Question 1
If an ideal gas is heated and the pressure stays constant, what can we expect to happen to its volume?
Question 2
If a gas occupies 30 liters at a pressure of 2 atm, what volume will it occupy at 1 atm if temperature remains constant?
Question 3
What is the correct expression for Charles’s Law involving initial and final states of a gas?
Question 4
What is the Kelvin equivalent of 25°C, required for use in gas law calculations?
Question 5
What is one reason why the assumptions about ideal gas behavior might fail?
Question 6
Using the ideal gas law, what does it indicate if a balloon filled with gas doubles in volume but the temperature remains constant?
Question 7
In the ideal gas law equation PV = nRT, what does 'R' represent?
Question 8
What must be true for an ideal gas in terms of temperatures for calculations involving Charles's Law?
Question 9
What does the ideal gas assumption that particles do not interact with one another, except through elastic collisions, imply about inter-particle forces?
Question 10
When considering Avogadro’s Law, what is meant by 'standard conditions'?
Question 11
How does the pressure of an ideal gas change when the amount of gas in moles is doubled, but volume and temperature remain constant?
Question 12
Under what conditions do real gases behave most like ideal gases?
Question 13
According to Boyle's Law, what happens to the pressure of a gas if its volume is halved while the temperature remains constant?
Question 14
Which of the following variables does not affect the pressure exerted by an ideal gas in a container?
Question 15
What physical quantity changes in a gas if the temperature is increased at constant pressure according to Charles's Law?