a ~; 0 $ 0 * 0 0 0 e 0 0 0 0 0 0 0 0 0 0 0 0 0
"o0 0,00 0 e 00 0 0 0 *,* 0* 00 1. 00aa 0 0* 4 6~0 o a o o *10a o
14-SE I -
00 -V I F-A -A-A Ak .0 "-X
100 A
1.41 7Fi5j-
06 81 .00
S)MIZ: 531.18 514 .00
admom it 41ROMIN a 40"Waft weft so *A
00 defteflOO." W9fmm"wj~#jw RAW A. Am -00
AN. PWW L, 9, W 1) M-3S (W~-T* eqwdm of .40
awdon arn damW pwd* Wkh * mow*# V4* tba
00 vaodty of' 1W m dw*W bd1w* ~ fmm I
04ndm br-mv. Odm*.~Wd,am Wma =wm Ot 4,
fm putkie (1%0 amd 2041
000 0. J. IL,
age
We*
!see
00
UTINJITW9 CL,%%UVJCAj4*
I DOW ".64" see-
Ili? aml Cot 111JISJ104(l L-' I ~ VA&M *AVO Ilk 0
T -,#-T ZA I I w 0 0 1 19 Is 0
u AT 10 ".1; It
ft L; e"
0 0 * 0 * 0 0 0 0 0
01
~o 0 01* 00 0 0 4
I a I IF 1 4 0 U Ij Id It L6 If 4 If B V U M X M 9 X 0 4 41 4 0
,-A 'k a
J 4- 04:42) A*D -00
_tt!~ COO
00 40
00A
010
00 it .0*
00 rwi6w a" exam la do dons" d lobiwomm.
-00
=sift waba I obdtrmmlbrams*ddflk%L wpvop-
0 t"f rkys. fWw. 9 (No. .00
0 =At 1) W33
mdm at ask do" POWN lAbitt.
0 A, f -A -00
60 S13 ONS)) im * sb*b ~ by wo 0
eQN~dm in anw, Amm 0. J. IL,
=00
00 0
00J '06
06 Le 0
00
00
IF
coo
aoo
=09
;p
'61TALLIM41CAL LITIP&IM CLAIIWKATKOI
:46 *0-
...........
ISO.. i
14AOVI 44F (wr -lot 48,111d"t NSAIII Ifi,
U
0
.Wlb 0 0 K cl I It s! 40 rk 1 14
0 0" o 0" 0, 0" 0' 0, 9, 0 49 It 0 0 0 9~9 We 0 0 00 0 0 0 0
re :1 : : :1: 0 0 0 40 0 *.0 0 0.0 0 f it * 0 0 0 0 a 41 0 0.04 0 a 9 9 0 * 0-0 41
0 0 a 0 0 0 0 41 0 0 0 4 *-0.0!0.1
I 1 4 it u lj 14 it 4 It u " an w -26 a bill its) No 1611 1110441 041404.~~
"0 A.0
ps"9641 A.* f4vvfsT4% -,Wit
00 __Oo
00 A
00
1 , a 00 do dymAdo 41
so ::g
npw via @m "W" a# ftbL wmw~. J
4NO, 1) (10M.-PRvok
Os Arfe PA
00 tOw. S14 (190)1 an Obbiftd-is a - WNWU
100 WAWN I w 0A plawnift of the $"WON^, mdwmft -40
The cowl a," of antiloal. an dwOMOA is vftw 6"
00.4 '000
00
00
Wes
toe
solve 40
i-4 IN 04o
0000 4' 'Ole40;* 0 0 0.90 0 0, 0 000000,00 00 0 41 0 0
0 0000 0000 0 0 0o 0 * o o 0 4_0 0 00-0 o go oo*,oo ego-*** *ego
%. I .: - - : I
WEYSSFMOFF -Jan.,
'We On'this the world.`, L
&11M
2
it-4
l
P
3
.
ctwY
IS4.
