Density of gas is inversely proportional to absolute temperature and directly proportional to pressure
`rArr d prop P/T rArr (dT)/P` = constant `rArr (d_(1)T_(1))/P_(1) =(d_(2)T_(2))/P_(2)`
Density at a particular temperature and pressure can be calculated bousing ideal gas equation
`PV = nRT rArr PV = ("mass")/("molar mass (M)") x RT`
`P xx M =("mass")/("volume") xx RT rArr P xx M = d xx RT`
`d=(PM)/(RT)`
The density of `CO_2` at 1 atm and 273K is

Density of gas is inversely proportional to absolute temperature and directly proportional to pressure rArr d prop P/T rArr (dT)/P = constant rArr (d_(1)T_(1))/P_(1) =(d_(2)T_(2))/P_(2) Density at a particular temperature and pressure can be calculated bousing ideal gas equation PV = nRT rArr PV = ("mass")/("molar mass (M)") x RT P xx M =("mass")/("volume") xx RT rArr P xx M = d xx RT d=(PM)/(RT) The density of gas is 3.8 g L^(-1) at STP. The density at 27°C and 700 mm Hg pressure will be

Density of gas is inversely proportional to absolute temperature and directly proportional to pressure rArr d prop P/T rArr (dT)/P = constant rArr (d_(1)T_(1))/P_(1) =(d_(2)T_(2))/P_(2) Density at a particular temperature and pressure can be calculated bousing ideal gas equation PV = nRT rArr PV = ("mass")/("molar mass (M)") x RT P xx M =("mass")/("volume") xx RT rArr P xx M = d xx RT d=(PM)/(RT) Which of the following has maximum density?

At a constant temperature what is the relation between pressure P density d of an ideal gas ?

Using the equation of state pV=nRT , show that at a given temperature the density of gas is proportional to gas pressure p .

For V versus T curves at constant pressure P_1 and P_2 for and ideal gas shown in figure-

In a dilute gas at pressure P and temperature T, the mean time between successive collisions of a molecule varies with T as :

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 .

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 .

V vs T curves at constant pressure P_(1) and P_(2) for an ideal gas are shown below Which is correct ?

A vessel contains 1 mole of O_(2) gas (molar mass 32 ) at a temperature T . The pressure of the gas is P . An identical vessel containing one mole of He gas (molar mass 4 ) at a temperature 2T has a pressure of xP . Find the value of x.