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ln05022011 - l balancing a chemical reaction in acid or...

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Unformatted text preview: l. balancing a chemical reaction in acid or base loam/Cf f] bxfléouT-LR 4.2:. A/QW/fiS §m “Onctfi +YT¢¢1_ km W" 2. assigning cejll convention in an electrochemical cell T w.” “iii/{ Z [/2, {704$- ESCMQ’b Trek: W ale/)UJCe/[f C Efi Nflcééfll) Mai W T‘j/‘Aifigj W WHQ’ N c—J‘ZJ iregdfi’ci‘i’oi‘ ”(L (XVI V7420! 0559.15; mi. :43 + \l wm‘i All? (cf/(W 5 CZQ’TC I « ”firefio / Imofl Miami/47:; :_MJ% 3 understanding the table of standard half cell reduction 0t ntials (“9&7 6M ‘1 % NF [7" *6—3 I: 4’ ”MW ZI+++€€ Fee 0 Gee/T”? 3/) 4. Nernst equation calculation E: 5%(@ Tm m cw V)“ «AH rub? ~§N Q fid’e—A h—fl/ ._... EC A “A “fill %’ K M LgiMCMS a szrq'pa va‘ @ \EJT’W‘ MK“ Ext/1'4 3 s A \°‘\{;O\ :99 f1: ‘1; genre A 4 w: \* [éfi 1““; 7’ 5/1”" UJIM 5. ranking oxidizing and reducing agents 7. stoichiometry calculation using the Faraday T ml! 6““? 7" a ”MAN‘D J 7! Mafia . A CNN-”(r 91M W H é’x) MOM-7 C R '" fl ”é” ‘MSXro‘f 7 C c a) WGW @fiéwfi 8. current calculation D r‘ L {I ch‘ CM 7 M :7 {L 6 9°44 H 07/ 9. calculation involving relationship between E, K and AG AG: "MFE 50 CMU’M‘l bj—_§ J 1+ 71 (—— : 9 w m“ M '4’“) If)“, H( «k Wi.)\-4 C(M" m ’C :3 CO read»: m4 Rex“) L m me— A rear W“: 11. rust in the real world 12. calculating reaction rates 13. method of initial rates 14. integrated rate law calculation T le( fir/€ '15. integrated rate law calculation (half life) A0 kw 17. kinetic theory/«collision 18 kinetic theory—wtransition state 7% SJ‘W‘C fie-5) (ea/{5 ~, €NL~J (CW4 ‘0 Tw£fl£ «(r 1N?) {2: 5‘6; 20. reaction mechanisms a 6” 7&4 MC ”:an 7m M NLMJ Me famom} racfuujw) CMN" ‘ £442 «ed/7v; A»; W5VJ9) ’\:. r a, W \ W 1&4/“3 AJdflvgécgvb‘ C/l/‘H 21. reaction mechanisms 22. Ba and energy profiles 23. famous catalysts M N Cimu \wa WLLJ m 3 (ea/CIA,” We "To/t Ci- CMV. 24. properties and reactivity of alkali metals KW 3‘“ JUL1 04% tags amt ”Maj: W42. 25. properties and reactivity of alkali earths 26. properties and reactivity of the B family Allow” 27. properties and reactivity of the N family Lined M m Na”); NZ” Cm 424* €~xec£ 28. properties and reactivity of the C family 29 properties and reactivity of the 0 family 30. properties and reactivity of the halogen family \CNVJ “(UR Br; \’ law“ («or W 31. famous named chemical manufacturing processes 32. famous named chemical manufacturing processe 3WD 34. hydrocarbon isomers c Hq 35. naming organic molecules 0K] kw C" C an 6 / M . _ / allied C—C ewe / [calla ‘1 l / €76 alcakl C* CH *- o «(J €40 9‘ l .— M --.. Q A?“ ”M'd h it _.. C. t C {3 flux} 31% lC'C'l’N C —~ One a QMCL 4.ch iffifi’ 36. naming organic molecules “0 H \ I / we: l; j-J ’C‘TJH "-Otc, 4.6.6 C L’ X\ C Ac '53 ML” ‘ C ‘O— (E '5-657L6r“ / El/Ltér C _ O‘— C 6% / C(wiww Chat/175(6) 37. organic polymer structure 1452—24 ‘L" 124w WAR]! Max/mane” Mmlq (Mg/x) ”2 ———>3 «é Cr— C5” T --— CL \\’ J Wm ( "“ “’0' fl m “5790‘” “(2-31” 39. biomolecule W gas-v {each 52'4MCV/ 40. biomolecule rm ...
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