using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, `P_1` and `P_2` are gauge pressure , and `h_1` and `h_2` are heights .

The Bernoulli equation for this situation is `h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a"`
The velocity of the fluid leavening point (2) is constant and can be expressed as

using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, P_1 and P_2 are gauge pressure , and h_1 and h_2 are heights . The Bernoulli equation for this situation is h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a" The value of P_1 and P_2 are such that

using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, P_1 and P_2 are gauge pressure , and h_1 and h_2 are heights . The Bernoulli equation for this situation is h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a" If an Identical outlet were placed at exactly the same point on the left side of the container, the velocity would be

Water is flowing through a pipe as shown in figure. If P_(1), P_(2) and P_(3) are pressures and v_(1), v_(2) and v_(3) are velocities of water at the different sections as shown in figure, then

For V versus T curves at constant pressure P_1 and P_2 for and ideal gas shown in figure-

A horizontal tube has different cross sections at points A and B . The areas of cross section are a_(1) and a_(2) respectively, and pressures at these points are p_(1)=rhogh_(1) and p_(2)=rhogh_(2) where rho is the density of liquid flowing in the tube and h_(1) and h_(2) are heights of liquid columns in vertical tubes connected at A and B . If h_(1)-h_(2)=h , then the flow rate of the liquid in the horizontal tube is

The pressure P_(1) at the top of a dam and P_(2) at a depth h from the top inside water (density rho ) are related as :

The volume V versus temperature T graphs for a certain amount of a perfect gas at two pressure p_1 and p_2 are as shown in Fig. It follows from the graphs that p_1 is greater than p_2.

The volume V versus temperature T graphs for a certain amount of a perfect gas at two pressure p_1 and p_2 are as shown in Fig. Show that p_1 is less than p_2.

For the following concentration cell, to be spontancous Pt(H_2)P_1 atm. |HCl |Pt(H_2) P_2 atm which of the following is correct ?

In the circuit shown E, F, G and H are cells of emf 2V, 1V, 3V and 1V respectively and their internal resistance are 2Omega, 1Omega, 3Omega and 1Omega respectively.