ciruca
61 7
2
7:
-
It isicisi;*
ef r_ lbi~n.46tsuspic~ amopg p 3
W:sva' - udy'
6e'tim the st of con-
acome
__uthil
invariant dfide
Vhich am
figuritiong-, ol - point-events i
-
0 -
ir'
Lii,ih_i6ptcd t
o, er
t
equ e
I-parAimitter.1,00reIrltz group
_
;
nce of di-.,q
vie~vpoint,
n th4a
icsA fur
ituii Otto
int (or p6i~t-e ~~iitj is suitable-.
the aut argues. at
th th
,e.pc
_ .
f j
for m*
M~dci~, and that icro hysics t mutt;
ON or ikatrop
OW7
be 1004~by-some-m -,elemen
appropriate primitive t
q'In't eL
of:r
ai~"direcW NAVd,
notion
Thii:ekii"
c~ n 0 t
ront.,,'Afid--~ "Oarnftiv mlatio f, fie ge
'
I IPP; 14 A
tlWo Aliph wave k6n Thell:
concordant conji&I 14N4en:
r
h - t Pis I en tat ased on the
b
CA
resu ing p ysi geome r).
Mthemati dal.". JFP~hyif6ii~
L6. ie'sn
45-pararfieter groupi of "Li :tra sforinations~cif Xdimen-
-
'
_
-
k_
o
o
or
lx~ . t
M6biu
the
ij
ijj6m~
s gr
up of
ph
-t f (66i dimcpsloiri%-Thit; groupj::_:.4
rans ormations- c
iAlc& Max- wieifis` equitl6fis f6r*6 a' arl
like'are inv,
b~
,.an in-~botks'~:by. Bat6hian hn
as_~Dftw'employed_
t
unhing anij -as never t -exploited in jArticle: -
buth
li Th te'resu t o t e. presen
p ysics. c-principat,concre paper
d' h
h
"All
that:dt,, I;irg*, istances. -t e croscopic domain~-t e-
_
u~ of 'Eudid6n W
te group. approac es-.t e gro _.mcitionsip us
Th' formu atio*nV this I
-dilitiftiodi..' e
precise
,
"n r6duc ion 6(-a' unda iiintitl 6ith I; ed
-i t t M it is suggest
e
l
,
't the mbre'comp ete t r~;Al idvol~i the in4odu&'
d hi -,in
-A 6nsiants e
-s~cifl h
A
ith i bik qici i
_q~Fnt pz
--- ---- sad6a, Calit.)
20913
PI/047/60/011/001/002/002
D235/D306
-7 4o0
AUTHOR: Weyssenhoff Jan
TITLE: Could Einstein's generalized theory of relativity be
experimentally proven'in a laboratory ?
PERIODICAL: Post~py fizyki,, v. .11, no.1, 1960, 109-112
TEXT: This is a scientific news letter, in which the author dis-
~c usses the-Mbssbauer Effect. Thn, definite experimental confirmatim
of the influence of a gravitational field on the frequency of the
lines of the electromagnetic spectrum is of great interest. As
soon as the earliest satellites began to spin agound the Earth, the
idea,of satellites with atomic.or molecular clocks began to develop.
This idea may become redundant because two years ago,,the tech-
nique of, ?-rays undervient radical changes which, in due course,
will proba.,bly lead to the proof.of the Einstein generalized rela-
tivity theory-Together with themajority of theoretical physicists,
-the author has no doubt whatsoever as to this possibility becom-
Card 1/5
20913
:P/047/60/011/001/002/002
Could Einateizfs generalized
ing.a-fact ractorls,note-VThis belief i's expressed by the au-
thor in a f4O9O1tz1:tOtg.-,It began ivith the discovery by. R. Mbsebauer
.(Ref. 1: Z. Phys. 151v--1249 1958; Z.'Naturf. 142,.211, 1959) of
the "recoilless" emission and "recoilless" resonant scattering of
g-rays. A.certain fraction Y of nuclear rays,bound within a solid,
I-S radiated without Individual recoils of nuclei. The momentum of
the,recoil is transmitted to the crystal lattice as a whole instead
and does not, therefore, produ( e any visible Doppler broadening or
shiftof spectral lines. This effect has nothing specific to do
with the application of recoilless quanta emission to the study
of the gravitational field. Thti problem was opened two years later
by two letters to the editor-of Physical Review Letters by R.V.
