There are two holes, each of cross-sectional area a, on the opposite side of a wide rectangular tank containing a liquid of density`rho`. When the liquid flows out of the holes, find the net force on the tank. Given h is the vertical distance between two holes.

There are two holes, each of cross-sectional area a, on the oppisite side of a wide rectangular tank containing a liquid of density rho . When the liquid flows out of the holes the net force on the tank is [ h is the vertical distance between the two holes].

There are two identical small holes of area of cross section a on the opposite sides of a tank containing liquid of density rho . The differences in height between the holes is h . The tank is resting ona smooth horizontal surface. The horizontal force which will have to be applied on the tank to keep it inequilibrium is

There are two identical small holes of area of cross section a on the opposite sides of a tank containing liquid of density rho . The differences in height between the holes is h . The tank is resting ona smooth horizontal surface. The horizontal force which will have to be applied on the tank to keep it inequilibrium is

There are two holes one each along the opposite sides of a wide rectangular tank. The cross-section of each hole is 0.01 m^2 and the vertical distance between the holes is 1 m. The tank is filled with water. The net force on the tank in newton when the water flows out of the holes is (Density of water = 1000 kgm^(-3) )

There are two holes each along the opposite sides of a wide rectangular tank. The cross section of each hole is 0.01 m^2 and the vertical distance between the holes is one meter. The tank is filled with water. The net force on the tank in newton when the water flows out of the holes is ( density of water = 1000 kg/m^3)