3. The blood pressure of a person at rest is described by the formula P = 100 + 20 sin 6t, where P is the pressure, in millimeters of mercury (mmHG), and t is the time, in seconds. a) Determine the rate at which the heart beats, in beats per minute, assuming that one complete cycle of the pressure function corresponds to one heartbeat. b) Determine the maximum and minimum values of the pressure. Are these healthy values for blood pressure? c) How is the formula for blood pressure likely to change during times of physical exertion or while taking this Functions test?
3. The blood pressure of a person at rest is described by the formula P = 100 + 20 sin 6t, where P is the pressure, in millimeters of mercury (mmHG), and t is the time, in seconds. a) Determine the rate at which the heart beats, in beats per minute, assuming that one complete cycle of the pressure function corresponds to one heartbeat. b) Determine the maximum and minimum values of the pressure. Are these healthy values for blood pressure? c) How is the formula for blood pressure likely to change during times of physical exertion or while taking this Functions test?
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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explain without using derivatives , and explain all three subparts
Transcribed Image Text:3. The blood pressure of a person at rest is described by the formula
P = 100 + 20 sin 6t, where P is the pressure, in millimeters of mercury
(mmHG), and t is the time, in seconds.
a) Determine the rate at which the heart beats, in beats per minute,
assuming that one complete cycle of the pressure function corresponds to one
heartbeat.
b) Determine the maximum and minimum values of the pressure. Are
these healthy values for blood pressure?
c) How is the formula for blood pressure likely to change during times of
physical exertion or while taking this Functions test?
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