In the given tube liquid density `rho` is filled. Find the acceleration of the tuve towards right direction such that no liquid will fall out of the tube.

Figure shows as a L-shaped tube in which a liquid of density rho is filled. Find with what acceleration the tube is accelerated towards right so that no liquid will fall out of the tube.

A vertical U -tube has two liquids 1 and 2 . The heights of liquids columns in both the limbs are h and 2h , as shown in the figure. If the density of the liquid 1 is 2rho . a. Find the density of liquid 2 . b. If we accelerate the tube towards right till the heights of liquid columns will be the same, find the acceleration of the tube.

A narrow tube completely filled with a liquid is lying on a series of cylinders as shown in the figure. Assuming no sliding between any surfaces, the value of acceleration of the cylinders for which liquid will not come out of the tube from anywhere is given by

A container contains an incompressible and non - viscous liquid of density rho and is filled upto a height H . Now if container is moved towards right with an acceleration a then find the horizontal force exerted by liquid on the face ABCD of container . Assume container have enough height so that liquid does not fall outside the container .

A liquid of density rho is filled in a U-tube is accelerated with an acceleration a so that the height of liquid in its two vertical arms are h_1 and h_2 as shown in the figure. If l is the length of horizontal arm of the tube, the acceleration a is

A block of volume V and density rho is floating in a liquid of density 2 rho filled in a vessel. Now the vesset starts falling freely with acceleration g . Then the volume of block inside the liquid in the falling condition is

Length of a horizontal arm of U-tube is L and ends of both the vertical arms are open to atompsheric pressure P_(0) , A liquid of density rho is poured in the tube such that liquid just fills the horizontal part of the tube as shown in figure . Now one end of the opened ends is sealed and the tube is then rotated about a vertical axis passing through the other vertical arm with angular speed omega_(0) . if length of each vertical arm is a and in the sealed end liquid rises to a height y, find pressure in the sealed tube during rotation.

A container having a liquid of density rho is moving downwards with acceleration g/2 . Find the pressure difference between two vertical points in the liquid separated by h