Real gases approach ideal behaviour at...

Real gases approach ideal behaviour at

low temperature and low pressure

low temperature and high pressure

high temperature and low pressure

high temperature and high pressure

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At high temperature and low pressure, the gas volume is infinitely large and both intermolecular force as well as molecular volume can be ignored. Under this condition postulates of kinetic theory applies appropriately and gas approaches ideal behaviour.

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Non-ideal gases approach ideal beheaviour under :

A: A real gas will approach ideal behaviour at high temperature and low pressure. R: At low pressure and high temperature z = 1, for all gases

A gas will approach ideal behaviour at

Real gases will approach the behaviour of ideal gases at

Assertion : For a certain fixed amount of gas the product PV is always constant Reason : Real gases deviate from ideal behaviour of low pressure and high temperature

What are ideal and real gases? What is the cause of deviation of real gases from the ideal gas behaviour ?

Statement-1 : At low pressure and high temperature real gas approaches the ideal gas behaviour. and Statement-2 : At low prossure and high temperature the molecules are negligible.

Boyle's temperature or Boyle point is the temperature at which a real gas starts behaving like an ideal gas over a particular range of pressure. A graph is plotted between compressibility factor Z and pressure P. What is the deviation of real gas from ideal behaviour in terms of compressibility factor , Z ?

Which of the following postulate of kinetic theory of gases is responsible for deviation of gases from ideal behaviour?

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