Given that `Delta H = 0` for mixing of two gases. Explain whether the diffusion of these gases into each other in a closed container is a spontaneous process or not ?

The molecules in gases frequently collide with each other and the sides of the container in which they are kept.

There are two closed containers A and B. Container A contains PCl_5 gas at 25^@C temperature and 1 bar pressure. Container B contains equilibrium mixture of gases obtained by partial decomposition of PCl_(5) (g) at the same temperature and pressure. Assuming that initially equal mole of PCl_(5) (g) at same temperature and pressure . Assuming that initially equal moles of PCl_(5) were taken into the containers ( before decomposition ), the gases are allowed to effuse through a pinhole in the containers, Which container will show higher rate of effusion ? Justify .

The rates of diffusion of two gases A and B are in the the ratio 1:4 A mixture contains these gases A and B in the ratio 2:3 The ratio of mole fraction of the gases A and B in the mixture is (assume that P_(A) =P_(B)) .

P-V plots for two gases during an adiabatic process are given in the figure: Plot A and plot B should correspond to :

Two bolcks to the same metal having same mass and at temperature T_1 and T_2 respectively ,are brought in contact with each other and allowed to attain thermal equilibrium at constant pressure .The change in entropy , Delta S for this process is :

Two bolcks to the same metal having same mass and at temperature T_1 and T_2 respectively ,are brought in contact with each other and allowed to attain thermal equilibrium at constant pressure .The change in entropy , Delta S for this process is :

State which type of chemical reactions proceed with - a. Evolution of heat energy b. Absorption of heat energy. State in each of the following reactions whether heat is evolved or absorbed - i. Water is added to quicklime ii. Two neutral gases on passage through an electric arc give niric oxide iii. Two neutral gases combine to give - a basic gas.

Consider the adjacent figure. A piston divides a cylindrical container into two equal parts. The lets part contains 1 mole of helium gas and the right part contains two moles or oxygen gas. The initial temperatures and pressures of the gases in the left chamber are T_(0) and p_(0) and the right chamber are (T_(0))/(2) and p_(0) respectively as shown in the figure. The piston as well as the walls of the container are adiabatic. After removal of the piston, gases mix homoganeously and the final pressure becomes p=(4n)/(13)p_(0) . Find the value of n.

Two gases occupy two containers (A) and (B). The gas in (A) of volume 0.11 m^3 experts a pressure of 1.38 Mpa . The gas in (B) of volume 0.16 m^3 experts a pressure of 0.69 Mpa. Two containers are united by a tube of negligible volume and the gases are allowed to intermingle. What is the final pressure in the container if the temperature remains constant ?

One of the exterior angles of a triangle is 80^0 , and the interior opposite angles are equal to each other. What is the measures of each of these two angles?