SCIENTIFIC ABSTRACT SHPUNT, S.YA. - SHRAGIN, I.V.

SHMANT, S. YA. "Partial Prowsuros of NH CO rind H 0 over (Nk) 00 and ULM Solutions," A. P. 3 2 2j ' t, I. M. "~ the Se i I not of Fort -i nit I!,- - -- f -'emir Belopollskiy, S. Ya. ShDiA Falkina, Works 0 Im Ya. V. Samoylov, 1940, No 1",, mrD 125-9, Xhim Referat Zhur, IV, No 6, 82-3 (1941) (."22: Inst. Insect/yunk. in Ya. V. Samoylov) SO: U-23?/49, 8 April 1949  is X.X v x a a 41 a a **A sell 00 A 00 00 00 A 06 1 00-1 00 .3 00 0 00 Oev 00 A 8140, 250 1101109 J. A;Zd C&m.' diagrammmk4y aW Is chaiacterised by tka I*W (2) 7-glastrite. (3) NAP, K),M. The tk points to the folowins DMM 4 following lick mite. (3) Nag Its tie points (1) Nao).AMI.O. (2) )4.4110. (4) (NI1..K).- to the followfur phaw 2.3%). K9Kh (2.Wv); (b) solid pbL-. iSO&AHsO + 7-dawrite + (NH,.K)vSO&; 4 (SAV, (1`111400s (34.3%), K00j 0* isotherm Is characterized by the follow- Mtn.: (1) NapS04.1014,0, (2) N&,SO,.. ~0171ad (a) (M.K)&90'- its tie points faffimkg phase -pus.: (a) solid XJOHSO - + N&vSO4.(NH4)2SO..4HI0 + soln.. N&&'- (7.3%). (NIIj3SOa (24.3%). . The information was secured for use In Is *-of II-6-moda production with - G. W. K. tie* WOO We,* od'sWand S. Y&. Sbeuw. B. ON-SIONSPE491 N&*SOc(NH#),S%-H%O IU results ant given The 40' hothrfm is ds of Mtn.: (1) WiS04-4160. (4) (Nil., 60 twtherm carmpond (a) sow Phase" Nar + -v-gbuerite- win 7-0'79, K.;% 004.411,0 + -r-alascrite -00 reo COO P, See 1. 1000 WO 0 No tie 0 coo AL slow WHIRV MGM 1 1110111: %*jaw 0411 "T 044 - 14ALLMCNII 431131 as Gxv 111 00 U vi I F AS 1 9 Od 0 a 9 1 ff N 0 a a 3 1 v U IS IT 10 0 v0 0 a *0 00 0 0000 00 00 9 00 0411 '90 'a 0 0 0 0 v 0 0 0 0 0000 of * 0 * 0 a  w Ww-w,w; 0. A 00 A AM low* Coca yNom -.Awlw 0* a SOCSSUS A06 "00911111 10-092 99 *0 Se 10, 2W-=(IW)-Temp.-mipn. (119- goo 00 gun am given for, a varka of cuts in the NsNow- d I NO go ce wet, S, an IIANOrHoo sysum. NaN , NII# the vWy soW pbama obmvcd. The ternary euiectic is at -25.7'; the coff compo. Is 25.4% NH#N% Mt etlis-ri madeaftheo0and T. d and ='Vo al OGU me N14NOr- INHAHIPOr. H&0 sys- t h; 1 0 iso- ,eta. and of 0--. nodal points an its -10 and 30 00 1 'herm . Solos. mad. with Na&VO, and N114HPO4 at 06 ' 1 - 7. of thm mall., rVOP.; - at 20 mutal . 1.8 and 61.4 . the dlng figums we 1.2 and 64.1%. Cf. ". $4, ~~ 7 goo d wee ITALLUftKAL UVINATUNI CLAISVKAIIGNs ~A XICKI SIVIgat- - see lwwas .0 1 tavaso MAP 4MV 4128 JR 4 AT 10~ "u I ff of 9 a a9 V A a ; a a 0a * a T goes 0 0 00 1  91 - 00 4 00 the' FOCIProvA144affarlystem San"" lot 00 phoeWtusodlum Altraft-wetv. IV. Thc -A h 8 1 N NHAPO 8 V W - A , 641 0 O 4, & xurL - d 0* LW 686-02(10M W- R S S R ) 20 (U ' . . . . =. . . , so f C.A. 40, OUP.-Hight wetknot. .(I I K4 00 v t WO' N%NO, (M OD - NANO" 0 y W% NaNN, ;E so ~, 46.7% N.N s.1d. vdth 434. N.N sd [it :0 SHoHIP04, and (VU) 0.0% N i'sm 1 i i n ted 1411sPOt with vary ng a OW 60 A 10.0% N la t ij( by tho visual method, ~m In =H_J~~ tables vvd its (I-VI tern n t temp. gra ur , : L r r~ m I down. sla nst N&NOO Tho mix. (tmp.. wt. . r X 0 11.0) are, 1 -74 0 8.8, 14.7,_ av '171 M 27 MI 70 3 2 : . . . . ; , 0 61 TV 9 - 14' 35 4 113 53 4- V +9 to 37 4 G3 . 16 " 6; VU' ~-Wi" 0 jj& 121% ii 8 40 8; YZ + NJN6 . . . , , 00 23.6,19,00.3, vin - 19 60 3'Ll 6.4,60.&;-Thv WHA 00 pbasts are% 1-1111. + 9d.H5;&;t IV XH.HAMN + 1 ' V 1 -V N&240~ + I% &H,PO,.2HvO; NHjffj Ot * NxNO~; ' 9 X ra IN VU-VM ice + NaNO,- The kjotbermals at. 0 , 20 . 00 * ' W E %0 . and It ave givm n tablessudgraphkalty 40 . 60% SD 4 r, I N!1414M-N*140s plane. No-new. 23,00 down to - 1.4* other than - N&NO, ' 1'0 H l ~~ f ow -1.4 ,.2 H, O appears be . I sept. the other two fields. 7U 4 fields meet at the points (temp., wt. % XaNO,, NHJIJ'04. 