The velocity of an electron at point `A_(1)` is `V_(0)` where cross sectional area is A. The velocity of electron at the end of contraction at point B, where cross sectional area is 2A, is `V_(1)`. Find the correct option:

A horizontal pipelline carries water in a streamline flow . At a point along the pipe , where the cross - sectional area is 10 cm^(2) , the water velocity is 1 m/s and pressure is 2000 Pa . The pressure of water at another point where cross - sectional area is 5 cm^(2) , is _______ (in Pa)

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 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

If A is the area of cross section of conductor, v_(d) is the drift velocity of electrons and n is the number of electrons per unit volume, then current density through conductor is

If cross- sectional area of limb I is A_(1) and that of limb II is A_(2) then velocity of the liquid in the tube will be, (cross- sectional area of tube is very small)

Water from a tap emerges vertically downwards with iitial velocity 4ms^(-1) . The cross-sectional area of the tap is A. The flow is steady and pressure is constant thorughout 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))

If velocity of efflux is v and area of orifice is A_(0) then

Water flowing steadily through a horizontal pipe of non-unifrom cross-section. If the pressure of water is 4xx10^(4)N//m^(2) at a point where cross-section is 0.02 m^(2) and velocity of flow is 2 ms^(-1) . The pressure at a point where cross-section reduces to 0.01 m^(2) is 3.4xx10^(n) Pa. What is the value of n ?

Choose correct option out of following with increase in n where T is time period and v is velocity of an electron.

A constant voltage is applied across a wire of constant length then how drigt velocity of electrons depends on area of cross-section of wire.