An open rectangular tank of dimensions `6mxx5mxx4m` contains water upto height of 2m. The vessel is accelerated horizontally with an acceleration of `a m//s^(2)` as shown. Take `rho_("water")=10^(3)kg//m^(3)`
`g=10m//s^(2)` atmospheric pressure `=10^(5)N//m^(2)`. Bese on above information answer the following questions:
Determine the height to which the water should be filled in the tank so that when `a=5m//s^(2)` no water comes out from the tank

An open rectangular tank of dimensions 6mxx5mxx4m contains water upto height of 2m. The vessel is accelerated horizontally with an acceleration of am//s^(2) as shown. Take rho_("water")=10^(3)kg//m^(3) g=10m//s^(2) atmospheric pressure =10^(5)N//m^(2) . Bese on above information answer the following questions: Determine the maximum value of a so that no water comes out from tan k.

An open rectangular tank of dimensions 6mxx5mxx4m contains water upto height of 2m. The vessel is accelerated horizontally with an acceleration of a m//s^(2) as shown. Take rho_("water")=10^(3)kg//m^(3) g=10m//s^(2) atmospheric pressure =10^(5)N//m^(2) . Bese on above information answer the following questions: Instead of open top if the vessel is closed then absolute pressure at point A would be [take a=(20)/(3)m//s^(2) and initially height of water in tank is 2m]

The capacity of a water tank of dimensions 10mxx5mxx1.5m is

A rectangular tank with base dimensions 6mxx11 m contains water up to 5m. All the water in this m. determine the height to which the water level rises.

An open rectangular tank 5m xx 4m xx 3m high containing water upto a height of 2m is accelerated horizontally along the longer side . (a) Determine the maximum acceleration that can be given without spilling the water .

The vessel shown in the figure contains water, take rho_("water")=1000kg//m^(2), g=m//s^(2) ). For this arrangement, answer the following questions: The net force acting on the base of the vessel is

The vessel shown in the figure contains water, take rho_("water")=1000kg//m^(2), g=m//s^(2) ). For this arrangement, answer the following questions: The net force acting on the base of the vessel is

The vessel shown in the figure contains water, take rho_("water")=1000kg//m^(2), g=m//s^(2) ). For this arrangement, answer the following questions: Mark out the correct statement(s).

What is force on the base of a tank of base area 1.5m^(2) when it is filled with water upto a height of 1m (rho_("water")=10^(3)kg//m^(3),P_(0)=10^(5)Pa and g=10m//s^(2))