Consider the barometer shown in figure. If a small hole is made at a point P in the barometer tube, will the mercury come out from this hole?

Consider the barometer shown in figure. Density of mercury is rho . A small hole is made at point S as shown. The mercury come out from this hole with speed v equal to

Consider the barometer shown in figure. Density of mercury is rho . A small hole is made at point S as shown. The mercury come out from this hole with speed v equal to

Consider a barometer tube filled with mercury as shown in the adjoining figure. If a hole is made at a point Q as shown in the figure, will mercury come out from this hole? Given reasons

Lok at the barometer shown in the figure. If a small hole is developed in the wall of the tube at point A, will the mercvuty leak out of it?

A tank with base area L^2 is filled with a liquid to height H. The tank is acceleration horizontally with acceleration a as shown in figure. If a small hole is made at the point A. then it is observed that the liquid does not come out of the tank. The magnitude of acceleration should be

A stopper is inserted in a small hole of the glass tube of the mercury barometer below the top level of the mercury in it. What happens when you pull out the stopper from the glass tube?

A rectangular tank of height 10m filled with water, is placed near the bottom of a plane inclined at an angle 30^(@) with horizontal. At height h form bottom a small hole is made (as shown in figure) such that the stream coming out from hole, strikes the inclined plane normally.Calculate h.

A rectangular tank of height 10m filled with water, is placed near the bottom of a plane inclined at an angle 30^(@) with horizontal. At height h form bottom a small hole is made (as shown in figure) such that the stream coming out from hole, strikes the inclined plane normally. Calculate h.

There are two holes on a water tank as shown in figure. Area of hole 2 is two times that of area of hole 1. Suppose v is the speed of liquid coming out and Q the volume of liquid flowing per second. Then