A tube ` 1 cm^2 ` in cross section is attached to the top of a vessel 1 cm high and of cross section area ` 100 cm ^2 ` . Water is poured into the system filling it to a depth of 100 cm above the bottom of the vessel as shown in the figure. Choose the correct statement. (Take g ` = 10 m s ^(-2)` )

A tube 1 cm^2 in cross- section is attached to the top of a vessel 1 cm high and of cross - section 100 cm^2 Water is poured into the system filling it to a depth of 100 cm above the bottom of the vessel as shown in fig. Take g =10 ms^(-2) .

A tube 1 cm^2 in cross- section is attached to the top of a vessel 1 cm high and of cross - section 100 cm^2 Water is poured into the system filling it to a depth of 100 cm above the bottom of the vessel as shown in fig. Take g =10 ms^(-2) .

A chemical reaction takes place in a vessel of cross-sectional area 150 cm^2 . Due to the reaction , the piston of the vessel is moved upward by 15 cm against the external pressure of one atm. The work done by the system is

In a hydraulic machine, a force of 2 N is applied on the piston of area of cross section 10 "cm"^2 . What force is obtained on its piston of area of cross section 100 "cm"^2 ?

The area of base of a cylindrical vessel is 300 cm^(2) . Water ("density"=1000 kg m^(-3)) is poured into it up to a depth of 6 cm. Calculate : (a) the pressure and (b) the thrust of water on the base. (g=10ms^(-2)) .

For a toroid N = 500, radius = 40 cm, and area of cross section =10cm^(2) . Find inductance

3080 cm^(3) of water is required to fill a cylindrical vessel completely and 2310 cm ^(3) of water is required to fill it upto 5 cm below the top. Find : height of the vessel.

3080 cm^(3) of water is required to fill a cylindrical vessel completely and 2310 cm ^(3) of water is required to fill it upto 5 cm below the top. Find : radius of the vessel.

A cylindrical vessel open at the top is 20cm high and 10 cm in diameter. A circular hole of cross-sectional area 1cm^(2) is cut at the centre of the bottom of the vessel. Water flows from a tube above it into the vessel at the rate of 10^(2)cm^(3)//s . The height of water in the vessel under steady state is (Take g=10m//s^(2)) .

A water hose pipe of cross-sectional area 5cm^(2) is used to fill a tank of 120L . It has been observed that it takes 2 min to fill the tank. Now, a nozzel with an opening of cross-sectional area 1cm^(2) is attached to the hose. The nozzel is held so that water is projected horizontally from a point 1m above the ground. The horizontal distance over which the water can be projected is (Take g=10m//s^(2)) .