Po6nd and A.G.,Rebka Jr. (Ref-3s Phys. Rev. Letters, 3t 439, 1959;
3, 5549 1959). In their first letter, they pointed out the possibi-
lity of applying recoilless ~ radiation for measuring the "Einstein
Effect" in the gravitational field of the earth. In experiments
with W128,~they evaluate the 1E.vel difference hj/2, in which the
Card 2/5
20913
P/047/60/011/001/002/002
Could:Einstein's generalized
D235/D306
gravitationalfield.produces alfreguency shift 8V r/2 (where r
is the line width at "half-height") to be 66 km. They also dis-
cussed in the first letter,, difficulties arising from the so-called
"law of inverse square of intensity".for large distances between
the source and analyzer. In their second letter, the authors stated
..that they were about to finish prelim1nary-measurements using
Fe 57. Towards the end of this letter, they stated that the gravi-
tational experiment could be successfully performed inside a la-
boratory using ?-rays of Fe 57. Other possibilities as to its
application are also mentioned, e.g. for the study of anti-and
ferromagnetics. The-author-meirtions.that.it was learned that ana-
logous experiments are underway at Dubna, probably with Z 67. It
n
would appear, thbrefore, that t1he relevant experiments have been
devised at Harvard, Dubna and Harwell, the author quoting J.P.
Schiffer and W. Marshall (Ref.-4; Phys. Rev. Letters, 3, 556P 1959~
As regards the British group, it seems that they are waiting only
for a sufficiently strong souroe of energy. The author also men-
Card 3/5
20913
P/047/60/011/601/002/002
Could Einstein's generalized D235/D306
tions-that the letter.by Schiffer and Marshall was received by the
editors on the same'day as the second letter from Pound and Rebka
and, that D.H. Wilkinson,-A., Boyle.and S.Devons Llbstractorls'note:
No reference given.7 suggested this application of recoilless ab-
sorption a few months earlier. In the last part of his newsletter
the author gives the formula for-the frequency of.radiation a
levelh
Vh 0 (1 h),
-~h h*
-band
c
the formula giving the width o:Ea line of a nucleus of the given
'isotope', falling from the excited level having the half.-life..
time t1/2 to the ground state
1 1 Ey (keV) t (sec)-1018 (2)
/2
Card. 4/5:.,
20913
P/04 60/011/001/002/002
-.:Could Einstein's, generalized D235YD306
and the formula-by Paund-and -Alebka. f or the-.aforementioned.h 1/2~
-3
4.18 - ~10
h1/2 B7 keV) - 171 /2 (s e c) M. (3)
There are 1 table and.4 non-Soviet-bloc references. The references
-ations read as follows: Craig, Dash,
to the English-language publio
McGuire, Nagle i Reiswig, Phyi!. Rev. Le-.Aers, 3, 556, 1959; Lee,
Meyer-Schutzmeister, Schiffer i Vincent,.tamze 3, 223, 1959; R.V.
Pound i A.G. Rebka, Jr..Phys.-Rev. letters 3,439, 1959; 554p 1959;
-Schiffer i W. Marshalli a. Rev. Letters 3, 556, 1959.
J.P. hy
ASSOCIATION: Zaklad fizyki tei)retycznej UJ Krakbw (Theoretical
Physics Laborato:~yp Jagiellonski University, Cracow)
Card 5/5
---- : ---- -- - - ---- -- - --- - - - - -- - - - - - -
0 -1 .11 1 - .. I I
WNSSENHOFF, Jan., prof. dr
The chaos in the physics of microphenomena must bee cleared away.
~.Probllemy 19 (i.e. 201 no. 2:74 104.
1. Theoretical physicist, 'Momber of the Polish Academy of
Sciences, Warsaw.
