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Notes: Mechanics of Ventilation (pg 8)
Notes: Mechanics of Ventilation (pg 8) • Pulmonary ventilation = Breathing. Inspiration (Inhale) and Expiration (Exhale)
Notes: Mechanics of Ventilation (pg 8) • Pulmonary ventilation = Breathing. Inspiration (Inhale) and Expiration (Exhale) • You do not suck air into your lungs. Instead, you increase the volume of your chest cavity, which decreases the pressure, and air flows in on its own
Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases.
Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases. • P1V1 = P2V2
Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases. • P1V1 = P2V2 • Air naturally flows from areas of high pressure to areas of low pressure
Output (pg 9) Practice Problem (write out the problem) • A gas has a volume of 3.0 liters and a pressure of 2.0 atm. The volume is increased to 4.0 liters. What is the new pressure? • Show your work, including writing out the formula!
Muscles involved in Ventilation (pg 8) • Diaphragm = Dome-shaped muscular “shelf” separating the thoracic cavity from the abdominal cavity. Lungs rest on it.
Muscles involved in Ventilation (pg 8) • Diaphragm = Dome-shaped muscular “shelf” separating the thoracic cavity from the abdominal cavity. Lungs rest on it. • Intercostal muscles = Located between the ribs
Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity.
Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity. • During labored breathing, the external intercostal muscles also contract, elevating the ribs and further increasing the thoracic volume.
Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity. • During labored breathing, the external intercostal muscles also contract, elevating the ribs and further increasing the thoracic volume. • As the volume increases, the pressure inside the lungs decreases and air flows in.
Expiration • Diaphragm relaxes and rises, decreasing thoracic volume
Expiration • Diaphragm relaxes and rises, decreasing thoracic volume • In forceful expiration, internal intercostal muscles contract, pulling the ribs down
Expiration • Diaphragm relaxes and rises, decreasing thoracic volume • In forceful expiration, internal intercostal muscles contract, pulling the ribs down • As volume decreases, pressure increases and air flows out of the lungs
Output (pg 9) • Sketch two upper bodies and label one “inspiration” and the other “expiration” • Draw in the relative positions of the diaphragm,intercostal muscles, and ribs
Activity (record results on page 9) • Work in your lab table groups • Sculpt a diaphragm and place in on your skeleton. Put it in the expiration position. • Measure the volume of the thoracic cavity in cubic centimeters • Move the diaphragm into the inspiration position. Measure the new volume. • Assuming that the pressure inside the lungs during expiration is 1 atm, calculate the pressure during inspiration

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Mechanics of ventilation

  • 1. Notes: Mechanics of Ventilation (pg 8)
  • 2. Notes: Mechanics of Ventilation (pg 8) • Pulmonary ventilation = Breathing. Inspiration (Inhale) and Expiration (Exhale)
  • 3. Notes: Mechanics of Ventilation (pg 8) • Pulmonary ventilation = Breathing. Inspiration (Inhale) and Expiration (Exhale) • You do not suck air into your lungs. Instead, you increase the volume of your chest cavity, which decreases the pressure, and air flows in on its own
  • 4. Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases.
  • 5. Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases. • P1V1 = P2V2
  • 6. Boyle’s Law • When the volume of a gas increases, the pressure decreases. When volume decreases, pressure increases. • P1V1 = P2V2 • Air naturally flows from areas of high pressure to areas of low pressure
  • 7. Output (pg 9) Practice Problem (write out the problem) • A gas has a volume of 3.0 liters and a pressure of 2.0 atm. The volume is increased to 4.0 liters. What is the new pressure? • Show your work, including writing out the formula!
  • 8. Muscles involved in Ventilation (pg 8) • Diaphragm = Dome-shaped muscular “shelf” separating the thoracic cavity from the abdominal cavity. Lungs rest on it.
  • 9. Muscles involved in Ventilation (pg 8) • Diaphragm = Dome-shaped muscular “shelf” separating the thoracic cavity from the abdominal cavity. Lungs rest on it. • Intercostal muscles = Located between the ribs
  • 10. Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity.
  • 11. Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity. • During labored breathing, the external intercostal muscles also contract, elevating the ribs and further increasing the thoracic volume.
  • 12. Inspiration • Diaphragm contracts, causing it to drop and flatten. This increases the volume of the thoracic cavity. • During labored breathing, the external intercostal muscles also contract, elevating the ribs and further increasing the thoracic volume. • As the volume increases, the pressure inside the lungs decreases and air flows in.
  • 13. Expiration • Diaphragm relaxes and rises, decreasing thoracic volume
  • 14. Expiration • Diaphragm relaxes and rises, decreasing thoracic volume • In forceful expiration, internal intercostal muscles contract, pulling the ribs down
  • 15. Expiration • Diaphragm relaxes and rises, decreasing thoracic volume • In forceful expiration, internal intercostal muscles contract, pulling the ribs down • As volume decreases, pressure increases and air flows out of the lungs
  • 16. Output (pg 9) • Sketch two upper bodies and label one “inspiration” and the other “expiration” • Draw in the relative positions of the diaphragm,intercostal muscles, and ribs
  • 17. Activity (record results on page 9) • Work in your lab table groups • Sculpt a diaphragm and place in on your skeleton. Put it in the expiration position. • Measure the volume of the thoracic cavity in cubic centimeters • Move the diaphragm into the inspiration position. Measure the new volume. • Assuming that the pressure inside the lungs during expiration is 1 atm, calculate the pressure during inspiration