Two moles of an ideal monoatomic gas are contained in a vertical cylinder of cross sectional area `A` as shown in the figure. The piston is frictionless and has a mass m. At a certain instant a heater starts supplying heat to the gas at a constant rate `q J//s`. Find the steady velocity of the piston under isobaric condition. All the boundaries are thermally insulated.

2000 mole of an ideal diatmic gas is enclosed in a vertica cylinder fitted with a piston and spring and spering as shown in the figeur. Initially, the spring is compressed by 5 cm and then the electric heater stats supplying energy to the gas at constant rate of 100 J//s and due to conduction through walls of cylinder and radiation, 20 J//s has been lost to surrounding. [k=1000N//m,g=10m//s^(2) , Atmospheric pressure, p_(0)=10^(5)N//m^(2) , Cross-section area of piston A=50cm^(2) Mass of piston m =1kg,R=8.3kJ//mol-K ] Based on above information, answer the following question : Increase in temperature of gas in 5 s is

2000 mole of an ideal diatmic gas is enclosed in a vertica cylinder fitted with a piston and spring and spering as shown in the figeur. Initially, the spring is compressed by 5 cm and then the electric heater stats supplying energy to the gas at constant rate of 100 J//s and due to conduction through walls of cylinder and radiation, 20 J//s has been lost to surrounding. [k=1000N//m,g=10m//s^(2) , Atmospheric pressure, p_(0)=10^(5)N//m^(2) , Cross-section area of piston A=50cm^(2) Mass of piston m =1kg,R=8.3kJ//mol-K ] Based on above information, answer the following question : Work done by the gas in t=5 s is

A vertical cylinder pistion system has cross-section S . It contains 1 mole of an ideal monoatomic gas under a pistion of mass M .At a certain instant a heater is switched on which transmits a heat Q per unit constant and the system is thermally insulated.

A vertical cylinder of cross-section area A contains one mole of an ideal mono-atmic gas under a piston of mass M At a certain instant a heater which supplies heat at the rate q J//s is switched ON under the piston. The velocity with which the piston moves upward under the condition that pressure of gas remains constant is [Assume on heat transfer through walls of cylinder]

A vertical cylinder of cross-section area A contains one mole of an ideal mono-atomic gas under a piston of mass M At a certain instant a heater which supplies heat at the rate q J//s is switched ON under the piston. The velocity with which the piston moves upward under the condition that pressure of gas remains constant is [Assume on heat transfer through walls of cylinder]

2 moles of a diatomic gas are enclosed in a cylinder piston arrangment. The area of cross section and mass of the piston are 1 cm^(2) and 1 kg respectively. A heater is supplying heat to the gas very slowly. Find heat supplied (in joule) by the heater is the piston moves through a distance of 10 cm. .

2 moles of a diatomic gas are enclosed in a cylinder piston arrangment. The area of cross section and mass of the piston are 1 cm^(2) and 1 kg respectively. A heater is supplying heat to the gas very slowly. Find heat supplied (in joule) by the heater is the piston moves through a distance of 10 cm. .

Two moles of an ideal gas are contained in a vertical cylinder with a frictionless piston. The piston is slowly displaced so that expansionin gas is isothermal at temperature T_(0)=400 K. find the amount of work done in increasing the volume to 3 times.t ake atmospheric pressure =10^(5)N//m^(2)