POLAUD/Optics - Optical Methods of Analysis. K
Abs Jour Ref 7-hur Fizika, ro 4, 1960, 10003
Author Czakow Julian, We2xanawski 1-:11geniusz
Inst Institute of Nuclear Researcli.Polisi~lZdemy of Sciences
Title Spectrographic Method of Determining Traces of Lithium
.Ln Metallic Calcium by the Spark Method
Orig Pub Chem. analit., 1953, 3, No 1, 9-12
Abstract A spectral method is proposed for determining traces of
lithium in metallic calcium. The determine region of
concentrations of lithium is 3 to 10 x 10 9. The reDro-
d-acibility of the results, calculated by the formula V
t,,r, (71x) x 100~ is equal to approxiamtely � 4% for p
95%. A high power spark from a 10 kw generator was used.
The specimen in th2 form of CaC12, pressed with graphite,
served as the love:7 electrode; the upper electrode was
Card 1/2
170
POVU-TD/Optics optical Methods of Analysis.
Abe jour Ref Zhur FivAl"n, Eb 4, 19-6o, 10003
a carbon sample (qpectrally pure) 3 mm in diameter.
The spectra vere piotographed with a Hilger D187 mono-
chromator. Anal~tLc curves are plotted in coordinates
log NbaseAlLj,670T) vs- log C'
Card 2/2
2 893
P/046 6 Y(06100110021005
M 10~0?)
D221 D301
AUTHORS., Wez'ranowski. Eugeniusz and.-Minc, Stefan
TITLE: The for mation of H in de-aera ted.aqueous solutions
: 202
under the influence of radiation
PERIODICAL: Iftildeonika, v. 6 P.: no. 1, 1961, 33-147
TEXT:--,. The formation of H202 iinder the~influence of 60Co radiation
-and.the.effects of concentration and hydration energies of.various
cations oil the average yield of' this process are descri bed. A P03
type polarograph (Radiometer Co.) equipped with an automatic record
ing*device,'a saturate pping.merc
d-calomel. anode and a dro ury cathode
was used-and.a. new me Ithod of estimating.-IO-4 -10- M H2022 in aqueous
H2S04 or Na2SO4 was devised. Oxygen was removed by passing pure N2
through the solutions. After deoxygenatin4, polarograms of the a
H2SO4 were made at.:3 differ,,ent: sensitivities, H202 (0.05 ml, ION)
was.added, the mixture was de-a.erated and its.pplarogram was taken
at maximum-sensitivity. The sEme procedure and supporting solution
'were used in determining other~concentrations. Values of the dif-
Card 1/4
23093
P/046/61/006/901/002/005
The f6mation of H20
D221/D301
2
-,fusion current corresponding to various concentrations of H202 were
read'off from.the differe nces between the diffus* s of
ion current
~the~supporting solution and the H202 solutions,, obtaining a linear
relationship:within 8%. The same polarograph and cell were used
during both irradiation and an.
alysis,of the solutions, keeping the
temperature at 251.� 0.10C. Formation-of H202 was studied in various
concentrations of,H, Li,.Na K Cs and Mg sulphates. Polarograms of
the 'Solutions were taken (a5 he'.fore irradiation-at 0 - 1.2 V, and
(b) during irradition at a constant potential corresponding to the
plateau of H202,current in.the given medium. After irradition,
Polarograms-were~taken at,chanE;ing voltage. In this way, values of
the yield, rate of formation of H202 and variations in the concen-
tration of Hg ions were obtained. The influence of Hg2+ concentra-
tion in,0.2 M H2S04 on the yield of H202 was studied, finding that
concentrations > (0 - 0.6) x lCi-4 M i creased the initial yield,
owing to a reaction between Ho_and Hg + and the consequent combina
tion, of OWradicals. Formation of H
202 in aq. H2SO4 and the sul
solutions and the influence-of hydration energies of the var-
Card 2/4
23893
P/046/61/006/001/002/005
-,.,The formationof.H~021- D226/D301
-a concentration
ious-cations on*radiation yield. were studied with
of.Hg2+ (0.1 x 10-4 M),and radiation dose (4 x 1016 eV/ml). Forma-
tioh of H202 in de-acrated 10.2 MIH2SO4 (Fig. 10) showed that the num-
ber:'of 11202 Molecules formed ~tj) after absorption of a radiation dose
is-given by N = 4 .03 1)0*8-:'(' (4).- The rate of formation of 11202
will thus decrease -,..-L'th incrc.,~;ing D'and'equilibrium will be estab-
1.1hic dIq = ON. fhe average yield
lished at ~a certain dosage (ffor h
was~calculated at 0.350. The formation of 11202 in sulphate solutions
is illustrated. At the beginning, the expected linear rfrowth of
with~increasing doses of radiation is shown to be disturbed by
another factor. Middle sections of the curves are generally straigbt,
the formation of H202 being proportional to the dose absorbed, until
equilibrium concentrations Of 11202 a-:e approached. Average yields
o4z H
202 per 100 eV (G).in different solutions are plotted and it
is-.shoim that the characterist:;_c shapes of the curves are unaffected
by a viscosity correction, althoug chang-
,h the G values are slightly.
