The rate equation for the reaction `2A+B to C` is found to be : rate = k[A] [B] The correct statement in relation to this reaction is that the

The rate equation for the second order reaction 2A+B rarr C is found to be: rate = k[A][B] . The correct statement in relation of this reaction is that (a) The value of k is independent of the initial concentration of A and B . (b) t_(1//2) is a constant. (c) The rate of formation of C is twice the rate of disappearance of A . (d) The unit of k must be s^(-1)

For the reaction A + 3B to C + D rate of reactions prop [A][B]

Write the rate equation for the reaction 2A + B to C if the order of the reaction is zero .

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 _______

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:

A + 2B rarr C, the rate equation for this reaction is given as Rate = k[A] [B]. If the concentration of A is kept the same but that of B is doubled what will happen to the rate itelf?

The rate law for reaction A +2B hArr C + 2D will be :