SCIENTIFIC ABSTRACT ADAMOVICH, E. I. - ADAMOVICH, M. I.
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- - , - -- -- - --- -PXI ----T- - - -
ADAMUICH,, 1.;~ NORIM, B.N.
Resiniferous system of the pistachio (Pistacia vera L.)
Bot.zhur.
39 no.6:894-901 N-D 154. (KLRA 8:2)
1. Molotovakiy seltakokhozyaystvannyy institut.
(Pistachio)
ADA.MOVICH, Eduard losifovich.
Molotov Agricultural Inst imeni Fryanishnikov. Academic
degree of
Doctor of Biological Sciences, based on his defense, 16
February
1955, in the Council of Botanical Inst imeni Komarov,
Acad Sci USSR,
of his dissertation entitled: "Biological Bases of
Lifetime Utili-
zation of Aboreal S ecies In the Forests of the Urals."
(Anatomic-
physiological study~
Academic degree and/or title: Doctor of Sciences
SO: Decisions of VAK, LiBt no. 13, 4 June 1955,
liyulleten' MVO SSSP,
No. 15, Aug 56, Moscow, pp. 5-24, Uncl. JPRS/NY-537
PUB.
7,-! ~.o r
a r, t
n:', trvn in earth- viien '-ill !-rrf
In ~-c
~;'t i n cc~r- 1V C.
ADAMOVICII, E.I.
Causes of crust formation on tree trunks. Bot. zhur. 46
no.g:
1271-1275 S 61. (MIRA 14:9)
1. Permskiy sellskokhozyaystvennyy institut.
(Bark)
ADAMOVICH, --- E.I., Prof. (Perm')
Northern cypresses in the Ural regioa. Priroda 51
vn.3:80
Mr 62. OCRA 15:3)
(Ural mountain region-Cypress)
ADAMOVICH, E. I.
Regeneration of cork on the trunks of growing
birchs6, Bot.
zhur. 48 no.3:373-378 Mr 163. (MIRA 16:4)
1. Permskiy sellskokhozyaystvennyy institut.
(cork) (Birch) (Regeneration(Botany))
ADAMOVICH, E.I. (Perm')
Resin conceptacles in American arborvitae (Thuja
occi-
dentalis L.). Bot. zhur. 49 no.3:403-404 Mr 164.
(FJRA 17:3)
A P
rc Lu IT-LUTS-11, killa WN
T
Vi
MOLOGIYA, No, 4, 19~-J91 15602
AUTH0,31
ll'-~ T.
R"
t o 1,,
ta s 1"T, 0 1-2, ~,)q--Jo
J,
C~)-- t:~C~ efl C.
t i.
r-c
,----.ADAMOVICH, G.G.
Hygienic evaluation of variotis climatic factors in a
health resort
.0
lor children, Gig, i san. no. 10:92-96 0 160. (MBU
13t12)
1. Iz kafedry obahchey gigiyeny Tomskogo
gosudaretvennogo
meditsinskogo instituta.
(HEALTH RESORTS, WATERING PL~CESj ETC.)
(CHILDREN-HOSPITALS)
21DAM',OVI6H. L.D., inzli.; WAY, P.I., otx.rod.
- ~':.~ ~ ~ - -
[Geometry of screw surfaces) K voprosu goometrii vintovykh
poverkhnostei.
Dnepropetrovsk, 1958. 22 p. (Dnepropetrovsk. Inzhenerno-
-straitellnyi Institut. Nauchnoe soobshclienie, no.35).
0,11RA 16:8)
(Screws, Theory of)
S/121/62/000/010/005/005,
D04o/Dll2
AUTHOR: Nono 7,ivon
TITL'_7: Dissertations
?7__,RIODIC.',L: Stanki i instrument, no. 10, 1962,
_44
TEXT: The follo-,vinF dissertations -for the-decree of Candidate
of
Technical Sciences weFe presented: L.D. Adamovich, at the
Voyenno-inzhener-
-'ademiya im
naya I-rasno:;na-mennaya --I d * 64,ra ('!ilitary En,;neerinj
R-p dBanner" Academy iq. V.V. Kuybyshev), "Some Aspects of the
Geometry o f
H-alical Surfaces"; G.A.. Andreyev, at the VIIIII zh.-d.
transDorta (VIjil O-f RR
Tr`--ins jortat ion), "Investi,~-ation of the Contact Formation
Between Rou,-h Sur-
faces": -.V. Baltrushevich, at 'he Vz;esoyuzn,r
u oy.ordena Trudovogo KrasnoCo
Znameni !TII clektromekhaniki' (All-Union "Order of the Red
Banner of Labor"
NII of Eloctromechanics) , "Investiaat~on of a Digital Servo
System, fo~ Con-
vertinU DiCits into Yovements"; A.P. Be--rodnyy, at the
Lenin-radskiy Poli-
-tekhnicho-,',-iy institut im, "I. Kalinina (Leningrad
Polytechnic Institute
im. I.I.I. Kalinin), "InvestiGation of the Processes of
Sluepless Control of
I A 8 t - A , 11 11 -4 is it 11 4 if x11 11 11 14 11 ;* ry AP'LLP
vil M15 Nil 111"a v
till As v J~
A L 9 L 1,h A t L k I I A4 f4 t( M
(I g
owl
A
oil
loo
00 The fortristion Of CYAnIdell In the bl"21-ftimAce
pirtKeot.
A,faink-s~u4 skiid Va. A%ta,in. ~~Ijl 3, N,, is.
Or , *
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-
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thr Ill, visslit-111, All'i Ily 111411
's
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chlonouln and va nx
d
i%%Irn in one sample 1. 1 Ad,ow,
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" -.4" "1
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[Ijq I 1j
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Appljlacce !of letting coffosion. 7itli
petiodic filliv~. and
-00
also with flowing solutions L. i AdAstim t~
It. :;, '2
-
5. 13"
Ar
00
roe
00
ago
--OG
t It
14 a m 11
0 0 0 0 0 0 0,19 6 0 0 4 4 0 0 o f o 0 0 4 a 0 0 0 0 o 0 a
o o o o o o o e 0 0 q ite, 0 o 6 0 4 51 0 0 0 a 6 0 0 411 0 0 0 0 0
L A Y -1 1 1 Kk ON R, t I
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k L) 1i r,.1
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lot;' J"'V
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o
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040 t
m,
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It a
00
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T
W.
0 0 0 0 0 ic 0 0 0 0 0
-
-
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--
gal F 3 1 A
A
, I j- I - M
i
,
T
Auton)AUC UuH-point *Ajustnwat devioe for
titmUou. L. 1..
AliAMOVITFA-H Mil N. It, VoLKOV
floe
ILITINAWIt CLAWFICOICH T"
t
'
0 U &I K) W.
of it (W
An m if
3I
~
d1l
'
0
q
*
9
F,
i
L
ill S AhD 0 0 CO I k I 'L 1kid I
the Zinc-Plating of Imin in
Add Electrolytes. L It. Atialw-vit..' It und
A~ NY. I'miya j7hurmal Prikladriol KAtj?jij (.1. ~Jpjiili,d
Chrm.), M37, 10. (2),
( to
2711 2h'.; Brit, ('hjpn. AN., 1037.
111), rv7fi),__jIn jtum~iivnj Inin articlt~ an-
a
11114A in 4
halli mnNitlitig zifiv MU1114414. 200, lowlillill Okilphate
50, tilp,
1, aide 24t. xulphuri,, w-i-I .5
-tan It 3
nwrvuriv -1
1
t
h
0 2
d
.
1
,
a
e
"al,-r
. mi
1-
0.0
liMO pill., ill p" 24, 'Aith a com-ni, driusity (if :1 jimp.
(fill., it ,.,tll 1.%jjx~m_
w pickled ill 15 "1 liPli- 10--ri, swid, ur 20",,
off lum. The imi vurfam mlioul,l I !iCall% IW%,mKI1%l11k go 0
t,tilphuri,~ avid. und d,-vtvai%NI vlmtmIv
I've@
tv 0
UO V
A 8EULLURMAL LMNATURI CLASSIFKATICOO
silo*,) Hit ONY a., '%I R&A
An I I rid 0 N I I w 04 0 a a 3 4
u it AV Q Asip, Orpto cooit Kit wa Relit HOMMA 1 444
& & 0 *i : : 0 It a & 0 0 0 0 111 * * * 40 0 0 Oje 0 0
: 0 0 0 *1 00 00 0 * 0 0 0 It, * .0-W -0 -CO-A-0 0 0 * q * 0 0
& 0 0 Ill : : : A
L L 1 -10 1 1- A L a 0 f IsA I I V I I w A -tj KA -0 i -v A- --I
L
Ile Aod of iron on copper-plisting in acid electrolyte.
