During inspiration, the volume of the lungs is actively increased by the action of the diaphragm. As the volume of the lungs increases, the pressure within the lungs falls about 1 mmHg below atmospheric pressure. Air rushes into the lungs due to this pressure difference. Bronchi, Bronchial Tree, and Lungs Larynx Primary bronchi Secondary bronchi Tertiary bronchi. Bronchioles Cardiac notch Pulmonary vein Pulmonary artery Trachea Alveolar duct Alveoli This image is part of the Public Domain: https://upload.wikimedia.org/wikipedia/commons/d/db/Illu_bronchi_lungs.jpg Fig. 1: The bronchi, bronchial trees, and the lungs. (a) The diameter of the trachea (windpipe) is about 17 mm. What net force does the air experience during inhalation? Fne = net N L (b) The flow rate of air entering the lungs is about 1.1 What is the velocity of air moving S through the windpipe? V windpipe = cm S (c) The trachea divides into the left and right bronchi. Each main bronchus then divides into lobar bronchi (three on the right and two on the left, each supplying one lung lobe). The lobar bronchi branch into segmental bronchi, and the branching proceeds twenty more times after this! Let's call each branch a generation z and assume that the number of branches within a given generation is determined by 2². The chart below gives three different generations, the diameter of an average bronchus or bronchiole in that generation, and the air speed through that region. Does the respiratory system obey the equation of continuity, Q=2² Av = constant? Show this by calculating the flow rate in each branch and verifying that nearly same. Branch Z Diameter (mm) Air speed (cm/s) 4.5 392 Segmental Bronchus 4 Terminal Bronchiole 16 0.60 5.40 Alveolar Duct 22 0.41 0.18 Fig. 2: Segmental bronchus has 4 branches, a diameter of 4.5 mm, and an air speed of 392 cm/s. The terminal bronciole has 16 branches, each with a diameter of 0.60 mm, and an average air speed of 5.40 cm/s. The alveolar duct has 22 branches, each with a diameter of 0.41 mm, and an average air speed of 0.18 cm/s. QSegmental Bronchus QTerminal Terminal Bronchus QAlveolar Alveolar Duct = 3w S S S
During inspiration, the volume of the lungs is actively increased by the action of the diaphragm. As the volume of the lungs increases, the pressure within the lungs falls about 1 mmHg below atmospheric pressure. Air rushes into the lungs due to this pressure difference. Bronchi, Bronchial Tree, and Lungs Larynx Primary bronchi Secondary bronchi Tertiary bronchi. Bronchioles Cardiac notch Pulmonary vein Pulmonary artery Trachea Alveolar duct Alveoli This image is part of the Public Domain: https://upload.wikimedia.org/wikipedia/commons/d/db/Illu_bronchi_lungs.jpg Fig. 1: The bronchi, bronchial trees, and the lungs. (a) The diameter of the trachea (windpipe) is about 17 mm. What net force does the air experience during inhalation? Fne = net N L (b) The flow rate of air entering the lungs is about 1.1 What is the velocity of air moving S through the windpipe? V windpipe = cm S (c) The trachea divides into the left and right bronchi. Each main bronchus then divides into lobar bronchi (three on the right and two on the left, each supplying one lung lobe). The lobar bronchi branch into segmental bronchi, and the branching proceeds twenty more times after this! Let's call each branch a generation z and assume that the number of branches within a given generation is determined by 2². The chart below gives three different generations, the diameter of an average bronchus or bronchiole in that generation, and the air speed through that region. Does the respiratory system obey the equation of continuity, Q=2² Av = constant? Show this by calculating the flow rate in each branch and verifying that nearly same. Branch Z Diameter (mm) Air speed (cm/s) 4.5 392 Segmental Bronchus 4 Terminal Bronchiole 16 0.60 5.40 Alveolar Duct 22 0.41 0.18 Fig. 2: Segmental bronchus has 4 branches, a diameter of 4.5 mm, and an air speed of 392 cm/s. The terminal bronciole has 16 branches, each with a diameter of 0.60 mm, and an average air speed of 5.40 cm/s. The alveolar duct has 22 branches, each with a diameter of 0.41 mm, and an average air speed of 0.18 cm/s. QSegmental Bronchus QTerminal Terminal Bronchus QAlveolar Alveolar Duct = 3w S S S
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter14: Fluid Mechanics
Section: Chapter Questions
Problem 92P: The arterioles (small arteries) leading to organ constrict in order to decrease flow to the organ....
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