ed. The average yields were i'A all cases found to be greater than
in Dure i-iater. The authors exl>ress their gratitude to Doctor Z. P.
Zagorski and Mr. R. Broszkievricz for helpful discussions a-Lid to
Card 3/4
23893
P/046/61/006/001/002/005
The of 1120 2. ~D~226/D301.
Mrs. D. Korytkowska for her a3sistance x-rith the experimental work.
There are'17 figures, 2 table:3 ard,25 references: 11 Soviet-bloc and
14 non-Soviet-bloc. The're'e-7ences to the English-langua& publica-
tions, read as follows: H.A. Mahlman and G.K. Schweitzer, J. Inorg.
Nuc'].. Chem. 5, 213 (L958); D.a'.. Love, Anal. Chim. Acta. 18, 72 (1958);.
Bre.zina and P. Zuman, Pola:7ography in Eftedicine, Biochemistry and
pharmacy, New York 3-958, Inte~-science Publishers; S.-Sendlcr and
Yu-Hc; Chung, Anal. ("thei-ci. 30, No. 7, 1252 (1958).
ASSOCIATIM: Institute of Nuclear Research,,,PAS, Warsaw, Depart-
ment of RE~diation Chemistry. i -
November, 1960
SUBMITTED.,
~Flg. 10. The r0ation between the
growth number of , Htoz molecules
I 1 1 -fit I I I1 11111
formed and the dose absorbed for Olaf
i0ard 4/4 0.20 D I H.S4
0 foleylml
MC, Stefan- W.EZRANOdUi Eu4"s%'.--
Polarization abilit7 of catiens and for,--tion, ^,f' hT-Jr--gen
peroxide in aerated aqueous solutions oil sulfates exposed
to Co-60 Y,-radiation. Pt.2. Nukleonika 9 no.11/12;
857-862 064.
i. Department of Radiation Chemistry of the institute of
Nuclear Research of the Polish Academy of Sciences, Warsaw
'L 313007-M EW(.L)/WT Tm(a~_~
t' SOURCO CODE: P070 65/01 -1-2/0741/074
F 6024165
ft~~ I.
j%UiilOR- ~I-line, Stefaii-41ints, S.; Viezranowski, Eugeniusz-VezIranovski, E.
ORG: Department of Radiation Chemistrr, Institute of Nuclear Research, Warsaw
-TITIZ: Polarization.ability of cation, and formation of hydrogen peroxide in
dca.erated aqueous solutions of sulfate;S exp .o6ed to-sup 60,Co gamma-radiation.
Dependence on concentrations and temperature for solutions of Li sup plus, Na sup
plus, and Rb sup plus
SOURCE: Nukleonika, r. 10, no. 12, 1965, 741-746.