L, P. Adamovicls. J. A pplisti Chtm. (U. S. S. R.) 12,
1126-33(liKIP).-I'lic Niunderrmt it).11(13mm.),platetlia
a c.d. of 0.8 amp. /squate In. for 30 atin.,w" quite siat I%.
lairtory as proevt1iis against CM)MIsilon, The tath.
2Wg.A.CuSO..b)IPOxnd3O1I,.%, (d. I-M) wasus."Ifor no*
electrolstating of Cis on the Ni undurt-I)at. For a bash
ionix. up to 40g-A. of Fe"'. a c. d. of 1~5 amp-jultiar,
o0o in. was Is" for Q-80 min.; and for a twh rowti. le%~ roe
00 j than W #,,I, Fe", a r. d. of 2.0 Pinp,/scluart in. wa~ cot
u%rd for 22-3 min. In Nish va-cit the Cis dettosits weir
0.111-41.016 man. 04 k. A. A. Kwlx,,tiiv z 00
=00
to
00
od
99
A I L t TAtLt.r4tc aL I III RAT"I CLAIIIFIZATIC1,
I a 1w if 14 1 1) 1 xx
At
04 of It Is It K It it It CC TIRIO An I oil
0 a 0 0 0 0 0 0 ejo 0 6 As 9 0 IN 0 0 0 0 0 0 0 0 0 0 0
TM
A a c AL_ L-J. --.I- A-1- ~L__ L M_ h F, 6 A I , V. I I
g
Dandq jdm~xvm is N#W by mirsim ol surintricisr-
'
b
id
*
mc
. L. P. Adpwywh and A. Vs. lasuru)
ku.
w7
1940, No, 3. 7Q.-bz;" apprims. 0.11. of steel shavitig.
in I
to. of a mixt. amalsbag of equal Pam of 1W, (d.
1A4), HNOJ (d.
1.42) and water. Tothe"a. add water
k)% 116" " cc.. bad for 3U sec., cool wid fil-
.0-1 A Co. d The
ObVir &M AcOll to an and
1
fipffim, bat to aD-
b
*
l
70
a4d 0.5 cc of 0.1% mi,
r
i
munaL
iale.
w
ixty
of Al is Im thess O.M
to t
Ibbseme of A
or it the unit.
tbt adw is faintly pink, Afirt ~s
=00
f Al O
d
d
l
i
ff
h
f
]
age
00
o
w re
e tyinirm o
c
at
.
t
is vvrt
w pwu
A
0.5% a m! ppt, Is formil. I'lic uw1bod pnxlttkvs Ytiv
COO
00
00.
roo
00 4
dl,fimite t-u1t. if the Lvatrat of At 1, 0
It i. pomsib&c to detmt 0.01% of Al. r-b""'Ttn,
L*
0 0
AJ
U
mc~liod for the syntbesis of aurtatricarboxylic and,
too
_
vrnfied. Thr syntbe%6 of the a6d 6 deilcribed.
ZOO
goo
tsoo
tiso
?see
ti
;l'! C~ ;,.I
IT I lil. 1, r'.. C_ 'I,
s v fw ci
tee
U V1 AT 00 At,;
An A
0 0 0 0 o4 0 o o 0
0 o 0 o o o 0 0 0 0 0
0
0 Ce 0 a 0 0 0 a 0 0 G 0 0 0 0 0
0 0
0 0 0 0 0 Wo 0 0 0 0
0 0 e 0
0 0 0 0 0 0 0
0 0 010 0 0 0 0 * 0 6 0 0 0 0 0 0 0
0 0
PrO timum VOIQMO 9611tiong in Prodpitation teacti 'i "
.11.
edP on .
Pitatim of lead lotiida and lead *Wfat*. L.P.Adama.
virb and X. G. Parfenova (A. N1. Gor*kil State U1,jr.,
Kharkov). Zhur. Awl. Kkim. 3,
me series of expts., "no. of 9 X In-i.m x it) a .11 Pb-
(IN(Wo were pptd. with Oml M KI. The 2 "ns. were
timilpined in d6tinct but varying v(4. ratirm. To
equalize
the ionic strength of the conibining soltt%.. to the
l1b(NOl),
witt. was added 0.1 M AcOll slid NaNO. in requiml qnan-
iiii". The activity product I P.) of I'll ' anti I - wa%
rak-J. it= 1'. - I Pb * ' I I I -Pftf,. %%here f. arid
f, are the
activity coeffs. of I - and 116 * *. rr~p., - hich at
p, - 0.01
were 0.93 and 0.76, reap. At 1. 2: 8.5 X It) -11111,
alwav,
I)ptd.; at Pe --~ 5.010-9 it never pptd. Between these
'~'
values was a zone when pptn. simetirtles wcurml and
'Methnesdidnot. Next, the Linallest conen. o(l'h(X(y,,
i.e. 9 X 10 31, was mixed with KI rAllu. in vol: ratim 4
Eachtimel,ptu.
mcurt"I it was morded. &-. well as nonoccurrmte of lipm.
When the Pb(%Ol)t: KI ratio was 1:2. ppin. occurred
every
time. The P. of these mixts. waj 8.5 X 10-0. At a rafio
1:3. P. - 8.1 X 10-1. plan. occurred 12 timr, out of 15,
andat theratio 1:1,P. -7.2 X 10-I.ppmomuffed 7times
out of 17. So ppt. fumed at ratios 1: 10 and 21: 1. in
both
cases P. - 4.3 X 10-1. Analogous cipts. on plati. of
PbSO. in which the Pti(N(h)j:ll)~D4 vol. ratiu %~as
I:J)-
1:0. 1 showed that tilt optimum Vol. ratio %s$ 1: 1.
M. 11~11
~(;'W',- A stuay of the rfnettiou between tlkeril-
and
Uld Micro
I
llullan. t.ch. '
12, 203 20S. Ref Zhro I i5l M,t,
. t-A st-ml v of the willo,"IZ1,11 ~! III,-
No. 31,s~
Compound ioTmcd b), tht: ml,iracttou of 1h With
1-~O-au"an"phCqVI --.)-2 Lla!,ljjtLt~,1-1, 41,
acid (1) ~ly
Os4urnysllenskil's method hos ~Ilowll
that the componuits Yeact in
the ratio 1~2. the
ions reacting bting Th-- and a biv:t4-nt amon
obtained by ncidic dissociation of I I he optinium
pli is 1-65. Thc
con5tant of compl~fx formation is
(7-f) -4 11-91 x lul.
-tween lithiun
2631. The reaction b~
aud
-F k
9- 8c
-u-p7Ad-
-
1
E
1 1
1
,
I
lovlc
all,
.
.
-7- n;~-
F
I
1,,Iulld luv, I f1w
1-,o ii.lph(ii-
'
va, 1.1~,d
,,Lit t-N
ITgal- . .....
At pli i3 LL I -w-, ii~
i
Ilic -Tlsl~lllt :-
l
:
"
-11
Io and Ow i-!l ~'j
i. l
d
'.) i I
4"0 n,,, 10,6MO !141 i :I- WIViNIU11 AIIIIII-t
AMOVICH L. ar'kov)
.a*~~6k-p 41~1
Elements of qualitative analysis in the activity of the school
che?istry club. Xhim.v shkole 10 n0-3:65-71 MY-Je '56. (KIBA 9:8)
~ -A. (Chemistry, Analyt~cal--Qtialttativo)
I
- --- ---- - - - --- --- -
ADAMOVICH L. YUTSIS, B.V.
In low
Photometric determination off beryllium In beryllium bronzes.
Ukr.
khim.zhur. 22 no.6:805-W 156. (MLRA lo:?/'
1. 1(harlkovskiy gosudaretvennyy universitet im. A.M. Gor1kogo.
(Beryllium) (Photometry)
OV/137 - 58-11-23799
Translation from: Referativnyy zhurnal. Melallurgiya, 195 ;,
Nr 11, D 274 (USSR)
AUTHOR: Adamovich, L. P.
