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

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.

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.

A tank with base area L^2 is filled with a liquid to height H. The tank is acceleration horizontally with acceleration a as shown in figure. If a small hole is made at the point A. then it is observed that the liquid does not come out of the tank. The magnitude of acceleration should be

A cylindrical container of radius 'R' and height 'h' is completely filled with a liquid. Two horizontal L -shaped pipes of small cross-sectional area 'a' are connected to the cylinder as shown in the figure. Now the two pipes are opened and fluid starts coming out of the pipes horizontally in opposite directions. Then the torque due to ejected liquid on the system is

A cylindrical container of radius 'R' and height 'h' is completely filled with a liquid. Two horizontal L -shaped pipes of small cross-sectional area 'a' are connected to the cylinder as shown in the figure. Now the two pipes are opened and fluid starts coming out of the pipes horizontally in opposite directions. Then the torque due to ejected liquid on the system is

A cylindrical container of radius 'R' and height 'h' is completely filled with a liquid. Two horizontal L -shaped pipes of small cross-sectional area 'a' are connected to the cylinder as shown in the figure. Now the two pipes are opened and fluid starts coming out of the pipes horizontally in opposite directions. Then the torque due to ejected liquid on the system is

A liquid is contained in a vertical tube of semicircular cross-section as shown in figure. If the angle of contact is zero , then the ratio of the force of surface tension on flat side to curved side of the tube will be

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.

Two liquids which do not react chemically are placed in a bent tube as shown in figure. The height of the liquids above their surface of separation are