TOPIC TAGS: cation, gamma radiation, sulfate, hydrogen peroxide, ion concentration,
hydration, terTerature dep3ndence, radiation chendatry, aqueous solution,
organic amide
ABSTMICT: The.'effects of'hydration oriergy of various cations in 0.20 0.90 and .50L1
aqueous solutions of L-1, Na, and Rb sulfates on the yield of hydrogen Gli 0
irk spur were examined. The deaerated aqueous solutions of sulfates exposed to ga?a
.radiation contained acrylaadde as an acceptor of the radicals formed, A depemlence
of the yield of bydrogen reroxide Cql2(). on the nature'of the cation, its concentrati,
and the temperature of the solution wits observed* It was found, that under given co:
ditions G112o2 decreases with the incroase of the temperature of the solutions, of
Card 1/2
0745.. 77
-66
Cori
NOWACKT, Edmund and WF,.Z.YN Stanislaw lagi-stor, Dopartmont
f Alo,Dhemlstry, NUchigan Si;ata University, East Lansing
C4
I . iran, U SA ( Ohal rman iProf. Dr. Rioliard U. BYLARU",11) and
Michl
the Lwxpratory of Experimannal Genetics (Pracownta -Ilartatyki.
boswitNdozalnej), PA-Az rPol5lm Akademia Xixukc, Folri:~h Academy
of Scioriceql Iii Krakow" (Dirliatort Prof. J~v. ZhUolov
K Ali IN S"a
"Toxic 3tibstane-3s in Pasturii Plants."
Warsaw.-Lublin. Mec~y 44
~a ~Wo~LrvixaEy a., Vol 19, 1 o 2, Feb
63, pp 97-99.
Abstraots Awthor reviaws briefly our knowledg-e of toxicity
of pantare planti and reports the results of a ituay on the
resportsible toxic groups and dogroo of toxicity of the
pApill-anatas_ Th.are ar* 20 references, of wtich 8 aara
Polish$ are Fng'Lish in English publicationfi, and 3 aro
Fo I.-. publluatiSns.
E ng! Is'ln I
I
. . j
CZECHOSLOVAICIA/GlIFAT MITAIN
1/L
160
usewwrietrk gwied of am of Owrk vrftaft~-
VAAAmkfjt bi
ki 4V
d
7
i
C
i
A
ft
d
*
-
c
v.
r
a
x
ur
e~
lo
ow
j,
U kcvlr,- Ann. VxA-
Pul;sml) and Kaximk-m Ift
J
It a oak of F*Cla is added droOmia to owe of Nai-
'AA ' V
U IfAtOo~tber escoomin,-2,VasHA"+FvC4-ftAi%+
III-213(IP-IOXPub, i95IXPnxJhh summary). d. C.A,411: N&H#AA + Waa, and aftCli + 2N*KoAvW + 3HIO - If
0931-C-Putentlanwtrk anA mWucttmetrk mftswttowll. 2FeAoO,.F
1
1
OHk + 2N4CI + MCI. The ismal W. con-
wem malle during plitac of retrk arm"Afe. It a toln, (f
.
(SLUS nogm Ow I It a lalw of Fe"
wk fark arm"te
N;osllA-,O. is ad,frd dropwise to ow t)1 FtCh. The reactiall is added dropwim to out of Nas&O,; the fuctlons am;
Omars in two stages" 3pect. + 2N*,llAsO,~+ 3H.0 -- MAsAsOt + 2N&Pe(OH)a + S'Nar
3. MC4 + 8110
.2rcA.-kO..Fc(Olr~,-+ 4ZNaiCl + 511121, and 2FeAsO..Fc-
ffAsOi + SlfCl - V
(Offh + 4S%
V
MO
4
% ~
+ 3
ff HAsO, + GINIaCl, 2.V*Fe(OIIU + 8%**tHA*Oi + 5FtCle
N&Cl + 21foO
AsM + 18
i M
+ 3N*If
A
O
2MOFO
.
e
.
a
9
,
#
,
5.NaCl+-IflO. It a win. cf.VaxAsKh h added dropwbe .
t
r
.
e
..