TITLE: Analytical Chemistry of Beryllium. Optical Met iods
(Analiticheskaya
khimi.ya berilliya. Opticheskiye metody)
PERIODICAL: Sb. tr. Voronezhsk. otd. Vses, khirn. o-va im. D.
I.Mendeleyeva,
1957, Nr 1, pp 137--143
ABSTRACT: A review of the photometric determination o Be
using organic dyes.
The author recommends thoron, arsenazo, berlilon 1, and
beryllon II,
naphthochrome green, aluminon, chromazurol - 3, and salicylic
acid
derivatives. Bibliography: 45 references.
V. N.
Card 1/1
A A
KDAMOVICH, L.P.; YUTLSIS, B.V.
Photometric determination of beryllium in ir)n
alloys. Ukr.khim,
zhur. 23 no.6:784-787 157. (MIRA 11:1)
l.Kharlkovskiy gosudarstvenn" universitet ~m. A.M.
Gortkogo.
(Beryllium) (Iron alloys)
~j 0 V (t, (!/
AUTHOF_
Adamovich, L.P. 32-9-40/43
~
---
TITLE:
----------- 1
The Determination of the Beryllium Content by Means of Hydrooyanic
Alizarion BB (K opredeleniyu berilli. ra a pomoshch' yu kislogo
alizarinovogo sinego BB)
FMIODICAL:
Zavodskaya Labomtoriya, 1957,
Vol.23, Nr 9, pp.1140-ii4O (USSR)
ABSTILOTi
Reference is made to the
article by Bax-skaya,S.I. and Shemyakin,F.k.
in Zavodskaya
Labomtoriya, 1953, Vol.19, Nr 2, p 160. It is pointed
out that the
authors give no information concerning the reagent it-
self, and
that it is therefore not possible to examine the method
described.
The author (Adamovich) tested this color-Ing substance in
an
ammoniaoal solution recommended by the authors as well as in other
media (H2SO , NaOH). The coloring substance was feuna to be very
un-
t
stable and
o begin to bleach Immediately after production. As regards
the fact
that Bartkaya and Shemyakin recommended working in accord-
anoe
with the method of standard series, it is pointed out that it is
impossible for anybody at the same time to prepare the sample to
be
analyzed and, in addition, the entire color scale. There am 2
tablea
and 2 Slavic references.
ASSOCIATICHt
Khar1kov State
University (Kharllcovskiy gosudarstvennyy universitet)
A1WLABLEi
Library of Congress
Card 1/1
.,,_A%MVICH, L.P.
- -. , _-, -
Photometry and spectrophotometry of beryllium
compounds. Uch. 2ap.
KHGU 95:143-151 157. (HIRA 12:10)
(Beryllium compounds) (Photometry) (Spectrophotometry)
5(2) PHASE I BOOK EXPLOITATION SOV/1293
Adamovich, Leonid Petrovich
Rukovodstvo k laboratornym zanyatiyam po kachestvennomu anallzu
(Manual for Laboratory Assignments in Qualitative Analyalo)
Khar1kov, Izd-vo Khar1kovskogo univ-ta, 1958. 117 P. 10,000
copies printed.
Resp. Ed.: Tolmachev, V.N.; Ed.: Bazilyanakaya, I.L.; TeQh.
Ed.:
Chernyshenko, Ya.T.
PURPOSE: This book is approved by the Ministerstvo vysshego
obrazovaniya Ukr. SSR as a manual for students of ch~mistrV de-
partments at universities in the Ukrainian SSR. It m4y alao
serve as a textbook for students of vuzes which include
onalytical
chemistry in their programs.
COVERAGE: This elementary textbook of qualitative analysis Xe
based
on the experience of the faculty of the Kafedra kachestventlogo
analiza Kharlkovskogo gosudarBtvennogo universiteta
Card 1/6
SOV/129,3
im. A.M. Gor1kogo consisting of N.P. Komar; (head), V,V.
Kiselev-
skiY, I.U. Martynchenko, and L.P. Adamovich. It conta~nq the
description of special reactions for a series of catigns and
anions where semimicro techniques and apparatus are emplo
ed.
The text incl-.ides those cations and anions which are
specified
in the program of analytical chemistry approved by the
MinIster-
stvo v-ysshego obrazovaniva SSSR for the chemistry
departments of
state uniiiersities (1953). The author thanks NJ. Koma0for
his
advice. There are 5 tables and 4 figures. There arQ no
references.
TABLE OF CONTENTS:
Preface 3
Ch. I. Semimicro, Equipment and Technique in Qualitative
Chemical Analysis 9
Equipment 9
Performance of individual oparations 15
Card 2/6
Manual for Laboratory Assignments (Cont.) SOV/1293
General laboratory procedure instructions 23
Ch. II. Special Reactions and Analysis Procedure 26
Subject 1. Group V cations. Anions:
Cl-, s02- NO CO 2- 32
4 , 32 3
Silver ions - 32, mercury (1) - 34, lead - 35,
Anions: chloride - 36, sulfate - 37, nitrate - 37,
carbonate - 37. Exercises - 37. Recommended form
for the summary table - 38. Directions for the
preparation of analysis procedure - 38.
Subject 2. Group IV cations 39
Bismuth ions - 39, copper - 40 cadmium - 42, mercury (II)
- 42, arsenic (III)(and M - 43, tin (II) and (IV) - 45,
antimony (III) and V) - 46. Recommended form for the
summary table. Exercises - 48. Directions for the
preparation of analysis procedure - 48.
Card 3/6
Manual for Laboratory Assignments (Cont.) SOV/1293
Subject 3. Group III cations 49
Tons of nickel - 49, cobalt - 50, aluminum - 51., chronium
- 53, iron (II) and (III) - 54, manganese - 56, zinc - 57.
Recommended form for the summary table - 58. Exercises - 59.
Directions for the preparation of analysis procedure - 59.
Subject 4. Phosphoric acid ions. Group II and I cations 60
Phosphate ion - 60. Ions of barium - 61, strontium - 62,
calcium - 63, magnesium - 64, potassium - 65, sodium - 65,
ammonia - 66, lithium - 67, rubidium - 67, cesium - 68.
Spectrum study of group I and II cations - 68.
Exercises - 68. Directions for the preparation of ana-
lysis procedure for group II and I - 68, and of all
5 groups - 70. Recommended form for the summary table - 69.
Subject 5. Anions 70
Anions of boric acids - 70, carbonate 72, acetate - 72,
oxalate - 72, tartrate - 7 , cyanide 74, thiocyanate
- 74, hexacyanoferrate (113 - 75, hexacyanoferrate (III)
75, silicate - 75, hexafluorosilicate 76, nitrite - 76,
nitrate - 77, phosphate - 77, arsenite 77, arsenate - 78,
Card 4/6
Manual for Laboratory Assignments (Cont.) SOV/1293
sulfide - 78, sulfite - 76, thiosulfate - 79, sulfate - 79,
chromate and dichromate - 79, fluoride - d0, chloride - UO
hypochlorite - 80, chlorate - 71, bromide - 61, bromate - 61,
iodide - 82, iodate 82. Recommended form for the summary
table d3. Exercises 83. Directions for the preparation
of analysis procedure - d4,
Ch. III. Directions for the Analysis of an Unknown Substance
(General case) b7
Preliminary-tests 87
Preparation of solutions 91
Cation analysis 94
Anion analysis 95
Ch. IV. Reaction of Ions of Some Rare Elements and Their
Fractional Detection in Production Samples 98
Beryllium - 98, titanium 98, zirconium 99,
vanadium 99, molybdenum 100, tungsten 100,
uranium 101, fractional detection of beryllium in
aluminum alloys - 101, detection of titanium in
Card 5/6
Manual for Laboratory Assignments (Cont.) SOV/1293
minerals - 102, detection of zirconium in minerals - 102,
fractional detection of V, Mo, and W in steel - 102.
Detection of uranium in minerals - 103.
Appendix,!. Preparation of solutions of a given
concentration 104
Appendix 2. Sanitation and safety rules for personnel
working in analytical laboratories 106
Appendix 3. First aid for laboratory accidents log
Appendix 4. Inventory of a laboratory first-aid kit J-!,-
Appendix 5. List of reagents with concentrations and
method of preparation 112
AVAILABLE: Library of Congress (QD83.A24)
TM/atr
3-30-59
Card 6/6
SM
SJ
LI'yo,, V. T..
T
TLAL&Skly. X.
:S
O
1XIM.
