A vessel or volume V contain a mixture of 1 mole of hydrogen and 1 mole of oxygen 9both considered as ideal). Let `f_1` (v) dv denote the fraction of molecules with speed between v and (v+ dv) with `f_2` (v)dv, similarly for oxygen. Then

A particle is moving in a verticle circle. If v_1 is the velocity of particle at highest point and v_2 is the velocity of particle at lowest point , then the relation between v_1 and v_2 is

A gas expands under constant pressure P from volume V_(1) to V_(2) The work done by the gas is

What is the relation between H_1,H_2 , u and v.

An aqueous solution of glucose is 10 % W/V in stength . The volume in which 1 g mole of it is dissolved will be ________.

A person travels along a straight road due east for the first half distance with speed v_1 and the second half distance with speed v_2 , the average speed of the person is

A vessel of volume V contains an ideal gas at absolute temperature T and pressure P. The gas is allowed to leak till its pressure falls to P'. Assuming that the temperature remains constant during leakage, the number of moles of the gas that have leaked is

In the given (V - T) diagram, what is the relation between pressures P_1 and P_2 ?

A body moves from A to B at a speed of 10 m/s and back to A along the same path at a speed of 20 m/s. Find its average speed and average velocity for the journey. [Hint : If s is the distance covered by the body between A and B, average speed = (2s)/(t_1 + t_2) = (2s)/[(s/v_1)+(s/v_2)} = (2v_1v_2)/(v_1 + v_2)

An object is placed at a distance u from a concave mirror and its real image is formed on the screen placed at distance v from the mirror. If f is the focal length of the mirror, then the graph between frac(1)(v) versus frac(1)(u) is (magnitude only)

If the velocity of a particle is v = At + Bt^2 . where A and B are constants, then the distance travelled by it between 1 s and 2 s is