derive an expression for the time required for completion of 1/3 of a first order reaction
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Answer:
ANSWER
ANSWERFor a zero order reaction,
ANSWERFor a zero order reaction,R=[R]
ANSWERFor a zero order reaction,R=[R] o
ANSWERFor a zero order reaction,R=[R] o
ANSWERFor a zero order reaction,R=[R] o −Kt
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R]
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o t=
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o t= k
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o t= k[R]
ANSWERFor a zero order reaction,R=[R] o −KtFor completion of the reaction, [R]=0Therefore,Kt=[R] o t= k[R] o
Explanation:
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