:f 1-tig-tind the
a to Notho
voL
n
Di
"w
Coat
d:
o
Comp *x 7 re Ilot i:na (S
hch"iyo-diskuselYs
o
A
5:
tjc
:
j
pa uotc4mim isucholys
koupleksoobr".1-Lys, , rset..-kh)
Fv2=%CA.L.
.h k Ooh.bzkL ase.d.niy.
thimLys, I
lol.stLys wy
XhL*L.he Okay t!kLologira.
195el, Wr 3. Vp 173 - 174 (USSR)
:
A28TIAM.
Pros, ro7jru&ry is to 21, 1958
Goof.r..c. discussion took
place at the
to.. or it "..It 1* 111,1:1,t,
"d la to.
It t ci.,..
::
L.try of Cnaplox
1,1111B AAI-U4ioA Cof.renao an the Ch
200
person. &%%ended
1han
Formatio.s. X.,
.
:1
.*- Ih 038 r 0 3
h f d
t ads
are
we
the Gampl-as In 4.1 tion. r: 1. .-d
u
tig the Instability c...'ant. ..0.4 Ing
"Ih*, .1cul
to d to and probless
oncermIng %h influence
:
:
;
Iio&.
.
of the 6.1'ent up .4 'he Process.. of f.
in the lools" by A. X. Bbk. and
the
&I and be cial JUXIF. . of
i
t 3olution-, ,he result*
it 3 d C p n
.-n
--
r- ~j
: ...
'
at a systematic I., P.
M"
Izs-:&IL cyl &to y.t.w. by &o"& of
. .1 as In ovp.;-P7r'd
the optio&l method
we r* dealt ith. I. %h4 lecture by To.
A.
, further of the ...PT..
t
Ld
~h
:
;roc . lotions was d.,,laped. Be,a
-R=f;
.
.
I
::.
;b.
!d:
..
;,as LonIof 'h
do n It -141t7 loxes
%sraj"tjo of the ":
&I " the Physical and
proper-tios, the ch*nic" noturw
C.rd 2/16
mA the of the Ooapl*x o-p-od. us% be
It.
B. Tataintir;kly in jhwir I.ot"-
oj to
7olymerization Of ISQ-POLY Acids I.
atoned *xP*rimomtsl results of the
Investigation of the
:4*
I,J-orlsalLon I. solutions of
nollbdlc &,Ld Th. author.
P
4-,d wit~ln a certain
pr d that the *!ybd1,
c
.
.c
Ad thntrations ..Let. aw, .
SUMber Of
compound, that *an be expressed by Go,
-I.r.11 roroul,
Koo 4(noo 4)h-2' Zn the
l-Q%uX- by X- T. Ak--I'rd and v_3.
C"-4
4/16
SyLvakovskly Investigation result.
Go -b.s
a .&Its %.kic, at.
I h aforeation La I*A
olut
f
.
by
.
-o:
-ti-- -h d ti -4 f rat
I.-
.::
r. . . .:
:jtc
.
.ih
~
004,01- and Idl-. 1. *be of their
result* it,.
o
Liff
r..*
. Th.
.6
!
:
lo I.. I,o.. L d .~
t
%
:
~
f !
"a rdlc to th
Interpolation f.rou
by yovtc
%
A. K. A.
ChAa'atv~%.kjj. h
Id
. I..t.r. on -pg
:
,
the solutions I C blcatLoo With tg
3y.%.. A-17.L. of tb,
.olubillty,
Disgram; of to Sys %a- c. -3:1 - 11,0 1.
olu%jo,$-. it
3
.
ound t,h' t"'. bt%
t
.
h
11q1
d
"
6 u
" I he ol Oms
t
'
;b!
:..
furth*mcr..
!
ad
b-!
f 'b
"Adit; f
r
.. %he point of
Of bydl,,,-,h ...Yl.
i
%a. tit P-i.wd.
T. I. K. od I
- pa
1
poIas
.
:::.
out &h: Jy f t~lst d
I' lb"Ln-
Lo..
.f
,h
1y*
P1
:l
::!
:
.
b
O,
Iry
,
. "r o
f
:
.
'
~1
,
cead~ 5/14
Uri
that the ... p by r ly
b.rg PrMft of th:
. i
4
Coat "&as Dise.a.l.c. an the X.tb.do of
sov/1 5.%-5a- 3-50,30
lavo:SL41ating the Complex Forliation
in SoltilL..8
lareetleation .8 401.1ap*d by the
So-di-lien school to of
XLO valus. Is
al- pointed to the necessity of
studying
the kIzs%L** ~f the
poIym*rIs*t1*a process and a
quantitative
datexasioation of the
strength a.' the polymers. A. 1. Babko
pointed out that the study of she
polymer as.
,-~*&ry. 1. P. Xa.-'
m.attozed la his l.atuze that the
rather
widely sT-rasZ-yoly.*rIl&1Ion type
according to the
ockwas "naclaus + chain
menber.0 I. not obtained to all cs,oos.
?h following scientists toom, part In
the disoaaricas Y. 1.
Totasabov, A. T.
Able,, 1. S. Zastfin. 1. Y. T--.y., M
1.
J. TaSsimirskiy. A. K. Saliba tb*n
discussed In hie lecture
61albods of
Determining the Dissociation Conate.at
of the
Complex Group. In Solatione- %be
si. yrin.ipl.. of determining
$be
i"t&billt;, coastants. Z. P.-&o-*
di.ou.sed in his
oC 0"
10 tuZ*
tion Nothods of the I4.t&bIlLty
Constants of
~
th: Com lv
Ccm ound. Acoordiza %a Fxperimental
Dot&- the
p
;
.Ibi 11 ti .
Of
..i
th.
kn'vz
ul at Lou
po
cal
thods of the
s
:
:.
t
:
f
.
:
ra
As lability no out or -.1o. as, .f It
..Pl.x farm-
.
*I@& I Nal.tLon. If a ... r.1 -a ...
l.ar ... pl.... are formed
cart 611
.be
41: plGlazont method by Abe&& aud
Bodl-.d.r (ocapl.1.4 a,
A. K
oexuant lie reacesecdod for %bs
calculatLoa of
lakka)
in
J
the tab Ity constant. The lecturer
discussed the di.-
solation thuds f tb
polyncalsl. proposed by D'yorrum,
::
:
:
L.d.a. X.
. 11, 3
2 h
rl. Edwalley and other authors. The
a,--
a this say ar. at ." U.ur.t.. Is
see
proo.d that the method or s,io .... I,.
approximation. can
load to wrong
vonclusions as to the chemical
processes taking
flaso 1
a 'd Thl
t
-t pr.b.bl. .L..
*
'!
0f th. bj,~L &I con t- t:
!s
b.
.
.b%s1 ad by the method of
;
It I* .. I squares. S. V. Ptitr., To.
1. T.k.t.r -d L. 1.
lersdova described
the ddtors-~Iion methods of the
l
"Lilly ao
o
st ant
of th . " . . %. Qa-p I.... of iobium.
1
!;
S
"
us "Lr shi - b-11
:,
:,
- %he Lnl..tlg.ti.a of the
eq.Llibri-d1opl- .... t of th: osplex
formation by II'.r
tons. I. It. 1. V.
'--eye, and C. S. S-h.aka,
held ft
IsctQr*--Q--Q-Th* Role of the Time
Yactor In
t!:4 *f the Complex
Yarm.ti..-. :. the di.....1o. an the
2 -
11,,t due 1. the l..
adj stm n% fa q 11.
'b~ thodo di ...... d of
..
Card T/16
totaMiming %be instability
con.teato (palladium &" cobalt
- n not
T
O
was.) Pointed
'
Abl
r
p1
::
:
S
h- -
0. ty do,
'
af L.L
d
.;
Lr. .t df 'Itia he
;" 0 t
ia.
.L.tsuca, Of 1:%:1,eadlate m:rn
.*
o
x
f-.
pl
,ionI % h!
i.
rkI, n -,, bL I y
,
:
;
,
1; j r I..
ly dL .... I.ting a-;l ... a
... be
exam lbxvic 111:,l dote. I. P.
AA-.1ioh, A. X. Golub
:11
saun,.xbe r
,o- Pa, In,be dl-..i.. a. the
A. K.
Babko r*q-tod inclusion in %h* next
ooafqr*no* on %be
:h", stry of complex
compound. -L. hith,
.I. a "' lod
thv in sb-*-
Qf
t
tY ...
t
-t.
h1
ld
1
:~
je
---40 411 top t4-a
of a:
u - .: 'I
.
a
.h
T
u
d
.
l
:"fy
to 9hi ch divergencies of %he of t
%. d -
~.
