For `A to B`, [A] changed from `4.4 xx 10^(-2)M` to `3.2 xx 10^(-2) M ` in 25 min. Now `(-Delta[A])/(Delta t)` will be

For 2A to B , [A] changed from 0.08M to 0.04M in 100 seconds. Now (Delta [B])/(Delta t) will be

A gaseous phase reaction A_2 to B +0.5C shows an increase in pressure from 100 mm to 120 mm in 5 min. Now, - (Delta [A_2])/(Delta t) should be

For N_2O_4(g) to 2NO_2(g) , pressure is found to be increased from 700 mm to 800 mm in 10 min. Then (-Delta [P])/(Delta t) with respect to N_2O_4 is

The pressure in a monoatomic gas increases linearly from 4 xx 10^5 Nm^(-2) to 8 xx 10^5 Nm^(-2) when its volume increases from 0.2 m^3 to 0.5 m^3 . Calculate the following: increase in the internal energy,

The pressure in a monoatomic gas increases linearly from 4 xx 10^5 Nm^(-2) to 8 xx 10^5 Nm^(-2) when its volume increases from 0.2 m^3 to 0.5 m^3 . Calculate the following: molar heat capacity of the gas.

The pressure in a monoatomic gas increases linearly from 4 xx 10^5 Nm^(-2) to 8 xx 10^5 Nm^(-2) when its volume increases from 0.2 m^3 to 0.5 m^3 . Calculate the following: work done by the gas,

The pressure in a monoatomic gas increases linearly from 4 xx 10^5 Nm^(-2) to 8 xx 10^5 Nm^(-2) when its volume increases from 0.2 m^3 to 0.5 m^3 . Calculate the following: amount of heat supplied,

A barometer contains two uniform capillaries of radii 1.44 xx 10^(-3) m and 7.2 xx 10^(-4) If the height of liquid in narrow tube is 0.2m more than that in wide tube, the true pressure difference is computed to be P xx 310 N//m^2 Density of liquid = 10^3 kg//m^3 , surface tension = 72 xx 10^(-3) N/m and g= 9.8m//s^2 Find P.

For the formation of NH_3 from H_2 at 500 K, The concentration of N_2, H_2 and NH_3 at equilibrium are 1.5xx10^(-2) M , 3.0 x 10^(-2) M and 1.2 xx 10^(-2) M , respectively. The equilibrium constant for the reverse reaction is

Consider 10 ^(4) xx 2 ^(4)