A liquid of density `'rho'` is rotated with an angular speed `'omega'` as shown in figure. Using the pressure equation concept find the equation of free surface of the liquid.
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A liquid of density rho is rotated by an angular speed omega as shown in figure,Using the concept of pressure equation, find a relation between h_(1),h_(2),x_(1) and x_(2) .

A liquid of density rho is rotated by an angular speed omega as shown in figure,Using the concept of pressure equation, find a relation between h_(1),h_(2),x_(1) and x_(2) .

A liquid kept in a container has a horizontal acceleration 'a' as shown in figure. Using the pressure equation along the path ABC find the angle theta .

A liquid kept in a container has a horizontal acceleration 'a' as shown in figure. Using the pressure equation along the path ABC find the angle theta .

A liquid of density rho is in a bucket that spins with angular velocity 'omega' as shown in figure. Prove that the free surface of the liquid has a parabolic shape. Find equation of this. .

A liquid of density rho is in a bucket that spins with angular velocity 'omega' as shown in figure. Prove that the free surface of the liquid has a parabolic shape. Find equation of this. .

A liquid of density rho is in a vessel rotating with angular velocity omega as shown in figure. If P_0 is the atmospheric pressure, find pressure at a radial distance r from the axis. .

A liquid of density rho is filled in a vessel up to height H and a hole of cross section area A is made at a depth h below the free surface of liquid. The speed of liquid coming out of the hole is independent of

A liquid of density rho is filled in a vessel up to height H and a hole of cross section area A is made at a depth h below the free surface of liquid. The speed of liquid coming out of the hole is independent of

A drop of liquid of density rho is floating half-immersed in a liquid of density d. If sigma is the surface tension, then what is the diameter of the drop of the liquid ?