The rate of the reaction: CH(3)COOC(2)...

The rate of the reaction:
`CH_(3)COOC_(2)H_(5) + NaOH to Ch_(3)COONa + C_(2)H_(5) OH` is given by the equation,
rate `= k [CH_(3) COOC_(2)H_(5)][NaOH]`
If concenration is expressed in mol/L the units of k are

`litre^2"mole"^2 sec^(-1)`

`mol e. Litre^(-1)sec^(-1)`

`litre. Mol e^(-1)sec^(-1)`

`sec^(-1)`

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The rate equation for the reaction CH_3COOC_2H_5+H_2O to^([H^+]) CH_3COOH+C_2H_5OH is: (dx)/(dt)=k[CH_3 COOC_2H_5][H_2O]^0 If the concentration of ester is doubled the rate becomes

Assertion (A) : The order of the reaction, CH_(3)COOC_(2)H_(5) + H_(2)O hArr CH_(3)COOH + C_(2)H_(5)OH is 2 . Reason (R ): The molecularity of this reaction is 2 .

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The rate of the reaction: `CH_(3)COOC_(2)H_(5) + NaOH to Ch_(3)COONa + C_(2)H_(5) OH` is given by the equation, rate `= k [CH_(3) COOC_(2)H_(5)][NaOH]` If concenration is expressed in mol/L the units of k are

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The rate of the reaction:
`CH_(3)COOC_(2)H_(5) + NaOH to Ch_(3)COONa + C_(2)H_(5) OH` is given by the equation,
rate `= k [CH_(3) COOC_(2)H_(5)][NaOH]`
If concenration is expressed in mol/L the units of k are