Gases Unit 2026 Review Jeopardy Template

KMT

Combined Gas Laws

Ideal Gas Law

Unit Conversions

Multiple Laws

100

The large amount of THIS between gas particles greatly accounts for their high compressibility.

30sec

Empty Space

100

THIS law is the part of the combined gas law that only describes the inverse relationship of pressure and volume.

15sec

Boyle's Law

100

THIS variable within the ideal gas law links pressure, volume, temperature and number of particles.

10sec

R or ideal gas constant.

100

23.5^oC in Kelvin

SIG FIGS

30sec

297K

100

A bottle is made up of 50.% Argon and 50.% Carbon Dioxide. If the pressure of the bottle is 1.4atm, the volume of the bottle is 1.4L and the temperature is 298K, how many moles of argon are in the bottle?

2min

4.0x10^-2mol

200

The innumerable elastic collisions of gas particles against the walls of a container account for THIS.

30sec

Pressure

200

THIS happens to my pressure when my Temperature doubles.

30sec

The pressure doubles.

200

A 12L container of gas holds 1.5atm of gas at 310K. Find the moles of gas in the container.

1min

0.71mol of Gas

200

253kPa in atm

SIG FIGS

30sec

2.50atm

200

CO₂ gas is stored in a 22.6L container at 155.6kPa. O₂ is stored in a separate 32.6L container at 105.3kPa. If all of the CO₂ gas is transferred into the oxygen's container, what is that container's pressure? (Assume temperature remained constant.)

2min

213kPa

300

Gases will expand to fill the entire _____ of their container.

30sec

Volume

300

THIS is the pressure of a gas that that moved from a 33.4L container with a pressure of 231kPa to a new container with a volume of 12.7L.

1min

608kPa

300

A container of gas holds 0.45mol of gas at 155kPa and 310K. Find the volume of the container.

1min

7.5L

300

126Pa to atm

SIG FIGS

1min

1.24x10^-3atm

300

Container A holds 2.4L of gas A at 1.33atm. Container B holds 2.4L of gas B at 1.26atm. Both gases are transferred into tank C, which is 2.0L. What is the pressure in tank C if the temperature remains constant?

2min

3.1atm

400

Because of kinetic energy, if Argon, Oxygen, Chlorine and Nitrogen gas are at the same temperature, THIS gas will be moving faster.

30sec

Nitrogen

400

A 4.55L container of gas has a pressure of 4.85atm and a temperature of 298K. What is the new pressure if the gas is moved into a new container with a volume of 13.5L and a temperature of 315K?

1min

1.73atm

400

A container of gas holds an unknown amount of Cl₂at 285kPa and 298K. If the container is 18.3L, find the mass of the chlorine in the container.

2min

149g Cl₂

400

101 psi to kPa

SIG FIGS

1min

696kPa

400

A container holds 27.5% CO₂ 33.9%N₂ and 38.6% He. The container is at 12.5atm and is 26.8L in volume. If the temperature of the container is 32.6^oC, what is the mass of Nitrogen in the container?

3min

127g N₂

500

This real gas most closely follows the model of an ideal gas.

1 minute

500

A gas is moved from a 65.0L container to a 215L container, while the temperature changes from 33.3^oC to -25.4^oC. If the gas is now at 482kPa, what was the original pressure? answer in kPa

1.5min

1,970kPa

500

85.6g of argon gas is in a 55.3L container at 144kPa. If all the argon is moved to a new container with half the volume, what is the temperature (^oC) in the new container if the pressure was to remain constant?

4min

-49.7^oC

500

15.5mmHg to Torr

1min

15.5 Torr

500

Gas A is being held in a 2.60L tank at 255kPa. Gas B is being held in a 4.86L tank at 184kPa. Gas C is being held in a 1.80L tank at 344kPa. 20.0% of gas A, 50.0% of gas B, and 100.0% of gas C are transferred into tank X which then reads a pressure of 215kPa. Assuming temperature remains constant at 300.K, find the volume of tank X.

5min

5.58L