A horizontal oriented tube AB of length 5m rotates with a constant angular velocity 0.5 rad/s about a stationary vertical axis OO' passing through the end A. the tube is filled with ideal fluid. The end of the tube is open, the closed end B has a very small orifice. The velocity with which the liquid comes out from the hole (in m/s) is

A horizontally orientd tube of length l rotates with a constant angular velocity omega about a stationary vertical axis. XX passing through end A. The tube is filled with ideal fluid. The end A of tube is having pressure P_(0) . The closed end B has a small hole and at time t = 0, the fluid column has length of l. Find velocity of fluid relative to tube at the instant t = 0

A uniform rod of mass m and length l rotates in a horizontal plane with an angular velocity omega about a vertical axis passing through one end. The tension in the rod at a distance x from the axis is

a semicircle wire of radius R is rotated with constant angular velocity about an axis passing through one end and perpendicular to the plane of wire. There is a uniform magnetic field of strength B . The induced emf between the ends is

a semicircle wire of radius R is rotated with constant angular velocity about an axis passing through one end and perpendicular to the plane of wire. There is a uniform magnetic field of strength B . The induced emf between the ends is

A thin uniform copper rod of length l and mass m rotates uniformly with an angular velocity omega in a horizontal plane about a vertical axis passing through one of its ends. Determine the tension in the rod as a function of the distance r from the rotation axis. Find the elongation of the rod.

A rod of length l=2m is maintained to rotate with a constant angular velocity omega=1 rad//s about vertical axis passing through one end (fig). There is a spring of spring constant k=1 N//m which just encloses rod inside it in natural length. One end of the spring is attached to axis of rotation. S is sleeve of mass m=1kg which can just fix on rod. All surfaces are smooth. With what minimum kinetic energy (in J ) sleeve should be projected so that it enters on the rod without impulse and completely compresses the spring.

A horizontal thin tube of length 2L completely filled with a liquid of density delta rotates about a vertical axis passing through one of its end and along the diameter of its side face with an constant angular velocity omega . Two vertical thin long tubes are fitted with the horizontal tube to measure the pressure difference between points A and B which are at same horizontal level as shown. Neglect viscous forces and surfaces tension of liquid. The difference in the heights (h) of the liquid column in the two vertical thin tubes is :

A horizontal thin tube of length 2L completely filled with a liquid of density delta rotates about a vertical axis passing through one of its end and along the diameter of its side face with an constant angular velocity omega . Two vertical thin long tubes are fitted with the horizontal tube to measure the pressure difference between points A and B which are at same horizontal level as shown. Neglect viscous forces and surfaces tension of liquid. The graph of the pressure gradient ((dP)/(dx)) with the distance x meaured from the axis of rotation is :

A uniform stick of length l and mass m lies on a smooth table. It rotates with angular velocity omega about an axis perpendicular to the table and through one end of the stick. The angular momentum of the stick about the end is

A bent tube is lowered into a water stream as shown in figure. The velocity of the stream is V_(1) . The closed upper end is located at a height h_(0) and has a small orifice. To what height h will the liquid get spurt? brgt