For a closed container containing `100` mol of an ideal gas fitted with movable, frictionless, weightless piston operating such that pressure of gas remain constant at `8.21` atm, which graph repsents correct variation of log `V v//s` log `T` where `V` is in litre and `T` is in Kelvin ? `(R = 0.0821 (atmL)/(molK))`
Ten moles of an ideal gas are filled in a closed vessel. The vessel has cylinder and piston type arrangement and pressure of the gas remains constant at 0.821 atm. Which of the following graph represents correct variation of log V vs log T? (V = Volume in litre and T = temperature in Kelvin)
For a closed container containing 10 moles of an ideal gas, at constant pressure of 0.82 atm, which graph correctly represent, variation of log V us log T where volume is in litre and temp. in kelvin :
Identify the correct statement when a fixed amount of ideal gas is heated in a container fitted with a movable piston always operating at constant pressure.
3 moles of an ideal gas are contained within a cylinder by a frictionless piston and are initially at temperature T . The pressure of the gas remains constant while it is heated and its volume doubles . If R is molar gas constant , the work done by the gas in increasing its volume is
In a closed rigid container an ideal gas is filled. If the gas is heated, the graph of pressure (P) v/s root mean square speed (rms) will be :
One mole of an ideal gas is contained with in a cylinder by a frictionless piston and is initially at temperature T. The pressure of the gas is kept constant while it is heated and its volume doubles. If R is molar gas constant, the work done by the gas in increasing its volume is
If one mole of an ideal gas with C_(v) = (3)/(2) R is heated at a constant pressure of 1 atm 25^(@)C to 100^(@)C . Which is correct
V vs T curves at constant pressure P_(1) and P_(2) for an ideal gas are shown below Which is correct ?
NARENDRA AWASTHI-THERMODYNAMICS-Level 3 - Match The Column
