A large open top container of negligible mass and uniform cross-sectional area `A` has a small hole of croos-sectional area `(A)/(100)` in its side wall near the bottom.The container is kept on a smooth horizontal floor and contains a liquid of density `rho` and mass `m_(0)`. Assuming that the liquid starts flowing out horizontally through the hole at `t = 0`, The acceleration of the container is `(x)/(10) m//s^(2)` than `x` is -

A large open top container of negligible mass and uniform cross sectional area A a has a small hole of cross sectional area A//100 in its side wall near the bottom. The container is kept on a smooth horizontal floor and contains a liquid of density rho and mass M_(0) . Assuming that the liquid starts flowing out horizontally through the hole at t=0 , calculate a the acceleration of the container and its velocity when 75% of the liquid has drained out.

A large open top container of negligible mass and uniform cross sectional area A a has a small hole of cross sectional area A//100 in its side wall near the bottom. The container is kept on a smooth horizontal floor and contains a liquid of density rho and mass M_(0) . Assuming that the liquid starts flowing out horizontally through the hole at t=0 , calculate a the acceleration of the container and its velocity when 75% of the liquid has drained out.

A large open top container of negligible mass and uniform cross sectional area A a has a small hole of cross sectional area A//100 in its side wall near the bottom. The container is kept on a smooth horizontal floor and contains a liquid of density rho and mass M_(0) . Assuming that the liquid starts flowing out horizontally through the hole at t=0 , calculate a the acceleration of the container and b its velocity when 75% of the liquid has drained out.

A large open top container of negligible mass and uniform cross sectional area A has a small uniform cross sectional area a in its side wall near the bottom. The container is kept over a smooth horizontal floor and contains a liquid of density rho and mass m_(0) . Assuming that the liqud starts flowing through the hole A the acceleration of the container will be

A large open top container of negligible mass and uniform ross sectional area A has a small uniform cross sectional area a in its side wall near the bottom. The container is kept over a smooth horizontal floor and contains a liquid of density rho and mass m_(0) . Assuming that the liqudi starts flowing through the hole A the acceleration of the container will be