Medical research has shown that between heartbeats, the pressure in the aorta of a normal adult is a function of time in seconds and can be modeled by the equation P = 95e−0.491t. (a) Use the derivative to find the rate at which the pressure is changing at any time t. P'(t) = (b) Use the derivative to find the rate at which the pressure is changing after 0.6 second. (Round your answer to one decimal place.) ---- (c) Is the pressure increasing or decreasing? The pressure is increasing. The pressure is decreasing.
Medical research has shown that between heartbeats, the pressure in the aorta of a normal adult is a function of time in seconds and can be modeled by the equation P = 95e−0.491t. (a) Use the derivative to find the rate at which the pressure is changing at any time t. P'(t) = (b) Use the derivative to find the rate at which the pressure is changing after 0.6 second. (Round your answer to one decimal place.) ---- (c) Is the pressure increasing or decreasing? The pressure is increasing. The pressure is decreasing.
Calculus For The Life Sciences
2nd Edition
ISBN:9780321964038
Author:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.
Publisher:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.
Chapter3: The Derivative
Section3.CR: Chapter 3 Review
Problem 8CR
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Medical research has shown that between heartbeats, the pressure in the aorta of a normal adult is a function of time in seconds and can be modeled by the equation
P = 95e−0.491t.
(a) Use the derivative to find the rate at which the pressure is changing at any time t.
(c) Is the pressure increasing or decreasing?
P'(t) =
(b) Use the derivative to find the rate at which the pressure is changing after 0.6 second. (Round your answer to one decimal place.)
----
(c) Is the pressure increasing or decreasing?
The pressure is increasing.
The pressure is decreasing.
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