The capacity of a cylindrical vessel with a hemispherical portion raised upward, at the bottom as shown in the given is `(pi r ^(2))/(3) ( 3 h - 2 r).`

The capacity of a cylindrical vessesl with a hemispherical portion raised upwards at the bottom as shown in the given figure is (pi r^(2))/(3) [3h - 2r] .

The capacity of a cylinder vessel with a hemisphere portion raised upward at the bottom as shown in the figure is (pir^(2))/(3) [3h - 2r]

Find the capacity of a cylindrical vessel, whose radius is 3m. and height 7m.

A water tank open at the top is hemispherical at the bottom and cylindrical above it.If radius of the hemisphere is 12m and the total capacity of the tank is 3312 pi backslash m^(3), then the ratio of the surface areas of the hemispherical and the cylindrical portions is (a) 1:1 (b) 3:5 (c) 4:5 (d) 6:5

The bottom of a cylindrical vessel has a circlular hole of radius r and at depth h below the water] level. If the diameter of the vessel is D, the find then speed with which the water level in the] vessel drops.

Consider a cuboidal vessel (2Rxx2RxxR) with as hemispherical cavity of radius R , kept at a horizontal smooth surface as shown in the figure. The vessel has very small hole of cross-sectional area "a". Now water of density rho is poured into space developed due horizontal surface adn vessel through hole very slowly. When the height of waer level is h , the vessel lifts off the surface and liquid leaks through space generated. (R=2m, rho=10^(3)kg//m^(3),m=9pi kg) . If the value of h is 5kcm , find the value of k . (Atmospheric pressure =10^(5)N//m^(2) ).

the base of cylindrical vessel is hemesphericl in shape with rdius R . If the vessel is filled with liquid of density p up to a height h. calculate the thrust on the base.

To what height should a cylindrical vessel be filled with a homogenous liquid to make to force on bottom equal to force on side? (R = radius of vessel )

A juice seller was serving his costumers using glasses as shown in the figure. The inner diameter of the cylindrical glass was 5 cm but bottom of the glass had a hemispherical raised portion which reduced the capacity of the glass. If the height of a glass was 10 cm, find the apparent and actual capacity of the glass. (Use pi = 3.14)