14.0, soNd 33 4 11.2 53 4 N114H%M~ + Na- N.WN'; -k '3i 7 7 S No- F 60 5 l . . F . , ~. HsMMW + NILII.PO, + ke. '"AD.i-, 33.3. H.O. V; t I , ` ee too : 0411,0 + NaN(h + icc; thu Int is the M.7, N&H,1 1 4. Than eutectic pcdnt. . S L .1 A I a - A&ITALLU46KAL LITENATURE CLASSIFICATION - tips lack, Oli W - na s t ( i ii 4 __ 7-- p t 1 14 9 AT 00 is I 4311J1 OK a.* Ill D 0 0 it at k IN a Its ARI %V o W t 1 eda 0 0;: 00 0 0 a., W 0. W.0 04 10,6 0)  upuW9 3. IA* A.P. Selopollskii, V.N. Kol cheva, and 9. Ia. The system N50442904420- y -P III The solubility of N504. 71D-0 in watt3r solutions of sulfuric acid at temperatures from # 10 to t-500. P. 794* The solubilities of FeSO . 7H20 Im water solutions of sulfuric acid at temp. below 50o have been stuLed. The solubility of the heDtAbydrate decreases considerably with increase of concentration of sulfurs a acid and with lowering of temp. It is shown that at 500 haptabydrate if precipitated from the super saturated solution at H2SO4 concentratiow lying beyond the stable region of existence of hepta. and tetrahydrate. 0 lab. of Physico-chemical Analysis of the Scientific Institute of Fertilizers, Insecticides and 1rungicides August 25, 1947 SO; Journal of Applied Ghemistry (USSR) ~~jj ko. 8, August (3.948)  Scillubitity of faffma vulIate 1211 CaumtM904 Sulfuric acid at high tomperatum. an.1 S V,. .1 lit. to and T%ltwain 064. 22. 7MOO40)), th.- "'IM pluiw. in t-milwi %ith 11,14). almm- ist' unp only Iniumllydrati, nd "1111Y.J. 11t,SA) .. ..... I wily Anhird. 1:1-SO4,41 im)" al"Ive 11,40" Thv 'latetuent Out l-,,SA). 711,0 is the olid phatic in the rAngr IM-243, it 11, 1 (*SO,, in effonvoun. Ato. oxidat ion cil Fe to F" ran tv c,ompletely aw-Adt,ii lit strong 11,FA).. N Th-,  C4 2~ - j Th; sduhafty 41 farm* m&Ltm in coamtrated aNuric ,~j t=; -1- A. P. BckVoUil and 5. Y&. .hl ied C" -U.S.S.R. 23,225(14&))(Engt. = tiorn).-Z, C.A. 44,9797h. B. L. M. L  IYAOM Kgo FO, 9,0 at 0; MA 80. A. P. fiekpolsky. :$-VA-bIlpUSt, land A. ')IIUI'glflA tj appl, CAWW' (R).SR. 1960, 92. I ' - 82:4 2KI6), jile saphiliality isother u t 25 lorill,aO, vAtying (rum IJ-413 to 7U %at-,~ consists of four brandi" aluch represent tile Oquild,cluill %-$ill the luilliwing four "ads; XfgIf1lU,.3II,(.) Jj Mx(lIqP0s),,4II,0 ill) itha existence ot this hydrate as reported fin the first time ; Algitf.110".2111.0 (M), land j1vj- The awaxmnl laoint. an order .1 increasing 1',U, content are A with SWAI phawill" nciantiumaig3-3% 'Mqa-a4ujw-I%j4*QS.'%' .1th "ad phases It and M containing 4-60-' 3IgO anti 5j.3% POX- ': - -2%.MgOaa%dS9,J, M,-I la, -ith solidpliaars M wall IV containing 3 1"0. The SW-lwth'rM comastal of three branches at whith fl KAid phases am 1, M. and IT. The invariant Uut. 4-v t.; -A r"Ll I 1 -0% kfgo 44 .8% 1,20, wa I i lid lu I. saturat"I with differcrithydraticsof anhyd. Jdg)IIV&kDd llgill,l",j 2 we incongruent. The WgV:11.0. ratio to id-ays 0. The author investigates the linear operator H, Hu=b(x)u, where b(x) is a real function measurable on B and the Nemytskiy operator Card 1/3  88885 S/044/60/000//007/041/058 On the weak continuity... C111/C222 h, hu = g(u(x),x). Lemma: In order that H acts from L~ into 1A1 it is necessary and M sufficient that the following condition is satisfied: (1) for certain positive c and-~,it holds fc(~,lb(x)j) GLM, where fc(v) = sup IU: 0 cm (U)i O;~'=V~~co . The author uses a special construction for the proof. From the given M, lemma it follows that if H acts from L Minto L then it acts from JC;v M M 1 L into L and it is bounded. M Theorem: For the weak continuity of the operator h from L~ into L 1 M it is necessary and sufficient that fox almost gll x6 B it-holds g(u,x) = a(x)+b(x)u, -oD