"
'or..' .."od:
o
f
vsau- tLnd the ol;erimontal da,ta can
lead.
tr
~
s:
R. ,-X--,ad that 1. ths dote ~mi..tL..
of the
L..I.bIlLtY *On:t an%& all ch-i-I
6;uilibris bould be take,
let. mean
uattht render complex Ito cooplex
formation p-...
.: ... 1:" ". pr .......
. f t be
y
t
h add d
-. 1. %be 1.0t.r. d.111-d by
Card 0/16
X--Y-*
2hxo;: iiad A. P- Z-1-1Y. -A;~110sticn
of %he DL.tribu-
'
-
;
a "at
.
ad the I ...
atIgat
ion of tlo 3tability Constants
Coaf:revoo Discussion on the Method.
of 307/1 53-5a- 3- 30/30
lave tiestima the coffirlex Formation
in Solutions
Som..Th-ion C:.PI:z,Cow.Pouxx1:-dr
site mbt&in*d from the
:
.fp.ris otal 1-6 t, 8 tfIn MrIbution
of thorLum
Mpou"s In the &Yet***, eo.tyl-tone -
b .... A. - water. end
xy;.'~;l --p - ..I ... f:. -.w.t.,
or. gi-
dat the instability son Sont of the
th.rLaw
asotyl;Geoto" am' ;2-ox,-l
.4-"Vbthoq-i.o"
Wer's &1 1:%11. L "T-.1 G. ..
Zav....k. and Is. V.
"a h,I. I.. -
an weh.. the . vii..tl7.n of the
..l.bITfty
SOMIM'In the determination of the
Stability of Couplet
:"vO"d.1. _l.% Long. 1. this loot-
also other method.
fof couples formation Pro-... I.
.f' dl cussed PH -~'t of the tIt 1
lonsity, an wall as of tbolh.:%If D.
1)*Her., in
told . lectAr's on the -L;p I. t no f
the SolbliTIT-a-thod
in 3tudy iAg the Fhthalocys.oLam
Complexes of Metal... Us
.-dt.h: 4;%.Mih d Qu"%It.tt'.
charactarLatic. of the
"" 1o 0 the 1;=.ition of the
phtbaLocyanides of cobalt.
slak.1, O:Ppet and sinci.am wall " of
the free phthalo
07=1- I to the aol for -Ld soLut Lou
f;,ttll Ih:,r:.t;..a
9M "amonleg. and as " ..p.rl-atal
proof .how ..Ito . of
ads in the couple*.. The-
characteristic.
E-2-se".d him a a proof of - .1-trolo
forx.law, of
'bthulnuy~ino and Lt. .Copies In the
1-tur.
4*11w."d by 1. L. Xmpatkm an -The
Mothad of the Two Solrents
of lnvea1t-rg--&Tlng the Formatlo,n
and Properties of
.. Prowad that thin method make* it
possible 10 4 & M A. the cumob.r Of
Compi.... formed 1. %be
myst". She ir a-Position Mtablli
r;uanelsov, A. z !Y~"'--'.
To 1. Tor y- dL:..!;L.3..M'T the
I..t-.
t4
doilver*4 by A. A. Orintor "d S. P.
Klowl". On the Couple-
'alladius, **.pounda-Tjj~-;gjth .
O.Cr!I nation number b.v.
rour It I a pr:::l Shut I. the c- 11
. forgo oblorl.. and
br"i'" ':. a. be . .1:P1111 number 5
in., 1 '; 11:1
ars formed. 7bi I-.-t of
mentioned
PC= thp:10I;h. . rtlg.%LC. Of the ...
P1
Can, be Used In Y.t.a. Ltb So.
formation ~.r
Pred.&I Ati ..) of on- aLnglo coopl-
This method ask:
card 10/16 poo"bl. SO determine the
ampositlo. and, InstabilIty :.!%tL.t
of the onsplex. In the loct~.
deLlrerod by 9. 3. Y&%.L:Ir.kiy
"d " D 0
Ifor.bl.,. the ppli t!on,of
tb:,,tboary,,,f cry Sul-
11n,o ;,I., _7r Ihe dat.;. 1-*tlo .
St. go alt and
Jr.
*f the chloride cooplezes of Cobalt,
nick 01 "
capper according to the absorptL"
spectra of the.* .OP10149
sam dl 0 0 % was pro d th t 1,
b-,41*lhl*r
"'II -1.5. .7 ..1. .. th:r:'!d.I ...
co"ont"' lo!~abo'.111Sr*I 0 th: tL
" oqUllbri- between the t.tr&hodrl.
and out h.dric for.
of Sh. T1j.P*
.She4 . I. :',
KI I-"PS'-1. *t.-I..
1.140119-tion Of the 301, Sion
1wilibrium In olution. Of
plus Coupoand ." the pO%ibI1Lty of
using 4.3t the
b:
C1=10po exchange to clarify the
structure of t .. plus and
--h-l- ofth. :ydr:tL processes. V.
KLLmoV mentioned
1, bl: 1*.I-. 1h ;or
Simon, h:.,, udy
of 11 and Pa. -.a lu I- A.
b.,. Tih,*dT..-,,.,, '. y.- a" t K.
Golub t..ky
I.=v as of
.Ifthe 1. T1- wer-l-
.Y of 1h xyl :1011.16
-th' 'h -,7 '% P.
card 11/16 Z:Vr.1.11. b..*,:.d fr .
the rp I. th a-
507/7a-3-8-12/4a
'AUTHORS:
Adamovich, L. P., Nefedova, E. I.,
Vetrova, Io Me
TITLE:
-------- - -----
01, the Problem of the Isomolarity of Solutions According to
the Ostromyslenskiy-Zhob Method (K voprosu ob izomolyarnosti
rastvorov, izpoll-.uyemykh v metode Ostromyslenskogo-Zhoba)
PERIODICAL:
Zhurnal neorganicheskoy khimii, 1958, Vol. 3, Nr
8, Pp- 1785-
1790 (USSR)
ABSTRACT:
It is shown that in working
with non-equimolar solutions the
position of the maximum in
general does not only depend on the
initial concentration but
also on the parameter characteristic
of the equilibrium
investigated. A theoretical consideration
of the method
according to Ostromyslenskiy-Zhob was dealt with.
By means of
practical examples of complexes with a composition
of 1 : 1, 1
: 2 and 1 : 3 it was found that the displacement
obtained for
the maximum satisfactory agreed with the one cal-
culated. In
using non-equimolar solutions also a displacement
of the
maximum to the middle of the diagram may occur. The
Ostromyslenskiy-Zhob method with non-equimolar solutions may
also be employed in investigations of complexes of higher co-
Card 1/2
ordination numbers.
SOV/78-3-8-12/48
-On the Problem of the Isomolarity of Solutions According to
the Ostromyslens-
k-4y-Zhob Method
There are 4 figures, 2 tables, and 11 references, 5 of which
are Soviet.
ASSOCIATIOR: KharIkovskiy gosudarstvennyy universitet A. M.
GorIkogo
(KharIkov State University A. If* Gor'kiy)
SUBMITTED: July 8, 1957
Card 2/2
5(2N/ SOV/78-4-7-14/44
AUTHOR: Adamovich, L. P.
