08. A ring shaped tuba equal masses and rel. Į (d) Ch aped tube contains two ideal gases with es and relative molar masses M, = 32 and 28. The gases are separated by one fixed in P and another movable stopper S which can freely without friction inside the ring. The in equilibrium as shown in the figure M = 28. Th partition Panda move freely without fr (in degrees) is My M2 (b) 219 (a) 291 (c) 129 (d) 192

A ring shaped tube contain two ideal gases with equal masses and relative molar masses M_1=32 and M_2=28. The gases are separated by one fixed partion and another movable stopper S which can move freely without friction inside the ring. The angle alpha as shown in the figure is ...... degrees.

A ring shaped tube contain two ideal gases with equal masses and molar masses M_1=32 and M_2=28. The gases are separated by one fixed partition P and another movable stopper S which can move freely without friction inside the ring. The angle alpha as shown in the figure is ...... degrees.

A ring - shaped tube contains two ideal gases with equal masses and relative molar masses M_(1)=32 and M_(2)=28 . The gases are separated by one fixed partition and another movable stoper S which can move freely without friciton inside the ring . What is the value of the angel alpha (in degree) at equilibrium ?

An ideal monoatomic gas is enclosed in a fixed horizontal adiabatic cylinder of cross sectional area A. The cylinder is fitted with an adiabatic piston of mass m (attached to one end of a spring as shown) which can move horizontally without friction inside the cylinder. In equilibrium, the spring is in natural length and pressure and volume are P_0 and V_0 respectively. The piston is slightly displaced from equilibrium and released. Then, frequency of small oscillation is

A ring shaped tube has uniform cross sectional area and its entire volume is 2V_(0) . The tube is well insulated from the surrounding. Inside the tube there is an adiabatic fixed wall S_(1) and another movable adiabatic partition S_(2) . Initially, the movable partition is diametrically opposite to S1 and the two halves of the tube have equal amount of an ideal gas (g = 1.5) at same pressure P_(0) . Now, a heater H is switched on which supplies heat slowly to one of the chambers. Heater is kept on till the partition S_(2) moves through the quarter of the circle. At this position the heater is switched off and the partition S_(2) remains in equilibrium. Neglect any friction as well as heat loss to the surrounding through the walls of the tube. Find the heat supplied by the heater to the gas.

A conducting piston separates a cylindrical tube into two compartments A and B. The two compartments contain equal mass of two different gases. The molar mass of two gases are M_(A) = 32 g " and " M_(B) 28 g . Find the ratio of lengths (X_(1) : X_(2)) of the two compartments in equilibrium.

One end a light spring of natural length d and spring constant k ( = mg //d) is fixed on a rigid support and the other end is fixed to a smoth ring of mass m which can slide without friction on a vertical rod fixed at a distance d from the support. Initially , the spring makes an angle of 37^(@) with the horizontal as shown in the figure. The system is released from rest. The speed of the ring at the same angle subtended downward will be

One end a light spring of natural length d and spring constant k ( = mg //d) is fixed on a rigid support and the other end is fixed to a smoth ring of mass m which can slide without friction on a vertical rod fixed at a distance d from the support. Initially , the spring makes an angle of 37^(@) with the horizontal as shown in the figure. The system is released from rest. The speed of the ring at the same angle subtended downward will be

Three blocks A,B and C of equal mass m are placed one over the other on a smooth horizontal ground as shown in figure. Coefficient of friction between any two blocks of A,B and C is 1/2. the maximum value of mass of block D so that the blocks A,B and C move without slippping over each other is