The gas phase decompoistion of dimethyl ether follows first order kinetics.
`CH_(3)-O-CH_(3)(g)rarrCH_(4)(g)+CO(g)`
The reaction is carried out in a constant volume container at `500^(@)C` and has a half life of `14.5 min`. Initially, only dimethyl ether is present at a pressure `0.40 atm`. What is the total pressure of the system after `12min`? (Assume ideal gas behaviour)

The gas phase decomposition of dimethyl ether follows first order kinetics. CH_3-O_CH_3(g)rarrCH_4(g)+CO(g)+H_2O(g) The reaction is carried out in a constant volume container at 500^@C , and has a half of life of 14.5 minutes. Initially, only dimethyl ether is present at a pressure of 0.40 atm. Assuming ideal gas behavior, the total pressure of the system after 12 minutes will be.

The gas phase decomposition of dimethylether follows first order kinetics CH_3-O-CH_3(g)rarrCH_4(g)+H_2(g)+CO_((g)) The reaction is carried out in constant volume container at 500^@C and has a half - life of 14.5 . Initially only dimethylether is present at a pressure of 0.40 atm . The total pressure of the system after 12 min is x/100 atm . The value of x is [Given 10^(0.25)=1.778 ]

The gas phase decomposition of dimethylether follows first order kinetics CH_3-O-CH_3(g)rarrCH_4(g)+H_2(g)+CO_((g)) The reaction is carried out in constant volume container at 500^@C and has a half - life of 14.5 . Initially only dimethylether is present at a pressure of 0.40 atm . The total pressure of the system after 12 min is x/100 atm . The value of x is [Given 10^(0.25)=1.778 ]

A gas phase decomposition of dimethyl either follows the 1st order kinetics CH_{3}OCH_{3}CH_{3}OCH_{3}harrCH_{4}(g)+H_{2}_(g)+CO_{(g)} . The reaction is carried out in a costant volume container at (500^oC) and has a half life period of 14.5 (min). Initially only dimethyl ether is present at a pressure of 0.4 atmosphere. What is the total pressure of the system after 12 (min) ? Assume Ideal behaviour

The gas phase decomposition of dimethyl ether follows the first order kinetics as CH_3 - O - CH_(3) (g) to CH_(4) (g) + H_(2) (g) + CO(g) This reaction is carried out in a constant volume container at temperature of 500°C and has a half-life of 14.5 min. Initially, only dimethyl ether is present at a pressure of 0.40 atm. After 12 min, find the total pressure of the system. Assume ideal gas behaviour.

CH_(3)O CH_(3) (g) to CH_(4)(g) + H_(2)(g) + CO(g) . The decomposition follows first order kietics at 500^(@)C and has half - life 14.5 min. Initially only dimethyl ether is present at a pressure of 0.4 atm. Calculate the pressure of the mixture after 12 min.

CH_(3)O CH_(3) (g) to CH_(4)(g) + H_(2)(g) + CO(g) . The decomposition follows first order kietics at 500^(@)C and has half - life 14.5 min. Initially only dimethyl ether is present at a pressure of 0.4 atm. Calculate the pressure of the mixture after 12 min.