Infinite number of flask are connected to one another as shown above. The volumes and pressure in each flask vary as shown. The stopcocks are initially closed. The common pressure, when all the stopcocks are opened, is : (Assume constant temperature)

Two nonconducting containers having volume V_(1) and V_(2) contain monoatomic and dimatomic gases respectivley. They are connected as shown in figure. Pressure and temperature in the two containers are P_(1), T_(1) and P_(2), T_(2) respectively. Initially stop cock is closed, if the stop coc is opened find the final pressure and temperature.

Three resistors, an ideal cell are connected as shown in figure. The switch is initially open. When we close the swithc, the current in the resistor R_(2) will.

The volume-temperature graphs of a given mass of an ideal gas at constant pressure are shown below. What is the correct order of pressure ?

The variation of pressure with volume of the gas at different temperatures can be graphically represented as shown in figure. On the basis of this graph answer the following question. (i) How will the volume of a gas change if its pressure is increased at constant temperature ? (ii) At a constant pressure, how will the volume of a gas change if the temperature is increased from 200 K to 400 K ?

Three identical capacitors and two identical batteries of negligible internal resistance are connected as shown in figure. Neglect the resistance of the wires and all the three switches are initially open. There is no charge on any capacitor initially In the above situation, what is work done by battery 2 due to closing of switch S_1 ?.

At room temperature following traction goes to completion 2AB(g)+B_(2)(g)rarr2AB_(2)(s) AB_(2) is solid with negligble vapour pressure below 0^(@)C . At 300 K, the AB in the smaller flask exerts a pressure of 3 atm and in the larger flask B_(2) exerts a pressure of 1 atm at 400 K when they are separated out by a close valve, The gases are mixed by opening the stop cock and after the end of the reaction the flask are cooled to 250 K The final pressure is :

A light bulb, a capacitor and a battery are connected together as shown here, with switch S initially open. When the switch S is closed, then which one of the following is true

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 containers A and B of equal volume V_(0)//2 each are connected by a narrow tube which can be closed by a value. The containers are fitted with pistons which can be moved to change the volumes. Initially the value is open and the containers contain an ideal gas (C_(p)//C_(v)=gamma) at atmospheric pressure P_(0) and atmospheric temperature 2T_(0) . The walls of the containers A are highly conducting and of B are non-conducting. The value is now closed and the pistons are slowly pulled out to increase the volumes of the containers to double the original value. (a) Calculate the temperature and pressure in the two containers. (b) The value is now opened for sufficient time so that the gases acquire a common temperature and pressure. Find the new values of the temperature and the pressure.

The air tight and smooth piston of a cylindrical vessel are connected with a string as shown. Initially pressure and temperature of the gas are P_(0) and T_(0) . The atmospheric pressure is also P_(0) . At a later time, tension in the string is (3)/(8) P_(0)A where A is the cross-sectional are of the cylinder. at this time, the temperature of the gas has become.