The pipe shows the volume flow rate of an ideal liquid at certain time and its direction. What is the value of `Q` in `m^(3)//s`? (Assume steady state and equal area of cross section at each opening)

The figure shows a pipe and gives the volume flow rate (in cm^(3)//s ) and the direction of flow for all but one section . What are the volume flow rate and the direction of flow for that section ?

The rate of flow of heat through a metal bar of area of cross-section 1 m^2 when temperature gradient is 1^@C//m under steady state is called

Blood is flowing at the rates of 200 cm^(3)//sec in a capillary of cross-sectional area 0.5m^(2) . The velocity of flow, (in mm/sec) is:

Certain volume of a liquid is taken in a long glass tube and its temperature is increased at a uniform rate, the rate of increase in the length of the liquid depends on a) length of the liquid b) area of cross section of the glass tube c) coefficient of expansion of glass

(i) Air (density= rho ) flows through a horizontal venturi tube that discharges to the atmosphere. The area of cross section of the tube is A_(1) and at the constriction it is A_(2) . The constriction is connected to a water (density =rho_(0) ) tank through a vertical pipe of lenght H. Find the volume flow rate (Q) of the air through tube that is needed to just draw the water into the tube. (ii) A non viscous liquid of constant density rho flows in a stremline motion along a tube of variable cross section. The tube is kept inclined in the vertical plane as shown in the figure. The area of cross section of the tube at two points P and Q at heights of h_(1) and h_(2) are respectively A_(1) and A_(2) . The velocity of the liquid at point P is v. Find the work done on a small volume DeltaV of fluid by the neighbouring fluid as the small volume moves from P to Q.

A Pitot tube (figure) is mounted along the axis of a gas pipeline whose cross-sectional area is equal to S. Assuming the viscosity to be negligible, find the volume of gas flowing across the section of the pipe per unit time, if the difference in the liquid columns is equal to Deltah , and the densities of the liquid and the gas are rho_0 and rho respectively.

A piot tube figure is mounted along the axis of a gas pipeline whose cross -sectional area is equal to S. Assuming the viscosity to be negligible, find the volume of the gas flowing across the section of the pipe per unit time, if the difference in the liquid columns is equal to Deltah , and the densities of the liquids and the gas are rho_(0) and rho respectively.

In the figure shown density of lower liquid is three times of density of upper liquid. The cross- sectional areas of openings shown are same. The ratio of mass flow rate from upper opening to lower opening at initial moment is: