Table of contents

1. Intro to General Chemistry3h 48m
2. Atoms & Elements4h 16m
3. Chemical Reactions4h 10m
4. BONUS: Lab Techniques and Procedures1h 38m
5. BONUS: Mathematical Operations and Functions48m
6. Chemical Quantities & Aqueous Reactions3h 53m
7. Gases3h 49m
8. Thermochemistry2h 37m
9. Quantum Mechanics2h 58m
10. Periodic Properties of the Elements3h 9m
11. Bonding & Molecular Structure3h 29m
12. Molecular Shapes & Valence Bond Theory1h 57m
13. Liquids, Solids & Intermolecular Forces2h 23m
14. Solutions3h 1m
15. Chemical Kinetics2h 53m
16. Chemical Equilibrium2h 29m
17. Acid and Base Equilibrium5h 1m
18. Aqueous Equilibrium4h 47m
19. Chemical Thermodynamics1h 50m
20. Electrochemistry2h 42m
21. Nuclear Chemistry2h 36m
22. Organic Chemistry5h 7m
23. Chemistry of the Nonmetals2h 39m
24. Transition Metals and Coordination Compounds3h 16m

7. Gases

Partial Pressure

General Chemistry

7. Gases

Partial Pressure

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Multiple Choice

Which of the following statements about the partial pressures of gases is true?

The total pressure of a gas mixture is the sum of the partial pressures of each individual gas.

Partial pressure is the pressure a gas would exert if it occupied the entire volume of the mixture at the same temperature.

The partial pressure of a gas is independent of its mole fraction in a mixture.

Partial pressures are only applicable to ideal gases and not real gases.

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Verified step by step guidance

Understand the concept of partial pressure: Partial pressure is the pressure that a single gas in a mixture of gases would exert if it occupied the entire volume by itself at the same temperature. This is a fundamental concept in gas mixtures.

Apply Dalton's Law of Partial Pressures: According to Dalton's Law, the total pressure of a gas mixture is the sum of the partial pressures of each individual gas. This can be expressed mathematically as:

P_{total} = P_{1} + P_{2} + \dots

, where

P_{i}

represents the partial pressure of each gas.

Consider the relationship between partial pressure and mole fraction: The partial pressure of a gas in a mixture is directly proportional to its mole fraction. This can be expressed as:

P_{i} = X_{i} P_{total}

, where

X_{i}

is the mole fraction of the gas.

Evaluate the applicability to real gases: While partial pressures are most accurately applied to ideal gases, they can also be used for real gases under certain conditions, typically at low pressures where the behavior of real gases approximates that of ideal gases.

Review the statements: Based on the explanations above, identify which statements are true regarding partial pressures. The correct statements are: 'The total pressure of a gas mixture is the sum of the partial pressures of each individual gas' and 'Partial pressure is the pressure a gas would exert if it occupied the entire volume of the mixture at the same temperature.'