2. Standards
D v. I
It’s the
law!
Calculate It!
Dalton
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3. Standard temperature is: A. 273°C B. 273 K C. 101.3 °C D. 0 K
$100
Standard temperature is: A. 273°C B. 273 K C °C D. 0 K B

4. Standard Pressure is: A. 101.3 atm B. 101.3 kPa C. 273 atm D. 273 kPa
$200
Standard Pressure is: A atm B kPa C. 273 atm D. 273 kPa B

5. $300
To convert Celsius to Kelvin you: A. add 273 B. subtract 273 C. multiply 273 D. add 101.3 A

6. $400
To convert atm to kPa you: A. add 273 B. add C. multiply by 273 D. multiply by 101.3 D

7. $500
mmHg stands for: A. millimeters of hydrogen gas B. millimeters of mercury C. millimeters of helium gas D. millimeters of chlorine B

8. $100
When both variables increase or decrease at the same rate, the equation is said to be:
Direct
Inverse A

9. A direct equation = A. x/y B. x*y
$200
A direct equation = A. x/y B. x*y A

10. An inverse equation produces a: Line graph Curved graph No change
$300
An inverse equation produces a:
Line graph
Curved graph
No change B

11. $400
Which of the following is an inverse relationship? A. Boyle’s Law B. Charles’ Law C. Gay-Lussac’s Law A

12. $500
Assuming temperature and pressure are constant, which of the following statements is correct? A. Equal volumes of different gases have the same mass. B. Equal volumes of different gases contain the same number of moles. C. Equal masses of different gases have the same volume. D. Equal masses of different gases contain the same number of moles. B

13. $100
Boyle’s Law relates what two variables? A. Volume & pressure B. Volume & temperature C. Temperature & pressure D. Pressure & moles of gas A

14. The gas particles move closer together causing the can to collapse
$200
When a steaming hot soda can is placed in ice cold water the can collapses. Which of the following explains this phenomenon?
The gas particles move closer together causing the can to collapse
The gas particles shrink
The number of gas particles striking the inside wall of the can decreases A

15. $300
Which of the following equations correctly relates the two variables? A. P1/V1 = P2/V2 B. V1/T1 = V2/T2 C. P1T1 = P2T2 D. P1N1 = P2N2 B

16. $400
If the volume is held constant, increasing the temperature of a gas will increase the pressure of a gas. How does the kinetic-molecular theory of gases explain this? At higher temperatures, the gas molecules have … A. Greater mass, and collisions with the walls of the container occur with greater force. B. Higher velocity and therefore there are more collisions with the walls of the container. C. Dissociate into smaller molecules, and since there are more molecules there are more collisions with the walls of the container. D. Some of the gas molecules condense to a liquid B

17. $500
Which of the following statements is true about ideal gases? A. They have a volume B. They are not attracted to each other C. A real gas is an ideal gas at all temperature and pressures D. An ideal gas conforms to the ideal gas law only at STP B

18. $100
When the volume of a gas is tripled, what happens to the pressure? A. It is tripled B. It is divided by 3 C. It is cubed D. No change B

19. $200
If the volume is 2 L and then changes to 4 L, the temperature will change from… A. 200 K to 100 K B. 200 K to 800 K C. 200 K to 400 K D. 400 K to 200 K C

20. $300
You are given P1, V1, and V2. P2 = A. (P1*V1)/V2 B. (V1*V2)/P1 C. (P1*V2)/V1 A

21. $400
A sample of gas occupies a volume of 2.00 liters at a temperature of 10.0°C. What volume will the gas occupy at 100.°C assuming the pressure remains constant? A liters B liters C liters D liters B

22. $500
What volume would be occupied by 0.50 moles of gas at STP? A. 1.5 L B. 1.3 L C. 11 L D. 45 L C

23. $100
There are three gases. Gas A exerts 1 mmHg pressure, Gas B exerts 3 mmHg, Gas C exerts 2 mmHg. What is the total pressure? A. 3 mmHg B. 4 mmHg C. 5 mmHg D. 6 mmHg D

24. $200
There are 3 gases in a system. Gas A has 5 particles, Gas B has 7 particles, Gas C has 2 particles. Which gas exerts the most pressure? A. Gas A B. Gas B C. Gas C B

25. $300
When we blow up a balloon, we add more gas particles to the balloon. This increases the pressure because: A. the force of each gas particle is increased B. the number of particles hitting the wall of the balloon is increased C. the force of each gas particle is decreased B

26. $400
A container with two gases, helium and argon, is 30% by volume helium. Calculate the partial pressure of argon if the total pressure inside the container is 5.00 atm. A atm B atm C atm D atm C
He: 1.5 = .3 * 5
Ar: 3.5 = .7 * 5

27. $500
There is a mixture of gases in a container. Gas A has 10 particles. Gases B and C each have 5 particles. The total pressure is 6 atm. What is the partial pressure of Gas A? A. 3 atm B. 4 atm C. 6 atm D. 10 atm A

28. Dalton’s Law
The contribution each gas in a mixture makes to the total pressure is called the partial pressure exerted by that gas. In a mixture of gases, the total pressure is the sum of the partial pressures of the gases. Ptotal = P1 + P2 + P3 + … A- 10 / 20 = 0.50 * 6.0 atm = 3.0 atm B- 5 / 20 = 0.25 * 6.0 atm = 1.5 atm C- 5 / 20 = 0.25 * 6.0 atm = 1.5 atm