The rate law for the reaction, `RCl+NaOH(aq)rarrROH +NaCl` is given by Rate =k[RCl] The rate of reaction will be

The rate law for the reaction RCl + NaOH(aq) rarr ROH + NaCl is given by Rate = k[RCl] . The rate of the reaction will be

The rate law for a reaction A + B to C + D is given by the expression k[A]. The rate of reaction will be

Assertion (A): For the reaction RCl + NaOH(g) rarr ROH + NaCl , the rate of reaction is reduced to half on reducing the cocentration of RCl to half. Reason (R ): The rate of the reaction is represented by k[RCl] , i.e., it is a first order reaction.

If the rate of reaction between A and B is given by rate =k[A][B]^(2) , then the reaction is

The given data are for the reaction, 2NO(g)+Cl(g)rarr2NOCl(g)" at "298K The rate law of the reactions is

Rate law for the reaction, A + 2B to C is found to be Rate = k [A] [B] Concentration of reactant 'B' is doubled keeping the concentration of 'A' constant, the value of rate constant will be _______

Rate law for the reaction A + 2B to C is found to be Rate = k [A] [B]. If the concentration of reactant B is doubled keeping the concentration of A constant, the value of rate constant will be

Rate law for the reaction A + 2B to C is found to be Rate =k[A][B] Concentration of reactant 'B' is doubled. Keeping the concentration of 'A' constant, the value of rate constant will be: