360878 A closed vessel have a small hole on one face of vessel near the bottom, as shown. The velocity (in \({{m} / {s}}\) ) of water coming out from the given hole at a given instant is

360879 A cylindrical vessel of \(90\;\,cm\) height is kept filled upto the brim. It has four holes 1,2,3,4 which are respectively at heights of \(20\;cm,30\;cm,45\) \(cm\) and \(50\;\,cm\) from the base. The water falling at the maximum horizontal distance from the vessel comes from

360880 A tank is filled to a height \(H\). The range of water coming out of a hole which is a depth \(H/4\) from the surface of water level is

360881 An ideal fluid flows in the pipe as shown in the figure. The pressure in the fluid at the bottom \(P_{2}\) is the same as it is at the top \(P_{1}\). If the velocity at the top \({v_1} = 2\;m/s\). Then the ratio of areas \(A_{1} / A_{2}\) is:

360878 A closed vessel have a small hole on one face of vessel near the bottom, as shown. The velocity (in \({{m} / {s}}\) ) of water coming out from the given hole at a given instant is

360879 A cylindrical vessel of \(90\;\,cm\) height is kept filled upto the brim. It has four holes 1,2,3,4 which are respectively at heights of \(20\;cm,30\;cm,45\) \(cm\) and \(50\;\,cm\) from the base. The water falling at the maximum horizontal distance from the vessel comes from

360880 A tank is filled to a height \(H\). The range of water coming out of a hole which is a depth \(H/4\) from the surface of water level is

360881 An ideal fluid flows in the pipe as shown in the figure. The pressure in the fluid at the bottom \(P_{2}\) is the same as it is at the top \(P_{1}\). If the velocity at the top \({v_1} = 2\;m/s\). Then the ratio of areas \(A_{1} / A_{2}\) is:

360878 A closed vessel have a small hole on one face of vessel near the bottom, as shown. The velocity (in \({{m} / {s}}\) ) of water coming out from the given hole at a given instant is

360879 A cylindrical vessel of \(90\;\,cm\) height is kept filled upto the brim. It has four holes 1,2,3,4 which are respectively at heights of \(20\;cm,30\;cm,45\) \(cm\) and \(50\;\,cm\) from the base. The water falling at the maximum horizontal distance from the vessel comes from

360880 A tank is filled to a height \(H\). The range of water coming out of a hole which is a depth \(H/4\) from the surface of water level is

360881 An ideal fluid flows in the pipe as shown in the figure. The pressure in the fluid at the bottom \(P_{2}\) is the same as it is at the top \(P_{1}\). If the velocity at the top \({v_1} = 2\;m/s\). Then the ratio of areas \(A_{1} / A_{2}\) is:

360878 A closed vessel have a small hole on one face of vessel near the bottom, as shown. The velocity (in \({{m} / {s}}\) ) of water coming out from the given hole at a given instant is

360879 A cylindrical vessel of \(90\;\,cm\) height is kept filled upto the brim. It has four holes 1,2,3,4 which are respectively at heights of \(20\;cm,30\;cm,45\) \(cm\) and \(50\;\,cm\) from the base. The water falling at the maximum horizontal distance from the vessel comes from

360880 A tank is filled to a height \(H\). The range of water coming out of a hole which is a depth \(H/4\) from the surface of water level is

360881 An ideal fluid flows in the pipe as shown in the figure. The pressure in the fluid at the bottom \(P_{2}\) is the same as it is at the top \(P_{1}\). If the velocity at the top \({v_1} = 2\;m/s\). Then the ratio of areas \(A_{1} / A_{2}\) is: