Explanation Given information: The spirogram trace is V ( t ) = 3 + 0.05 sin ( 160 π t − π 2 ) where t is measured in minutes and V ( t ) is the lung volume in liters The graph on the spirogram trace device is shown in the figure below: Explanation: The spirogram trace is V ( t ) = 3 + 0.05 sin ( 160 π t − π 2 ) There will be 80 inspirations in one minute. Each inspiration represents V ( 1 160 ) − V ( 0 ) = ( 3 + 0.05 sin ( 160 π ( 1 160 ) − π 2 ) ) − ( 3 + 0.05 sin ( 160 π ( 0 ) − π 2 ) ) = ( 3 + 0.05 sin ( π − π 2 ) ) − ( 3 + 0.05 sin ( 0 − π 2 ) ) = ( 3 + 0.05 sin ( π 2 ) ) − ( 3 + 0.05 sin ( − π 2 ) ) = ( 3 + ( 0

15th Edition

ISBN: 9780137590896

Author: Larry J. Goldstein; David C. Lay; David I. Schneider; Nakhle H. Asmar; William Edward Tavernetti

Publisher: Pearson Education (US)

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Chapter 8, Problem 58RE

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Whether the assertions that when a person undergoes spontaneous hyperventilation, the peak inspiratoryflow equals π times the minute volume and the mean inspiratory flow equals twice the minute volume is true or not by using the data from exercise 57.

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Chapter 8, Problem 57RE

Chapter 8, Problem 59RE

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Whether the assertions that when a person undergoes spontaneous hyperventilation, the peak inspiratoryflow equals π times the minute volume and the mean inspiratory flow equals twice the minute volume is true or not by using the data from exercise 57 .

Solution Summary: The author analyzes whether the assertions that when a person undergoes spontaneous hyperventilation, the peak inspiratory flow equals pi times the minute volume are true or not.

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Whether the assertions that when a person undergoes spontaneous hyperventilation, the peak inspiratoryflow equals π times the minute volume and the mean inspiratory flow equals twice the minute volume is true or not by using the data from exercise 57.

Want to see the full answer?

Chapter 8 Solutions