If a chemist only had 30.65 grams of Al(s) and an unlimited amount of Cl2(g) t. what is the maximum amount of work? Hint: You must balance the oxidation reduction reaction first, then you must use the stoichiometry to convert mole Als to moles of electrons and then you can use the Wmax, equation in chapter Report you answer in kiloJoules (kJ) with no decimal places and remember you sign.

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If a chemist only had 30.65 grams of Als) and an unlimited amount of Cl2g) then
what is the maximum amount of work? Hint: You must balance the oxidation-
reduction reaction first, then you must use the stoichiometry to convert moles of
Als) to moles of electrons and then you can use the W
max. equation in chapter 19.
Report you answer in kiloJoules (kJ) with no decimal places and remember your
sign.
Al3+(aa) + 3e™
(aд)
+3e →
Al(s) ; E°red. = -1.66 V
->
Cl2(3)
+ 2e¨ → 2CI(aa) ; E°red. = 1.36 V
DII
esc
000
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
#
%
2
3
5
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8
Transcribed Image Text:If a chemist only had 30.65 grams of Als) and an unlimited amount of Cl2g) then what is the maximum amount of work? Hint: You must balance the oxidation- reduction reaction first, then you must use the stoichiometry to convert moles of Als) to moles of electrons and then you can use the W max. equation in chapter 19. Report you answer in kiloJoules (kJ) with no decimal places and remember your sign. Al3+(aa) + 3e™ (aд) +3e → Al(s) ; E°red. = -1.66 V -> Cl2(3) + 2e¨ → 2CI(aa) ; E°red. = 1.36 V DII esc 000 F1 F2 F3 F4 F5 F6 F7 F8 F9 F10 # % 2 3 5 6 7 8
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