Table of contents

1. Introduction to Anatomy & Physiology5h 43m
2. Cell Chemistry & Cell Components12h 36m
3. Energy & Cell Processes10h 6m
4. Tissues & Histology10h 3m
5. Integumentary System2h 20m
6. Bones & Skeletal Tissue2h 16m
7. The Skeletal System2h 35m
8. Joints2h 17m
9. Muscle Tissue2h 33m
10. Muscles1h 11m
11. Nervous Tissue and Nervous System1h 35m
12. The Central Nervous System1h 6m
- Introduction to the Central Nervous System
  18m
- The Cerebrum
  48m
13. The Peripheral Nervous System1h 26m
14. The Autonomic Nervous System1h 38m
15. The Special Senses2h 41m
16. The Endocrine System2h 48m
17. The Blood3h 22m
18. The Heart3h 42m
19. The Blood Vessels3h 35m
20. The Lymphatic System3h 16m
21. The Immune System14h 37m
22. The Respiratory System3h 20m
23. The Digestive System2h 5m
24. Metabolism and Nutrition4h 0m
25. The Urinary System2h 39m
26. Fluid and Electrolyte Balance, Acid Base Balance37m
27. The Reproductive System2h 5m
28. Human Development1h 21m
29. Heredity3h 32m

22. The Respiratory System

Pressure in the Lungs and Pleural Cavity

Anatomy & Physiology

22. The Respiratory System

Pressure in the Lungs and Pleural Cavity

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2:43 minutes

Problem 13

Textbook Question

The contraction of the diaphragm and the external intercostal muscles begins inspiration. What happens, in terms of volume and pressure changes in the lungs, when these muscles contract?

Verified step by step guidance

When the diaphragm contracts, it moves downward, and the external intercostal muscles contract to lift the rib cage upward and outward. This increases the volume of the thoracic cavity.

As the thoracic cavity volume increases, the lungs expand due to the pleural membranes adhering to the thoracic wall. This expansion increases the volume of the lungs.

According to Boyle's Law, which states that pressure and volume are inversely related (P ∝ 1/V), the increase in lung volume leads to a decrease in intrapulmonary pressure (pressure inside the lungs).

The intrapulmonary pressure becomes lower than the atmospheric pressure, creating a pressure gradient that allows air to flow into the lungs (inhalation).

This process continues until the intrapulmonary pressure equals the atmospheric pressure, at which point air flow into the lungs stops, completing the inspiration phase.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Diaphragm and Intercostal Muscles

The diaphragm is a dome-shaped muscle that separates the thoracic cavity from the abdominal cavity, while the external intercostal muscles are located between the ribs. During inspiration, the contraction of these muscles increases the volume of the thoracic cavity, allowing the lungs to expand. This expansion is crucial for drawing air into the lungs.

Boyle's Law

Boyle's Law states that the pressure of a gas is inversely proportional to its volume when temperature is held constant. As the diaphragm and intercostal muscles contract, the volume of the thoracic cavity increases, leading to a decrease in pressure within the lungs. This pressure drop allows air to flow into the lungs from the higher-pressure atmosphere.

Intrapulmonary Pressure

Intrapulmonary pressure refers to the pressure within the alveoli of the lungs. During inspiration, as the volume of the thoracic cavity increases due to muscle contraction, the intrapulmonary pressure falls below atmospheric pressure. This pressure gradient is what drives air into the lungs, facilitating the process of breathing.

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