Consider a reaction `A(g) rarr 3B(g) + 2C(g)` with rate constant is `1.386 xx 10^(-2) "min"^(-1)` in a non-rigid closed container starting with `2` moles of `A` in `12.5 L` vessel initially, if reaction is allowed to take place at constant pressure and at `298 K` the conc. of after `100 min` is

The reaction A(g) rarr B(g) + 2C(g) is a first order reaction with rate constant 2.772 xx 10^(-3) S^(-1) . Starting with 0.1 mole of A in 2 litre vessel, find the concentration of A after 250 sec when the reaction is allowed to take place at constant pressrue at 300 K.

The reaction A (g) rarr B(g) + 2C (g) is a first order reaction with rate constant 3465 xx 10^(–6) s^(–1) . Starting with 0.1 mole of A in 2 litre vessel, find the concentration of A after 200 sec., when the reaction is allowed to take place at constant pressure and temperature.

The reaction A(g) to B(g) + 2C(g) is a first-order reaction with a rate constant of 2.303 xx 10^(-3)s^(-1) . Strating with 0.1 moles of 'A' in a 2 litre vessel, find the concentration of A after 301 sec when the reaction is allowed to take place at constant pressure at 300 K.

The reaction A(g) to B(g) + 2C(g) is a first-order reaction with a rate constant of 2.303 xx 10^(-3)s^(-1) . Strating with 0.1 moles of 'A' in a 2 litre vessel, find the concentration of A after 301 sec when the reaction is allowed to take place at constant pressure at 300 K.

The reaction A(g)toB(g)+2C(g) is a first order reaction with rate constant 2.772xx10^(-3)s^(-1) , Starting with 0.1 mole of A in 2 litre vessel, find the concentration of A after 250 sec when the reaction is allowed to take place at constant pressure and at 300 K? a) 0.0125 M b) 0.025 M c) 0.05 M d) none of these

For any reaction A(g) rarr B(g) , rate constant k = 8.21 xx 10^(-2) atm/min at 300 K. If initial concentration of A is 2M then what is the half life (in hr.)?