Water from a tap emerges vertically downwards with initial velocity `4 ms^(-1)`. The cross-sectional area of the tap is A. The flow is steady and pressure is constant throughout the stream of water. The distance h vertically below the tap, where the cross-sectional area of the stream becomes `(2//3)` A, is `(g=10 m s^(-2))`

Water from a tap emerges vertically downwards with initial velocity 4ms^(-1) . The cross-sectional area of the tap is A. The flow is steady and pressure is constant throughout the stream of water. The distance h vertically below the tap, where the cross-sectional area of the stream becomes ((2)/(3))A is (g=10m//s^(2))

Water from a tap emerges vertically downwards with an initial spped of 1.0ms^-1 . The cross-sectional area of the tap is 10^-4m^2 . Assume that the pressure is constant throughout the stream of water, and that the flow is steady. The cross-sectional area of the stream 0.15 m below the tap is

Water from a tap emerges vertically downward with an initial speed of 3.0 m/s. The cross-sectional area of the tap is 10^(-4)m^2 . Assume that the pressure is constant throughout the stream of water and that the flow is steady. The cross-sectional area of the stream 2 m below the tap is:

Water from a tap emerges vertically downwards with an initial velocity V_(0) . Assume pressure is constant throughout the stream of water and the flow is steady. Find the distance form the tap at which cross-sectional area of stream is half of the cross-sectional area of stream at the tap.

A horizontal pipeline carries water in a streamline flow. At a point along the pipe, where the cross- sectional area is 10cm^2 , the water velocity is 1ms^-1 and the pressure is 2000 Pa. The pressure of water at another point where the cross-sectional area is 5cm^2 , is........Pa. (Density of water =10^3kg.m^-3 )

A horizontal pipeline carries water in a streamline flow. At a point along the pipe, where the cross- sectional area is 10cm^2 , the water velocity is 1ms^-1 and the pressure is 2000 Pa. The pressure of water at another point where the cross-sectional area is 5cm^2 , is........Pa. (Density of water =10^3kg.m^-3 )

A piston of cross-sectional area 100 cm^(2) is used in a hydraulic pressure to exert a force of 10^(7) dyne on the water. The cross-sectional area of the other piston which support a truck of mass 2000 kg is

A horizontal pipeline carries water in a streamline flow. At a point along the tube where the cross sectional area is 10^(-2)(m^2) , the water velcity is 2m//s and the pressure is 8000Pa. The pressure of water at another point where cross sectional area is 0.5xx(10)^(-2)(m^2) is

A tank is filled by water ( rho = 10^3 kg//m^3 ). A small hole is made in the side wall of the tank at depth 10 m below water surface. A water jet emerges horizontal from the hole and falls at horizontal distance R from it. The amount of extra pressure (in terms of atmospheric pressure) that must be applied on the water surface, so that range becomes 3R on the on the ground will be (cross section area of hole is negligible and 1 atm = 105 Pa, g = 10 m/ s^2 )

Water is moving with a speed of 5.18 ms^(-1) through a pipe with a cross-sectional area of 4.20 cm^2 . The water gradually descends 9.66 m as the pipe increase in area to 7.60 cm^2 . The speed of flow at the lower level is