,
"and lVafjvWj + OeCh + WhO - 3Fe.As%.Ft(Oll)# +
109 wAn. of FtCh, the MACIloni mr: VeCl, + 2,N&,AsO, .3,;*Cl + glia. Then 6 obtained it mixt. of 1?&* and
311.0 - 21?#A,.&O,.Fc(011), + 311C1 + ONaCl, and Vu. �~Ivia
bon.
nexual ammtes ol
AsO4.Fc(OlTh + .111CI Na,AsO, 3FeAX)# + 311&0 ..
l
- - -------- - -
W A
dot& 158*11-
of
A, x1, ,A Hill
'
AA, 69-1 a Emu
'
of pll > 2,415 In
'
IN
de
bit -4
In titratioas of PWl" with FeC4 and
Zt
h I'tCLI
a ro ting Annm mirm electrode. otentia"
The
IN and the eft r vaties bet- ee-al'
;54
2
r ce
c 61
J.I
w:
P/014/60/039/()08/001/002
A224/A026
e
AUTHORS. Hubicki, Wlodzimierz;. Wipek, Kazimi rz; Wysocka, Janina
TITLE: A New Method of1anthaniun Isolation From a Mixture of Rare-Earth
Elements
PERIODICALol Frzemysl Chemiczny, 1960, Vol- 39, No. 8, PP- 507 509
TEXT: 'A simple-method Of Isolt-ling lanthanum from a mixture of rare-earth
:elements is given.-'. The method consints in repeated-leaching of cerium-free 1:an-:
thanides with an NH4NQ3 solution. ~Efcperiments were conducted with phosphate oon-
centrate originating from Kola apati*tes and containing about 15% of rare-earth
elements. The concentrate was supplied by Docent Doctor T. Mazgaj, the Director
of the1nstytut Nawoz6w krlztucznych (Institute of Synthetic Fertilizers) in Tarn-
6w. Durin ' the, experiments, lanthan%un oxide (La203) of about 99% purity was ob-
9
tained afte7 three leac7id_ngs. The r?petition of the process leads to a more can-
plete,isolation of lanthiaium oxide.from the mixture. Thereare: 1 figure, 1
table and 10 references; 4 German, II.English and 2 Soviet..
SOCIATION: Katedra Chemii Nieorgaiiicznej Univeraytetu Marli Curie-Sklodow*iej
w Lublinie (Departme&. of Inorganic Chemistry at the Maria Curie-
Sklodowska University -~n Lublin)
Card 1/1 SUBMITTED: March;23, :.960
POLAND
CZEM-TIELEWSKI, AAtoni, ONIM, ZbIgniew, and WTACEK, Trideusz,
Dermatoloqi cal, Clinic (Klinika Derm&tologIazrM)-,-IM_T_Ak_a d-e
mia Medyowa, Medical Acedemy3 In Lodz (Diroctort If-Irof. Dr
mod. Jerzy LUTMECKI,
"Complications Appearing in the Course, of' Crold Salts lberapy.11
Warsaw, Polaki Tygodnik Lekarski, Vol 18* No 4# 21 Jan 63,
pp
Abstraett [Authors' English summary] Attention is drawn
to complications occurring in the course of treating rheuma-
toid arthritis with gold.ialts and concerning mainly the skin
and muconu mombranes, MgLsking effoct of cortinsone on the
reaction to gold salts and the reactions with non-specifie
course, similar to other dermatoses are mentioned. Of the
37 reforences, one is Fronoho 7 German, 9 Enelish, and the
others. Polish.
- '.
POLAND/Chemical Technology - Chemical Products and Their H-23
Application., Part 3- Zemical Wood Pulp Industry,
Hydrolysis Industry.
Abs.Jour. Ref Zhur Rhimiya, No 7, 1958, 22812
Author. Augustyn Czarnkowski,,Jccek Wiackows yszard Babicki
In st,
Title On Some Errors in Detendnation of Tarred Stump Moisture.
'Orig Pub, Przem. drzeway, 1956, 7, No 10, 30.