TITLE- A New Way of Spectrophotometrically Investigating
Complex
Compounds (Novyy priyem s~ektrofotometricheskago issledovanlya
kompleksnykh soyedineniy
PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 7,
pp 1552-1557 (USSR)
ABSTRACT: T-..,Iis paper was read at Ivanovo in February 1958
at a discussion
conference on methods of investigating complex compounds. The
author mentions the hitherto known spectrophotometric methods
and points out that the applicability of each of t1hese methods
is limited. It is therefore of urgent necessity to search for
new methods filling the hitherto existing gaps. The method
suggested by the author consists in the comparison between two
solutions which, though containing two compon6nts in different
concentrations, nevertheless contain the reaction product, the
complex compound, in the same equilibrium concentrationo If the
concentrations are colorless, and if only the complex V-ompound
absorbs light, their optical density is the immediate measure
Card 1/3 of their concentration. If, however, also the
nomponents absorb
SOV/78-4 -7 -14/44
A New Way of Spectrophotometrically Investigating Complex
CompoundB
14 ght with the wave length selected for the measurement. the
deviation of optical density from its additive value may serve
as measure of the concentration. The following assumptions a.-e
made: 1) only one reaction product exists (in the case of com-
plex formation in stages) , but at least it dominates. 2) In
the
case of a constant concentration of the one reaction component
and an increasing concentration of the second, the limit for D
can be measured or calculated by extrapolation, so that also
the determination of the molar extinction coefficient of the
reaction product becomes possible. On the basis of the general
formula mM + nA;~2M.4kn the equilibrium concentration of the
reaction product is deduced according to the lav; of mass.
act~on5
after which the formulas for the molar extinction coefficienta
of the components and reaction products as well as for the
exponent a - p are set up. The complications caused by hy-
m
drolysis, association, polymerization, etc. are discussed and
taken into account in the formulas. On the basis of -'.,he
example
of,the reaction between Fe3+ and salioylic acii (F--g 1), which
has a flattened absorption maximum, it is proved by calculation
Card 2/3 that p-,1 (Table 1), and that therefore the two
components
SOV/76-4-7-14/44
A New Way of Spectrophotometrically Investigating Complex
Comp.)unds
form the complex compound in the ratio I : 1. in the reaction
between Fe 3+ and CNS (Fig 2) the calculation yields increasing
values for p (Table 2), so that a complex compound of dif-
ferent composition is concerned. There are 2 figures, 2 tables,
and 12 references, 6 of which are Soviet.
ASSOCIATION: Kharlkovskiy gosudarstvennyy universitet im, A.
11. Gorlkogo
(Kharlkov State University imeni A. 11, Gorlkiy)
SUBMITTED: April 7, 1958
Card 3/3
69011
AUTHOR: Adamovichp L. P. S/07 60/005/04/006/040
B004XB007
TITLE: The Utilization of Saturation Curves
for the Characterization of Complex Compounds
PERIODICAL: Zhurnal neorganicheskoy khimii, 1960, Vol 5, Nr 49
PP 782 - 790
(USSR)
ABSTRACT: The author investigates the utilizability of optical
saturation
curves for the purpose of determining the composition and other
characteristic values of a single complex forming by the inter-
action of two components in a solution. The optical density D
or its deviation 6 from the additive value is determined for a
number of solutions, in which the concentration of one of the
components remains constant, while the second is increased from
one experiment to another. For the complex formation according
to the equation mM + nA m An9 the following is derived on the
n
basis of the law of mass action: (x - My)m(ca - ny) , xy N
(ca - constant concentration of the component A, x - varied con-
centration of the component M, Y - equilibrium concentration of
the complexp K - its instability constant). The cases K --+ 0,
K / 0, m - I (Fig 1), m >1' (Fig 2) are discussed. In figures
3-5
Card 1/3 curves corresponding to equation (1) are shown for
several values
69011
The Utilization of Saturation Curves for the
S/076/60/005/04/006/040
Characterization of Complex Compoundu B004/BO07
of m and n. The case m = a - I was investigated by V. Tolmachev
(Ref 9). For K / 0 and whole positive values m and n function (2)
is derived and its first and second derivative is discussed (Ta-
ble 1). The character of the saturation curve is found to depend
on the nature of the chemical reaction. As the latter is not
known in advance, a hyperbola of second order is chosen as ap-
proximating function, and equations (4) and (5) are derived. The
significance of the three parameters a,b,c of these equations is
discussed. By means of b the composition of the complex may be
determined. c corresponds to the maximum optical density. The
parameter a (Table 2, Fig 6) is in a complicated connection with
the instability constant C inst' and thus for its determination
the most simple way Is given: Determination of the concentration
y of the complex formed from the molar extinction coefficients
of the two substances A and M, and herefrom calculation of C inst
for each experiment of the series. The stability of C inst for
the
entire series of experiments confirms the correct determination
of n. The author further discusses the limits of the
applicability
Card 2/3 of this method in the case of side reactions (Table 3).
Finally,
69oll
The Utilization of Saturation Curves for the
S/078/60/005/04/006/040
Characterization of Complex Compounds B004/BOO7
he recommends the following working method: determination of the
data of a series of experiments as described; representation of
data in form of a hyperbola, and determination of the parameters
of this hyperbola from equations (12) and (13),, use of the para-
meters b and c for the purpose of determining the composition
of the complex compound and its molar extinction coefficient,
calculation of the instability constant, and, checking as to
whether it corresponds to conditions (7) and (11) (Table 4). The
author refers to the papers by N. Komar' (Refs 3,4) on the method
developed by Ostromysienski.-Job and to the book by A.K. Babko
11Fiziki--khimieheskj.y analiz kompleksnykh soyedineniy v rast-
vorakh" (Physico-ohemical Analysis Of COMDlex Compounds in Solu-
tions). In conclusion, he thank-s A, S~ Leyben for valuable ad-
vice. There are 6 figu--rea, 4 tables, and 9 references, 7 of
which
are Soviet.
ASSOCIATION: Khar1kovskiy goeudarstvennyy universitet im~ A, M.
Gorgkogo
(Kharlkov State UnAversity imeni A. M. forikill
SUBMITTED: January 27, 1959
Card 3/3
S/079/160/030/04/63/080
BOOl/BOil
AUTHORS: Adamovich, L. P., Timofeyeva, It I., Yutsis, B. V.
TITLE% AuTin tricarboxylic Acid and Its Reaction With
Beryl!JLurm Salts
PERIODICAL-. Zhurnal obshchey khi!nii, 1960, Vol- 30, Po, 4,
PP. 1325-1334
TEXT; Aurin tricarboxylic acid
GOOH
O=~
00011 ()j;
-booll
had been f irst suU,le-oted ~.u n t3 c r, uii t in 1925 (Ref
1) It i 0 13J mply
oynthesized (Ref, 2Y from e, ';ily uv,--iluble uoi.,pcunds..
and Is fairly ofteT) -aser-1
in the form of anwionium salt, undur the ntuie of
"Alui.iinoi,", as a reagcn-t
Card 1/3
Aurin Tricarboxylic Acid and Its Reaction With
S/079/60/030/04/6-3/080
Beryllium Salts B001/BO11
z
alum
inum (Ref, 3), some rare elements (Ref, 4), beryllium (Ref. 5),
et al,
Nonetlnelesso this acid in itself, as well as its reaction with
metals, .,.s in-
sufficiqntly investiGRted (Refs, 6-9). A. Babko (Ref, ',')
suL;Co!~ted a ccnm-
positi-.-~n of the aluminum complex 1 - 1 foraied. according to
his di,16ram (~Ms
composition was confirmed by L. Molot, L. Kullberg (Ref, 6))
t-.rithcut
the !ability constant, Recently, L. Serdyuk and collaborat rFj
(Re'r, 9) re-,
ported on the presence of two beryllium, aluminui.,i
complexe3jith fl,o
1 (at PH 5 and 3 : 1 (at PH 7), No demonstration w-IS 91"Ver.
cei,ning the properties of the reaGent, This problem therefore
.~tr-
-resti-ation to be made, first of all, on the acid itself, The,
aut'iors stLia-e-il
the behavior of the acid in the pH-rnnge 4-14, and calculated the
acid dissociation, as well as the coefficients of the molar !Aght
at ),520 MILI for the anions. Nention is made of the weakeninG
of co~c--)l ir)21 _-,i
frresh alkali solutions of the dye in the course of time, In the
pH-rang', ZJ-6.1
the formation of only one complex with the acid dn the rat~Jo 1
: 1 is obseu-'-d
in ci fairly wide range of beryllium concentrations. The
ot--ructarp. of t1his r-r-
Plex was defined, In the pli-range 13-14 a renction of berylliun
with ihr,,
is likewise observed; this process was not. invc,-tiL;atc-d
furtl--er, Tb~-,
arising An the acid reCion can be made use of for objective
1~bof.,)uic-fri~.~ d..?.-
Card 2/3
Aurin Tricarboxylic Acid and Its Reaction With
S/079/60/030/04/63/080
Beryllium Salts B001/BO11
terminations at pH 4-3, as 'well as for visual one's at pli
6-7~.Papers by
L S. Ioffe (Rof.11) and N. P. Komar' (Ref. 14) are also
mentioned, There
are 5 fie-ures, 3 tables, and 20 references, 11 of which are
Soviet.,
ASSOCIATION: Khar1kovskiy gosudarstvennyy universitet
(~harlkov State
University)
SIJBMITTED: Elarch 12, 1959
Cnrd 3/3
ADAMOVICH, L.P.
