The decomposition of `NH_(3)` on platinum surface is zero order reaction . What are the rates of porduction 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 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 decompoistion of ammonia on platinum surface follows the change 2NH_(3) rarr N_(2) + 3H_(2) If the decomposition 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) ?

The decomposition of NH_(3) on Pt surface is a zero order reaction. If the value of rate constant is 2 xx 10^(-4)" mole liter"^(-1)" sec"^(-1) . The rate of appearance of N_(2) and H_(2) are respectively {:(" N"_(2)," H"_(2)),("(1) "1xx10^(-4)" mol l"^(-1)"sec"^(-1),3xx10^(-4)" mol"^(-1)"sec"^(-1)),("(2) "3xx10^(-4)" mol l"^(-1)"sec"^(-1),1xx10^(-4)" mol"^(-1)"sec"^(-1)),("(3) "2xx10^(-4)" mol l"^(-1)"sec"^(-1),6xx10^(-4)" mol"^(-1)"sec"^(-1)),("(4) "3xx10^(-4)" mol l"^(-1)"sec"^(-1),3xx10^(-4)" mol"^(-1)"sec"^(-1)):}

The rate of decomposition of NH_(3)(g) at 10 atm on platinum surface is zero order . What is rate of formation (in M min^(-1) ) of H_(2) (g) , if rate constant of reaction 2NH_(3(g)) to N_(2)(g) +3H_(2)(g) is 2.0 M min^(-1) ?

The decomposition of NH, on platinum surface is zero order reaction. If rate constant (k) is 4xx10^(-3) Ms^(-1) , how long will it take to reduce the initial concentration of NH_(3) from 0.1 M to 0.064 M.

Decomposition of NH_(4)NO_(2)(aq into N_(2)(g) and 2H_(2)O(l) is first order reaction.

Assertion : The decomposition of gaseous ammonia on a hot platinum surface is a zero order reaction at high pressure. For a zero order reaction the rate of reaction is independent of initial concentration.

The first order rate constant for the decomposition of N_(2)O_(5) is 6.2 xx 10^(-4) sec^(-1) . The t_(1//2) of decomposition is