For an ideal liquid

Two volatile liquide A and B are mixed in mole ratio 1:3, to form an ideal liquid solution Vapour pressure of pure. A and B are 600 torr and 200 torr. Volume of container for vapour is 76 litre. (R= 1//12" " "litre" " "atm//K//"mole") Calculate the mole of A in vapour phase at 300 K, assuming negligible amount of vapour is present compared to liquid in container

What are the qualities of an ideal liquid?

The velocity of efflux of an ideal liquid does not depend on

Boiling point of an ideal liquid solution containing non-volatile solute depends on:

What happeds to the pressure of an ideal liquid when it passes through a region where its speed increases?

In the figure, an ideal liquid flows through the tube, which is of uniform cross section. The liquid has velocities v_(A) and v_(B) , and pressures P_(A) and P_(B) at the points A and B , respectively. Then

Assertion: The velocity of flow of a liquid is smaller when pressure is larger and viceversa. Reason: According to Bernoulli's theorem, for the stream line flow of an ideal liquid, the totla energy per unit mass remains constant.

The pipe shows the volume flow rate of an ideal liquid at certain time and its direction. What is the value of Q in m^(3)//s ? (Assume steady state and equal area of cross section at each opening)

Figure shows a closed container completely filled with an ideal liquid of density rho . In the liquid there is a spherical body of volume V and density sigma attached to a string whose other end is attached to the roof of the container. The container is accelerating with an acceleration 'a' towards right. The force exerted by the liquid on the spherical body when it is in equillibrium with respect to the liquid, will be :