The pressure (p) and the dencity `rho` of given mass of a gas expressed by Boyle's law, `p = K rho` holds true.

Suppose the pressure p and the density rho of air are related as p//rho^n = const regardless of height ( n is a constant here). Find the corresponding temperature gradient.

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

Which one of the given pressure versus volume plots represents Boyle's law ?

If P,V, and T represent pressure, volume and temperature of the gas, the correct representation of Boyle's law is

Assertion : Boyle's law expresses in a quanatitative manner the important fact that gases are compressible Reason : Tempeature remaining constant, the volume of a given mass of a gas is inversely proportional to pressure

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 .

For Boyle's law to be hold good, the gas should be