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Chapter 3: Problem 3

A real gas will approach the behaviour of ideal gas at (a) low temperature and low pressure (b) low temperature and high pressure (c) high temperature and high pressure (d) high temperature and low temperature

Short Answer

Expert verified
The correct statement is (d) High temperature and low pressure.

Step by step solution

01

Understand Real and Ideal Gases

Real gases are those gases which do not exactly follow the Ideal Gas Law (PV=nRT), while an ideal gas strictly adheres to this law. Real gases deviate from the ideal gas law because of the molecular interactions and the volume occupied by gas molecules.
02

Analyze The Options

We have to choose the condition under which a real gas behaves like an ideal gas. We do this by eliminating the conditions that cause deviations. Low temperature and high pressure cause more deviations to ideal behavior. Hence, the viable options are those that involve high temperature and low pressure. This leaves us with (c) and (d).
03

Choose the Correct Statement

From step 2, we know that high temperature (which increases the kinetic energy and thus reduces the effect of intermolecular forces) and low pressure (since it increases the volume and reduces the chances of intermolecular collisions) causes a real gas to behave more like an ideal gas. Hence, the statement (d) High temperature and low pressure is the correct.

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Most popular questions from this chapter

Critical temperature means above this temperature at any pressure, any gas can be (a) liquefied (b) not liquefied (c) both statements are correct (d) Solified

A gas is said to behave like an ideal gas when the relation \(P V / T=\) constant. When do you expect a real gas to behave like an ideal gas? (a) When the temperature is low (b) When both the temperature and pressure are low (c) When both the temperature and pressure are high (d) When the temperature is high and pressure is low

Which set of conditions represent easiest way to liquefy a gas? (a) Low temperature and high pressure (b) High temperature and low pressure (c) Low temperature and low pressure (d) High temperature and high pressure

Which is not true in case of an ideal gas? (a) It cannot be converted into a liquid. (b) There is no interaction between the molecules. (c) All molecules of the gas move with same speed. (d) At a given temperature, \(P V\) is proportional to the amount of the gas.

An ideal gas, obeying kinetic theory of gases, can be liquefied: (a) It cannot be liquefied at any \(P\) and \(T\) (b) Its pressure is more than \(P\) at a temperature less than \(T\) (c) Its temperature is more than critical temperature \(T\) (d) Its pressure is more than critical pressure \(P\)
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