The decomposition of `N_2 O_5` in carbon tetrachloride solution has been found to be first order with respect to `N_2 O_5` with rate constant, `k-6.2xx10^-4s6-1`
`N_2 O_5(G)rarr2NO_2(g)+1/2O_2(g)`
Calculate the rate of reaction when
`[N_2 O_5]=2.50mol L^-1`

The decomposition of N_2O_5 in carbon tetrachloride Solution has been found to be first order With respect to N_2O_5 with rate constant, k = 6.2 xx10^-4 s^-1 N_2O_5 (solution) rarr 2NO_2 (solution) +1//2 O_2 (g) Calculate the rate of the reaction when [N_2O_5]= 0.50 mol L^-1

The decomposition of N_2 O_5 in carbon tetrachloride solution has been found to be first order with respect to N_2 O_5 with rate constant, k=6.2xx10^-4s^-1 N_2 O_5(G)rarr2NO_2(g)+1/2O_2(g) What concentration of N_2 O_5 would give a rate of 4.2xx10^-3 mol L^-1 s^-1 ?

The decomposition of hydrogen peroxide in the presence of iodide ion has been found to be first order with respect to H_2O_2 with rate constant k is 1.01 xx 10^(-2) min^(-1) . Calculate the rate of reaction when [H_2O_2] = 0.15 mol L^(-1)