In the previous question let `V_(0)` be the volume of each container. All other details remain the same. The number of moles of gas in the container at temperature `2 T_(0)` will be

In the previous questions, if the mass of the body is half the mass of the earth, and all other data remain the same, then t is equal to

Two containers, each of volume V_(0) , joined by a small pipe initially contain the same gas at pressure P_(0) and at absolute temperature T_(0) . One container is now maintained at the same temperature while the other is heated to 2T_(0) . Find(1) commom pressure of the gas, and(2) the number of moles of gas in the container at temperature 2T_(0)

Two containers, each of volume V_0 , joined by a small pipe initially contain the same gas at pressure P_0 and at absolute temperature T_0 . One container is now maintained at the same temperature while the other is heated to 2 T_0 . If the number of moles of gas in the container at temperature 2T_0 is (nP_0 V_0)/( 3 RT_0) then 'n' is

Two identical container each of volume V_(0) are joined by a small pipe. The containers contain identical gases at temperature T_(0) and pressure P_(0) . One container is heated to temperature 2T_(0) while maintaining the other at the same temperature. The common pressure of the gas is P and n is the number of moles of gas in container at temperature 2T_(0) .

"One mole of all substances contain the same number of specified particles". What is the relation between mole and volume?

Two adiabatic containers have volumes V_(1) and V_(2) respectively. The first container has monoatomic gas at pressure p_(1) and temperature T_(1) . The second container has another monoatomic gas at pressure p_(2) and temperature T_(2) . When the two containers are connected by a narrow tube, the final temperature and pressure of the gases in the containers are P and T respectively. Then

Two adiabatic containers have volumes V_(1) and V_(2) respectively. The first container has monoatomic gas at pressure p_(1) and temperature T_(1) . The second container has another monoatomic gas at pressure p_(2) and temperature T_(2) . When the two containers are connected by a narrow tube, the final temperature and pressure of the gases in the containers are P and T respectively. Then

"One mole of all substances contain the same number of specified particles." What is the relation between number of moles and volume?