Two cylinders A and B of equal capacity are connected to each other vis a stop cock. A contains an ideal gas at standard temperature and pressure. B is completely evacuated. The sto cock is suddenly opened. The process is:

Two cyclinder A and B of equal capacity are connected to eachother via a stopcock. The cyclinder A contains an ideal gas at standard temperature and pressure, while the cyclindr B is completely evacuated. The entire system is thermally insulated. The stopcock is suddenly opened. Answer the following: (a) What is the final pressure of the gas in A and B? (b) What is the change in internal energy of the gas? (c ) What is the change in temperature of a gas? (d) Do the intermidiate states of the system (before settling to the final equilibrium state)lie on its P-V-T surface?

A container with insulating walls is divided into two equal parts by a partition fitted with a valve. One part is filled with an ideal gas at a pressure P and temperature T, whereas the other part is completely evacuated . If the valve is suddenly opened, the pressure and temperature of the gas will be

Two flask A and B of equal capacity contains CO_(2) and O_(2) gas under similar conditions their ratio of atoms is :-

A cylinder of fixed capacity 44.8 litre. contains a monatomic gas at standard temperature and pressure. The amount of heat required to cylinder by 10^(@)C will be. ( R= univerasl gas constant )

Two bulbs 'X' and 'Y' of equal volumes are connected through a stop cock. Each bulb contained 9.6 g of dioxygen gas at 0.4 atm pressure and 300 K The first bulb 'X' is then heated to 500K keeping bulb 'Y' at 300 K. Final pressure in bulb 'X' is:

Two spherical vessel of equal volume are connected by a n arrow tube. The apparatus contains an ideal gas at one atmosphere and 300 K . Now if one vessel is immersed in a bath of constant temperature 600 K and the other in a bath of constant temperature 300 K . then the common pressure will be

Two bulbs 'X' and 'Y' of equal volumes are connected through a stop cock. Each bulb contained 9.6 g of dioxygen gas at 0.4 atm pressure and 300 K The first bulb 'X' is then heated to 500K keeping bulb 'Y' at 300 K. Final number of moles of dioxygen in vessel 'Y' would be:

A mixture containing 1.12 litre D_(2) and 2.24 liter of H_(2) at NTP is taken inside a bulb connected to another bulb through a stop cock with a small opening The second bulb is fully evacuated The stop cock is opened for a crtian time and then closed The first bulb is now found to contain 0.10g of D_(2) Determine the % by weight of the gases in second bulb .