~Abstract- The moisture of tarred shmps is determined by drying in
6. thermostate at 1050 in the duration of 3 to 4 hours or
by distillation with xylime. The.divergences of results
of the moisture determi-nition by the first method are 1
to 2%. The content of timpentine in tarred stumps is
found from the difference betveen the determination re-
sults by the drying methcd and the distillation method of
the same tarred stumps.
,Card 1/1
POLIAND/Goncral
Abs f3rour
Authc r
Inot
Titlo
Ori3 Pub
-.11bot--ract
:,--,-id 13-oocial ZL)ol.,-3G!,, injocto P-2
Zhur Bi,;li, -,'o 15, 1958i i7o 689-14
ji
aelcowsl:i, stanial-IT
Th-~ RcEul'us of 'U!-,.--, i'tud*,r of P-rzolt,~~u of -.Tor--s'U
po~Ao. Part !.
nt ~i 1 1950' (1957), 26, i:,_ 1-2,:
311-320
1h list -is giv~,ii cf ic"Mou--on i-li(;s omd braconido
(51 L;p:~;ciau) ancl tlric~ir forost -p,~st li,:;sts (26
a p,-.. c i il,uniAic cl.%to. ar-, ,:Lv-~,n for
1,~, nt. i ~n i 11 pZ-11.1
P/Oi4/63/642/001/004/004
Wo I"
MORS: 46elmition Karol K6 ah. Jay* t&
z nu
of - U170nim on. car on
:.Spi ion b' 'apA iftica gal ~vpreg.
p mAted, with mj~.nes
_.!qhCIh;xzny ~'v 42 n6', A 1-` 26-28
'71emy
iou.oO uran'i1u-m'__,vas,*~_-, rom twx'WI
-eorpit' led ~':;E
The
:-,,su 4 -_6n--aqtiv
-~t arbopol- II--!Wiitra imp at, 4
If t a , nsi I " b 'G
M car on, e
%Flab-
OrAt.dry- -Orepared a impragnated"iri r4cI41*ine Laxyl-
.1 U0,
a - d d - '-opiyl-n-butyUmaim
=ine n 3. 2;.S_O!!TT, were used
at,CpH a.. 0 ind: ~ cohtAined 5 _' 13 66 iris - U/~ul; tftek - mre -then shaken
u
wit .:t1 a.~aiid.:~:thq, -?cobtents -vere,,-qetemme&~hot etrically.
after- 24*16tift..- It -- 'was- lomid_--thiit. 'ad6orption"Of U..*on carbon-. cmId
De If Mir -a
of.-~1.5-:W-.iiiipregn4ing..the- idarboft.with.50%
ease,, of. dilic 1,--adiorption wus enham-
e the - go-I - t-ya 34Y's ine in'
wo~.ieid:'vri~h:.a 'Aution.0f,the am
't " i: e was in;6' I1-6-tely --remo'llmd, There are 1 fig-
IMEC7,KOTdSKA, Hanna, WIATEROWA, 12inat BAGDASARIAN, Girzagorz
The cytochrime sy0tem Cf Corynebaotej~iua diphtheriae, Acta
micr6biol, Polo 14 no*22117-133 165-
1e From the Departmentof Microbial Biochemistry,, Institmte of
Biochemistry and.Biophysics, Polish Academy of Sciencesv and the
Biochemical Depar',nent of the National Research Institute of
Mother and Childo Varsawo
VVIR-.rROWSK I
1-9
Poland,/ Chemical Technology. I'hemical Products
and Their Application
Fertilizers
Abs Jour:,~ Referat Zhur Khimiya, No 9,:1957, 31293
Author Wiatrowski Stefan
Title Utilizatio~
~In of.Indwitrial Waste in Chemical
Processes
Orig Pub: Chemik, 1955, 8, No:l, 9-12
re cited,of the inadequate utilization
Abstract: Examples a
of industrial waste- products In variouIs brarc-1--lee
of Polish national economy. Wastes of the chem-1- -
cal industry are 11-sted which can constitute addi-
tional sotwees of raw materials, particularly in
the glass and rubber industries and also in the
production of synthetic fertilizers.
C ard 1/1
!-4