The order for the reaction given below is ......... .
`N_(2) O_(5)(g) hArr N_(2) O_(4) (g) + (1)/(2) O_(2) (g)`

What is the order of the reaction given below ? 2N_2O_5rarr2N_2O_4+O_2

For the decomposition of N_(2) O_(5) given as, N_(2) O_(5) (g) to N_(2) O_(4) (g) + 1//2O_(2) (g) If the rate law =K [N_(2) O_(5) ] and K=1.68 xx 10^(-2)" s"^(-1) , starting with 2.5 moles, of N_(2) O_(5)(g) in a 5.0"L" container at 298K, how many moles of N_(2) O_(5) would remain after 1.0 minutes?

The reaction 2N_2 O_5 harr 2N_2 O_4 + O_2 is

The data given below is for the reaction, 2N_(2) O_(g) (g) to 4NO_(2) (g) + O_(2) (g) Determine for the above reaction, order of reaction

The data given below is for the reaction, 2N_(2) O_(g) (g) to 4NO_(2) (g) + O_(2) (g) Determine for the above reaction, rate law

The data given below is for the reaction, 2N_(2) O_(g) (g) to 4NO_(2) (g) + O_(2) (g) Determine for the above reaction, rate constant

The experimental data for the decomposition of N_(2) O_(5) , [2N_(2) O_(5) to 4NO_(2) + O_(2)] in gas phase of 318 K are given below: Find the half-life period for the reaction.

The experimental data for the decomposition of N_(2) O_(5) , [2N_(2) O_(5) to 4NO_(2) + O_(2)] in gas phase of 318 K are given below: Calculate the rate constant.