The decompoistion of `Cl_(2)O_(7)` at `400 K` in gas phase to `Cl_(2)` and `O_(2)` is a first order reaction.
a. After `55 s` at `400 K`, the pressure of `Cl_(2)O_(7)` falls form `0.062` to `0.044 atm`. Calculate `k`.
b. Calculate the pressure of `Cl_(2)O_(7)` after `100 s` of decompoistion.

The decomposition of Cl_2O_7 at 400 K in the gas phase to Cl_2 and O_2 is a first order reaction. After 55 seconds at 400 K, the pressure of Cl_2O_7 falls from 0.062 to 0.044 atm. Calculate the rate constant.

The decomposition of Cl_2O_7" at " 400 K in the gas phase to Cl_2 and O_2 is a first order reaction. After 50 seconds at 400 K, the pressure of Cl_2O_7 falls from 0.062 to 0.044 atm. Calculate the rate constant.

The decomposition of Cl_2O_7" at " 400 K in the gas phase to Cl_2 and O_2 is a first order reaction. After 50 seconds at 400 K, the pressure of Cl_2O_7 falls from 0.062 to 0.044 atm. Calculate the rate constant.

The decomposition of Cl_2O_7 , at 400 K in the gas phase to Cl_2 and O_2 is a first order reaction : After 55s at 400 K the pressure of Cl_2O_7 falls from 0.062 to 0.044 atm. Calculate the rate constant.

The decomposition of Cl_(2)O_(7) at 500 K in the gas phase to Cl_(2) and O_(2) is a first order reaction. After 1 minute at 500 K, the pressure of Cl_(2)O_(7) falls from 0.08 to 0.04 atm. Calculate the rate constant in s^(-1) .

The decomposition of Cl_2O_7" at " 400 K in the gas phase to Cl_2 and O_2 is a first order reaction. after 55 seconds at 400K, the pressure of Cl_2 falls from 0.062 atm to 0.044 atm. Calculate the rate constant Calculate the pressure of Cl_2O_7 after 100 sec of decomposition at this temperature.