Suppose that Ali's blood pressure can be modeled by the following function: p(t) = 84 - 17 sin (127 x pi x t) Ali's blood pressure increases each time his heart beats, and it decreases as his heart rests in between beats. In this equation, pt is the blood pressure in mmHg (millimeters of mercury), and t is the time in minutes.Find the following. If necessary, round to the nearest hundredth. a) Frequency of p in heartbeats per minute b) Amplitude of p in mm Hg c) Period of p in minutes
Suppose that Ali's blood pressure can be modeled by the following function: p(t) = 84 - 17 sin (127 x pi x t) Ali's blood pressure increases each time his heart beats, and it decreases as his heart rests in between beats. In this equation, pt is the blood pressure in mmHg (millimeters of mercury), and t is the time in minutes.Find the following. If necessary, round to the nearest hundredth. a) Frequency of p in heartbeats per minute b) Amplitude of p in mm Hg c) Period of p in minutes
Mathematics For Machine Technology
8th Edition
ISBN:9781337798310
Author:Peterson, John.
Publisher:Peterson, John.
Chapter21: Direct And Inverse Proportions
Section: Chapter Questions
Problem 16A: Figure 219 shows a compound gear train. Gears B and C are keyed to the same shaft; therefore, they...
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Suppose that Ali's blood pressure can be modeled by the following function:
p(t) = 84 - 17 sin (127 x pi x t)
Ali's blood pressure increases each time his heart beats, and it decreases as his heart rests in between beats. In this equation, pt is the blood pressure in mmHg (millimeters of mercury), and t is the time in minutes.Find the following. If necessary, round to the nearest hundredth.
a) Frequency of p in heartbeats per minute
b) Amplitude of p in mm Hg
c) Period of p in minutes
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