Explain the working of a venturimeter, Obtain an expression for the volume of liquid flowing per second through pipe.

Statement-1 : When an orifice is made in the middle of the wall of a vessel, the range of the liquid coming out of the orifice is equal to the height of the liquid. Statement-2 : Liquid is flowing through two identical pipes A and B. Volume of liquid flowing per second through A and B are v_(0) and 2v_(0) respectively. Flow in A is turbulent and steady in B. Statement-3 : Rate of flow of a viscous liquid through a pipe is directly proportional to he fourth power of the radius of pipe.

The rate of a flow V a of liquid through a capillary under a constant pressure depends upon (i) the pressure gradient (P/l) (ii) coefficient of viscosity of the liquid eta (iii) the radius of the capillary tube r. Show dimesionally that the rate of volume of liquid flowing per sec V∝ Pr^4 /ηl

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

Explain the term 'drift velocity' of electrons in a conductor. Hence obtain the expression for the current through a conductor in terms of 'drift velocity'.

Show that the pressure energy per unit volume of a liquid is P.

The current flowing through a conductor is given by I="ne"Av_(d) . (i) Identify each term in the equation. (ii) Obtain an expression for V_(d) , if the current flowing through the conductor of length / has its ends maintained at a potential difference V volt.

The ratio of the radius of the tube of a venturimeter is eta (eta gt 1) . The ratio of the densities of the liquid in the manometer and the moving fluid is eta _(1) . If the difference in heights of the liquid column in the manometer is h , find the minimum speed of flow of the fluid .

Obtain an expression for the volume strain in a medium when a longitudinal wave propagates through the medium.

(a) What is a heat engine ? Name the important part of a heat engine. (b) Explain the working of a Carnot engine. Obtain an expression for its efficiency.

Explain Poiseuille's formula for the volume of liquid flowing through a capillary tube - Describe an experiment to determine the coefficient of viscosity of a liquid by Poiseuiles formula.