Determination of the composition of some complex
compounds from
saturation curves. Zhur.neorg.khim. 6 no.6:1267-1271 Je
'61.
(MIRA 14:11)
1. Kharlkovskiy gosudarstvennyy universitet im.
A.M.Gor'kogo.
(Complex compounds)
ADAM.OVIC-11,--L.I"..; NAPADAYLO, I.N.
Determination of the instability constant of a
beryllium complex
with ethylenediaminotetraacetic acid. Zhur.anal.khim.
16 no.2:158-
161 Mr-Ap 161. (MIRA 14:5)
1, A. 14. Gorky KhLrlkov State University.
(Beryllium com ounds)
(Acetic acM
ADAMOVICH, L. P.
Relationship between the solubility product and
solubility. Ukr.
khim.zhur. 27 no.6:713-718 161. (MIRA W11)
1. KharIkovskiy gosudarstvennyy uni,!ersitet im. A.
M. Gor,kogo.
(Solubility)
ADANUMIR L.P.j RUZHINSKAYA, R.I.; ANDRUSHCHENKO, D.A.
Study of some reactions for detecting antimony
Ukr.khiz.zhur.
27 no.6:817-823 161. 4URA 14:11)
1. Kartkovskiy gosudarotvernyy universitet im.
A.M.Gorlkogoo
(Antimorq~.,4nalysli a)
ADAMOVICH, L. P.
vw
Imp'
Studying some chemical Problems in schKis. Khim. v
shkole 17
no.6:37-40 N-D 162. (MIRA 16:1)
1. Universitet imeni A. M. GorIkogo, Kharikov.
(Chemistry-Study and teaching),
ADAMOVICHI L.P.; MORGULI-MSHKOVA, ON.; YUTSIS, B.V.
New analytical reagent, albercm, and its
interaction with
beryllium ions. Zhur.anal.khim. 17 no.6s678-68-41 S
162,
(YdU 16 % 1)
1. KharIkovskiy gosudarstvennyy uni-versitet im.
A.M.Gorikogo.
(Berylliam-Analysis) (Alberon)
WAIMOVICH
Addition method in photocolorimetry. Zhur.anal.khim. 17
no.8:912-916
N 162. 041RA 15:12)
L Gorky Kharkov State University.
(Colorimetry) (Photometry)
ADAMVICH, L.P.; YUTSISI B.V.
Colorimetric determination of beryllium in bronze with
aluminon.
Zav.lab. 28 no.8020-921 162. (MJRA 15:11)
1. Yharlkovskiy gosudarstvennyy universitet imeni
A.M.Gorlkogo.
(Beryllium-Analysis) (Aluminon) (Bronze-Analysis)
P, A
,:pec-.t,rcphotcmetrJc sti;dy of teryllol-I an a
real
re.pgen". Zhur. anal. Khf.m, 18 no.~,292,97 Mr- 'f-
3 .
1. Kharkovskly rpsudir!4"vennyy univi-r,!Aet dmen,
S/075/63/018/004/001/015
AUTHOR: Adamovich, L. P., Mirnaya, A. P. and Starchenkop A. V.
TITLE: Synthesis and study of
phenohy-drox-ydinapht,hofuchsonedicarbo;rvlic
acid as an analytical reagent
PERIODICAL: Zhurnal analiticheskoy khimii, v. 18, no. 4, April
1963, ~20-
424
TEXT: The authors have refine'" a method for synthesis of the dye
pheno-
hydroxvdi,naphthofuchsonedicarboxylic acid, whose sodium salt is
known as 11na-
phthocrom green G". The dye can be vsed for the pholuometric
determination of
beryllium. They study the behavior of an aqueous solution of this
dye, in time,
and also its optical properties within the pH range 31-13. Wi.th
use of the
optical method,, they determine its two acid dissociation
con-itants at ionic
strength 0.1 and temperature 20 + 10C. The molar extinction
coefficients of
all its ions have also been determined. There are 2 figares and 2
tables.
The one English-lanq~age source reads as follous: Aldridge, W.,
Liddell, H.p
Analyst 73 6)"" (19)~ui-
-PIC,v. fi~,,orlkov Stato Univers-ity ijTj
Sr-.r,7,, L - . A.14.
&~a -JA /, * , IL
ACCESSION NR: AR4033706 S/0081/64/000/003/GO23/GO23
SOURCE: Referativny*y zhurnal. Khimiya, Abs. 3GI42
AUTHOR: Adamovich, L. P.; Yutsis, 8. V.
JITLE: Detection and determination of beryllium In alloys,by means
of aurin tri-
carboxylic acid
CITED SOURCE: Uch. zap. Khar1kovsk. un-t, v. 133, 1963, Tr. Khim.
fak. I N.-i.
in-ta khimil KhGU, v. 19, 135-139
TOPIC TAGS: beryllium, beryllium determination, alloy analysis,
aurin tricarboxylic;
acid, aluminon
ABSTRACT: Methods have been developed for the detection of Be In
Cu-, Al- and Fe
alloys and the photometric determination of Be In Cu alloys
withaluminon (1). To
'detect Be in Cu alloys, 0.05 9 of the sample are dissolved in 10 ml
HNO (1-3) An
excess.of 5% (NH4)2CO3 solution is added to I ml of the solution
obtainid, i.5*9 KU-'-
1 cation exchange resin in the Nk-form Is introdticed and the
mixture is shaken for
hr. (until the solution becomes decolorized). Three ml of the
colorless solu-
tion containing I drop phenolphthalein are neutralized with 0.1 N
HCI until the
solu-tion is slightly pink, after which 3 ml of a solution of I are
added. The qolu-
I---- .* ___I D
Card
'ACCESSION NR: AR4033706
tion of I is prepared by dissolving 0.0844 9 aurin-tricarboxylic acid
in 53 ml 0.1
N NH40H and adding 47 ml 001 N CH3COOH and 100 mi 3% complexon III
solution it pH
in the presence of B
8 4. e the solution turns pink after adding 1. To detect Be
in Al- and Fe alloys, 0.5 g of the sample are dissolved in 20 ini HCI
(1:1), several
are added and the mixture is boiled for 3 min. The solu-
.drops of concentrated HN03
,tion is neutralized with concentrated NH40H, 10 mi 5% oxalic acid
and 4 9 KU-I cation
resin in the H-forin are added and the mixture is shaken for.-- I hr.
The
-solution (containing the A]) above the resin is decanted, the resin
is washed with
:%qater to a neutral reaction, and Be is extracted by shaking hr.)
with.15 ml
iO% HCI. The extraction of Be with acid is repeated once more, both
solutions are
;,'combined, evaporated to 2-3 mi, neutralized to pH 8 and, after
adding a solution of
heated for 1-2 min. A pink color appears in the presence of Be. For
the quanti-
tative determination of Be in Cu alloys, 0.1 9 of the sample (with a
0.3-3% Be con-
.tent) is dissolved in HNO 3 (1:5) and the solution is diluted to 100
mi. Concentra-
:ted NH40H is added to 10 mi of the solution (until .0ight turbidity
Is formed which
:is eliminated by adding HNO 3). and the resulting solution is
diluted with water to
JOO mi. An aliquot of this solution is combined with an equal volume
of the reagent
:-solution. To prepare it, 1.25 g complexon III and 0.1055 g aurin
tricarboxylic acid
t,
:are dissolved in 100 in) of a buffer solution (3 parts of 0.1 N CH
COOH and I part
3
U.1 N NH40H) and diluted to 250 ml with the same buffer solution. The
mixture
,.of-the solution to be analyzed and the reagent solution is heated
for 5 min. on a
cord, -2/3 777--
7777
ACCESSION NR: AR40337o6
steam bath and read, after cooling, in a FEK-M photoelectric
colorimeter with a
green filter in a I cm cuvette,using a control test solution as the
reference solu-
tion. The error in the determination of be is 1.52%. L. Sin1kova
DATE ACQ: 02Apr64 SUB CODE: CH, ML ENCL: 00
3/3
HVAKOVSKIY, Mark Samoylovich; AD91OVICII,
L.P.., doktor khim.nauk,
prof.,otv. red.; NESTDiENKO, A.S., red.
