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))`

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

The force does water exert on the base of a house tank of base area 1.5m^(2) when it is filled with water up to a height of 1 m is (g=10(m)/(s^(-2)))

The tension in a massles cable connected to an iron ball of 100 kg when it is submerged in sea water is ( rho_("iron")=8xx10^(3)" kg/m"^(3) and rho_("sea water")=1000" kg/m"^(3), g=10" m/s"^(2) )

A rigid cylindrical container having a cross sectional area of 0.2 m^(2) is filled with water up to a height of 5.0 m . There is a piston of negligible mass over the water. Piston can slide inside the container without friction. When a weight of 2000 kg is placed over the piston, it moves down by 0.25 mm compressing the water. rho= Density of water = 10^(3) kg//m^(2), P_(atm)= Atmospheric pressure =10^(5) N//m^(2) and g=10 m//s^(2) . With this information calculate the speed of sound in water.

A tube of small uniform cross section is used to siphon the water from the vessel. Then choose the correct alternative (s) : (rho_("water") = 10^(3) kg//m^(3), g = 10 m//s^(2), P_(atm) = 10^(5) Pa)

A tube of small uniform cross section is used to siphon the water from the vessel. Then choose the correct alternative (s) : (rho_("water") = 10^(3) kg//m^(3), g = 10 m//s^(2), P_(atm) = 10^(5) Pa)

A tank of square cross section (2mxx2m) is filled with water up to a height of 2.5 m . Find the thrust experienced by the vertical and botom of the tank (g=10m//s^(2)) .

A tank of square cross section (2mxx2m) is filled with water up to a height of 2.5 m . Find the thrust experienced by the vertical and botom of the tank (g=10m//s^(2)) .

A solid sphere of mass m=2 kg and density rho=500kg//m^(3) is held stationary relative to a tank filled with water. The tank is acceerating upward with acceleration 2m//s^(2) . Calculate (a) Tension in the thread connected between the sphere and the bottom of the tank. (b) If the thread snaps, calculate the acceleration of sphere with respect to the tank. (Density of water =1000kg//m^(3),g=10m//s^(2))