The rate for the decomposition of `NH_(3)` on platinum surface is zero order. What are the rate of production of `N_(2)` and `H_(2)` if `K = 2.5 xx 10^(-4) mol litre^(-1)s^(-1)`?

The rate of decomposition of NH_(3) on platinum surface is zero order. What are rate of production of N_(2) and H_(2) if k=2.5 xx 10^(-4)Ms^(-) ?

The decomposition of NH_(3) on platinum surface is zero order reaction. What are the rates of production of N_(2) and H_(2) if k=2.5xx10^(-4)mol^(-1)"L s"^(-1) ?

The decomposition of NH_3 on platinum surface is a zero order reaction. What would be the rate of production of N_2 and H_2 if k=2.5xx10^(-4) "mol L"^(-1) s^(-1) ?

The decomposition of NH_(3) on platinum surface is zero order reaction the rate of production of H_(2) is (k=2.5xx10^(-4) M s^(-1))

The decompoistion of ammonia on platinum surface follows the change 2NH_(3) rarr N_(2) + 3H_(2) (a) What does (-d[NH_(3)])/(dt) denote? (b) What does (d[N_(2)])/(dt) and (d[H_(2)])/(dt) denote? ( c) If the decompoistion is zero order then what are the rates of Production of N_(2) and H_(2) if k = 2.5 xx 10^(-4) M s^(-1) ? If the rates obeys - (d[NH_(3)])/(d t) = (k_(1)[NH_(3)])/(1+k_(2)[NH_(3)]) , what will be the order for decompoistion of NH_(3) , if (i) [NH_(3)] is every less and (ii) [NH_(3)] is very high? ( k_(1) and k_(2) are constants)