An ideal gas expands following a relatio...

An ideal gas expands following a relation `(P^(2))/(rho)`= constant, where P = pressure and `rho` = density of the gas. The gas is initially at temperature T and density `rho` and finally its density becomes `(rho)/(3)`.
(a) Find the final temperature of the gas. (b) Draw the P – T graph for the process.

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During an experiment, an ideal gas is found to obey a condition (p^2)/(rho) = "constant" . ( rho = density of the gas). The gas is initially at temperature (T), pressure (p) and density rho . The gas expands such that density changes to rho//2 .

If P is the pressure and rho is the density of a gas, then P and rho are related as :

It P is the pressure and rho is the density of a gas, then P and rho are realted as :

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