(Laboratory work in the chemistry of complex
compounds]
Laboratornye raboty po khimii kompleksrjykh
soedinenii.
Khar;kov~ Izd-vo KharIkovskogo univ., 1964. 202
p.
(MIRA 17: 1 -1.)
A~IPEPYi9~).-L..P.
Rational composition of analytical procedures.
Calculation
of a procedure for photometric detrxminntion. Zhur.
anal.
khim. 20 no.12:1273-1278 164. (MIRA 18:12)
1. KharIkovskiy gosudarstvennyy universitet imeni A.M.
Gortkogo. Submitted July 8, 1964.
L -12(Y,)7-66 EWT(m)/T/94A(m)-2
ACC ?,R: Ap6oo1779 SOURCE COT)E: UIVOI~861'~5100210101049010~,g)~
I Ch, M. I.; Lario Lebed'
AUMOR: Ada nova, V. G.; e,~j A. I.; S. I
Ya6udina
Or
GRG: SSSR (Fizicheskiy
Wsre's-Institute im. p. N. ~~:oadev, Acaderror of Sciences
institut jFkademij nauk Sr
)SR).-
!TITIM: Determination ;-f"the 7xp Interacticn colistant
~SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy flzi i. PisIma
v redaktalyu.
:Prilozheniyep v. 2. no, 10, 1965p 49o-494
tOPIC TAGSi Gamma Interactionp meson interaction, photon
scattering, dispersion
:equation-
ABSTRACT: AThe authorh attempt an indirect determination of the 7np
interaction
,constant A, from data on single photoproduction of pions from
nucleons. The con-
tribution of the p meson to the photoproduction amplitudes is
separated by com-
,paring the experimental data with theoretical calculations based
on rigorous dis-
~persion reletions, since such an analysis is sensitive to the
accuracy with which
the dispersion integrals are calculated. The authors' main purpose
in this paper
is (i) to find for the photoproduction processes a differential
characteristic for
which the theoretIcal uncertainties are miniml or nil, and (ii)
analyze the cor-
Card 3/2
L 12007-66
;ACC AM AT(MI779
L
iresponding experimental data for the purpose of determining the
constant A. Th
avoid the uncertainties connected vith the imaginary parts of the
photoproduction
amplitudes, they confine themselves to a consideration of the
near-threshold re-
i gion of photon energies. The contribution of the subtraction
constant is neglected.
By making use of published data and their own results (Dokl. AN SSSH
Y. 158P 309P
1964) on the differential cross sections of the process 7 + p - n +
it+, the authors
conclude that more accurate N-alues of the differential cross
sections of the pro-
cesses 7 + p - n + n+ and 7 + n - p + %- in the near-threshold
region of energy can
yield more definite information on the constant A. To obtain data on
the latter
process it is necessary to study further the processes y + d - p + p
+ n- and
., :5-
v- + p - n + 7. Authors are grateful to Corresponding Member AN SSSR
IP. A. Cheren-
kny nnd Professor A. A. - Baldin for useful discussions and
interest. Orig. aft.
;T
Ass 2 figures and foyrulas.,
SUB CODE: 20/ SUN4 DATE: 05oct65/ ORIG REF: 003/ OTH REF: 002
Card t2ft
ACC NRi AT6017034 SOURCE CODE: UR/0000/65/000/000 0102/0110
AUTHOR: Savchenko, Yu. G.; Adamovich, L. V.
ORG: none
TITLE- The use of the ramming code for better magnetic tape memory
SOURCE: AN UkrSSR. Kiberneticheskaya teklinika (Cybernetic
techniques). Kiev,
Naukova dumka, 1965, 102-110
TOPIC TAGS: magne4c 4,p memory core, error correcting code
jtm-ra=xi~~_
ABSTRACT: T2 ~i'ds for improviZg the reliability of digital automatons
may be divided into two broad classes: 1) methods based on the
introduction of
information redundancy, and 2) methods based on the introduction of
design re-
dundancy. The conditional nature of this breakdown is discussed
briefly and it
is pointed out that while er ro r-detecting -and- correcting codes
for data trans-
mission have been quite widely discussed in the literature, the
application of
such codes for the purpose of improving the reliability of
magnetic-tape storage
devices is obstructed by the absence of developed coding and decoding
arrange-
ments and Circuits. Although modern magnetic-tape storage devices use
back-up
or stand-by techniques, this method suffers from excessively high
redundancy
(two-fold~ One method for achieving better reliability for such
memories is found
USSR/Physics - Cosmic Rays Apr 52
."Spatial Distribution of Penetrating
Particles ~n
Atmospheric Showers of Cosmic Rays," L. Kh.
Eyduz,
M. 1. Adamovich, I. A. lvanncvskaya, V. S.
Nikolayev,
M. S. Tulyankina, Phys Inst imeni Lebedev,
Acad
Sci USSR
"Zhur Eksper i Teoret Fiz" Vol XXII, No 4,
pp 4-40-
4417
1
Investigates the spatial distribution of
penetrating
particles in atm. showers by means of
counters con-
nected to hodoscopes-. Shows that the
percent of
penetrating particles increases
proportionally to the
215T81
distance to the-shower's axis. The total
energy of
penetrating particles exceeds half of the
total
energy of the shower. Preseats proofs of
existence
of showers with a complex spatial
structure. In-
debted to Acad D. V. Skobeltsyn, N. A.
Dotrotin,
G. T. Zatsepin. Received 15 Dec 51.
215T81
USSR/ Physier, - -0-nesons
Card I/I Pub. 2-1 - 16/53
Authors I Ada~ovich~ M. I., Kuzmzchova, G. V.; Larionova, V. G.; and
Kharlamov, 5. P
Title Photo-formation of negative 7'f-mesons on deuteritur,
Periodical Dok. AN SSSR 102/4, 715-718, Jun 1, 1955
Abntract The reaction a" t d --~' F + P + Tr - was studied by the
method
of photo-emulsions. 'Ile photo-emulsions were filled with water and
exposed to a beam of photons. Five USA references (1952-1954). Table;
diagrams.
Institution The Acad. of "'c., U5221, P. N. Lebedev Physical Institute
Presented by: Academician I. Ye. Tamm., February 1, 1955
e -77'
7u,-.c.
'i
ADAM.-WID , M.I., C-and Phys Math Sci -- (diss)
"Photogenesis
of negative -7 -mesons on deuterium near the
threshold." "os,
19'~)6, 8 pp (Phys Inst im P.N. Lebedev of Acad
Sci USSR)
kX"xzMixSXSR) 150 coilies. Bibliotrai)hy at end of
text
(18 titles) (KL, 29-56j 127)
AUTHORS: Adamovich Lj ' T Yuzlmiche-,ra, G. S071/5U - 3 5-
1 - 39
La~rionov~a,.~., Kharlariov, S. P.
TITLE: The Photoproduction of on Deuterium Near
the Threshold (Fotorozhdoniye n--mezonov na deyterii
vblizi poroga)
PERIODICAL: Zhurnal ek,sperimentallnoy i teo2cticheskoy
fi-,i.ki, 1956
Vol 35, Nr 1, pp 27 - 36 (USSRI)
ABSTRACT: In several earlier papero (Refs 1-4) "he ratio of
the cross sections of the processes y+d 4 p+pin and
y+d 4 n+n+i,+ has already been inv,-1,ti:-,-ated ; 71atson
(Vatson) (Ref 4) ahowed t1l~it 0.. /o, f0,,- d-,~iitoj-,Nm
corresponds to that for free n,,,cleons, The atitho-9
of the present paper investi-ated the reaction y+d 4 p,p4T-.
on the 265 MeV synchrotron of the FTAN (Fizicheskiy
institut Akademii na-uk SSSR - Phy S4CS
Inotitiite ;,S USSR)
with NIKFI-R photoemulsion plates which were enriched
le,.ieriu-i nuclei
deuterium ~as D 0). (Pinltes: ~,2.1022
per cm3). The m.~-iximum ener; of the amounted, to
Card 1/3 250 and 200 eV for a ma-.netic field -aith
11='7000 OE; in
U, f
The Photoproduction of r,--11'esons on Deuterium, 7iear 9
the Threshold
the evaluation of the tide microscope MBI -2
was usedI for the determination of coordinates in t%e
case of mi,ltiple scatterin, MBI -8. For the de-pendence
of the cross section of meson production on photon
energy (51-' E