A closed tube filled with water is rotating unformaly in a horizontal plane about the axis OO' as shown in the figure. The manometers A and B which are fixed on the tube at distances `r_(1) and r_(2)`, indicate pressures `P_(1) and P_(2)` respectively. The angular velocity `(omega)` of the tube is

A tube filled with water and closed at both ends uniformly rotates in a horizontal plane about the OO' axis. The manometers A and B fixed in the tube at distances r_(1) and r_(2) from rotational axis indicate pressure p_(1) and p_(2) respectively. Determine the angular velocity omega of rotation of the tube.

A tube filled with water and closed at both ends uniformly rotates in a horizontal plane about the OO' axis. The manometers A and B fixed in the tube at distances r_(1) and r_(2) from rotational axis indicate pressure p_(1) and p_(2) respectively. Determine the angular velocity omega of rotation of the tube.

A closed tube partly filled with water lies is a horizontal plane. If the tube is rotated about perpendicular bisector, the moment of inertia of the system. ......

A closed tube is filled with AB=2m BC=4cm water (rho=10^(3)kg//m^(3)) . It rotating about an axis shown in figure with an angular velocity omega=2 rad//s . Find, p_(A)-p_(C) .

A closed tube is filled with AB=2m BC=4cm water (rho=10^(3)kg//m^(3)) . It rotating about an axis shown in figure with an angular velocity omega=2 rad//s . Find, p_(A)-p_(C) .

A U -tube rotates with angular velocity omega about the vertical axis AB . What is the difference in fluid level h in terms of omega the radii r_(1) and r_(2) and the fluid density rho?

A U -tube rotates with angular velocity omega about the vertical axis AB . What is the difference in fluid level h in terms of omega the radii r_(1) and r_(2) and the fluid density rho?

A capillary tube is dipped in water as shown in the figure. If P_0 is the atmospheric pressure, P_A and P_B are pressure at A and B respectively then