A cylindrical vessel of radius R=1m and height H=3m is filled with an ideal liquid up to a height of h=2 m. the contaienr with liquid is rotated about its central vertical axis such that the liquid just rises to the brim. Calculate the angular speed `(omega)` of the container.

A circular cylinder of radius R and height H is filled with water to a height (2//3)H . It starts rotating about its axis with constantly increasing angular speed. Choose the correct alternatives.

A circular cylinder of radius R and height H is filled with water to a height (2//3)H . It starts rotating about its axis with constantly increasing angular speed. Choose the correct alternatives.

A cylindrical vessel of diameter 0.3 m and height 0.6 m is filled two thirds with a liquid of specific gravity 0.8 . The vessel is rotated about its axis. a. Determine the speed of rotation when the liquid just starts spilling. b.Find the speed of rotation when the base is just visible. c. What is the percentate of liquid left in the vessel?

A cylindrical vessel of diameter 0.3 m and height 0.6 m is filled two thirds with a liquid of specific gravity 0.8 . The vessel is rotated about its axis. a. Determine the speed of rotation when the liquid just starts spilling. b.Find the speed of rotation when the base is just visible. c. What is the percentate of liquid left in the vessel?

A cylindrical vessel of radius r is filled with a homogeneous liquid upto a height h. It is found that the force exerted by the liquid column on the bottom of the cylinder is equal to the force exerted by the liquid on the sides of the cylinder. What is the relation between r and h?

A liquid is filled in a spherical container of radius R up to a height h . At this position the liquid surface at the end is also horizontal. The contact angle is

A liquid is filled in a spherical container of radius R up to a height h . At this position the liquid surface at the end is also horizontal. The contact angle is