Ideal gas molecules, Pressure and temperature and State Phase diagram

Last updated over 2 years ago

13 questions

Instructions

1

Last updated over 2 years ago

13 questions

Instructions

Formative Generation Completed!

1

Match the parts of a phase diagram with their descriptions.

Draggable item		Corresponding Item

1

Draggable item		Corresponding Item

1

1

Draggable item		Corresponding Item

Formative Generation Completed!

Dalton's Law

Boyle's Law

Charles's Law

Avogadro's Law

Number of moles

Temperature

Pressure

Volume

1 x 10^23

6.02 x 10^23

6.02 x 10^22

1 x 10^22

Negligible in volume

Large in volume

Variable in volume

Moderate in volume

Charles's Law

Boyle's Law

Dalton's Law

Avogadro's Law

Inversely proportional

Directly proportional

Square Root Dependency

Unrelated

Makes pressure zero

Pressure remains constant

Increases the pressure

Decreases the pressure

Both pressure and volume

Pressure

Volume

Temperature

Pressure becomes zero

Pressure increases

Pressure remains constant

Pressure decreases

Draggable item		Corresponding Item

Draggable item		Corresponding Item

Draggable item		Corresponding Item
Phase change from solid to gas.		Condensation
Phase change from gas to liquid.		Melting
Phase change from solid to liquid.		Sublimation

Draggable item		Corresponding Item
Gas pressure and volume are inversely proportional at constant temperature.		Boyle's Law

Which law states that the volume of an ideal gas at constant temperature varies inversely with the pressure?

Dalton's Law

Boyle's Law

Charles's Law

Avogadro's Law

What does the 'n' in the ideal gas law equation PV=nRT stand for?

Number of moles

Temperature

Pressure

Volume

Assuming normal conditions, how many molecules does a mole of an ideal gas contain?

1 x 10^23

6.02 x 10^23

6.02 x 10^22

1 x 10^22

According to the kinetic molecular theory, gas particles are considered as...

Negligible in volume

Large in volume

Variable in volume

Moderate in volume

Which law states that at constant pressure and temperature, the volume of a gas is directly proportional to the number of moles of the gas?

Charles's Law

Boyle's Law

Dalton's Law

Avogadro's Law

What is the relationship between the pressure and volume of an ideal gas, assuming temperature is constant?

Inversely proportional

Directly proportional

Square Root Dependency

Unrelated

How does an increase in temperature affect the pressure of an ideal gas, if volume is kept constant?

Makes pressure zero

Pressure remains constant

Increases the pressure

Decreases the pressure

What is the internal energy of an ideal gas mainly dependent on?

Both pressure and volume

Pressure

Volume

Temperature

What happens to the pressure of an ideal gas when volume and quantity of gas are kept constant and temperature increases?

Pressure becomes zero

Pressure increases

Pressure remains constant

Pressure decreases

Match the phase changes with their descriptions.

Phase change from solid to gas.

Condensation

Phase change from gas to liquid.

Melting

Phase change from solid to liquid.

Sublimation

Correspond the behaviors of ideal gases with their descriptions.

Gas pressure and volume are inversely proportional at constant temperature.

Boyle's Law