A sealed tank containing a liquid of density ` rho ` moves with a horizontal acceleration a, as shown in the figure. The difference in pressure between the points A and B is:

A sealed tank containing a liquid of density rho moves with horizontal acceleration a as shown in the figure. The difference in pressure between two points A and B will be

In the circuit shown in figure potential difference between the points A and B in the steady state is

There is a electric circuit as shown in the figure. Find potential difference between points a and b.

Figure shows a siphon. The liquid shown in water. The pressure difference P_B-P_A between the points A and B is

A liquid kept in a container has a horizontal acceleration 'a' as shown in figure. Using the pressure equation along the path ABC find the angle theta .

A beaker containing a liquid of density rho moves up with an acceleration a . The pressure due to the liquid at a depth h below the free surface of the liquid is.

An infinitely long line of linear charge density lambda is shown in the figure. The potential difference V_(A)-V_(B) between the two points A and B is

The pressure inside a liquid of density rho at a depth h is :

A U -tube of base length l filled with the same volume of two liquids of densities rho and 2rho is moving with an acceleration 'a' on the horizontal plane. If the height difference between the two surfaces (open to atmosphere) becomes zero, then the height h is given by

A ball of density ais released from rest from the centre of an accelerating sealed cubical vessel completely filled with a liquid of density rho . If the trough moves with a horizontal acceleration veca_(0) find the initial acceleration of the ball.