A person's metabolic rate tends to go up after eating a meal and then, after some time has passed, it returns to a resting metabolic rate. This phenomenon is known as the thermic effect of food. Suppose the effect (in kJ per hour) for one individual is F(t)=−11.37+172.6te^–t/1.2 where t is the number of hours that have elapsed since eating a meal. Find the total thermic energy of a meal for the next six hours after a meal by integrating the thermic effect function between t=0 and t=6 The total thermic energy is about _________ kJ. (Round to the nearest whole number as needed.)
A person's metabolic rate tends to go up after eating a meal and then, after some time has passed, it returns to a resting metabolic rate. This phenomenon is known as the thermic effect of food. Suppose the effect (in kJ per hour) for one individual is F(t)=−11.37+172.6te^–t/1.2 where t is the number of hours that have elapsed since eating a meal. Find the total thermic energy of a meal for the next six hours after a meal by integrating the thermic effect function between t=0 and t=6 The total thermic energy is about _________ kJ. (Round to the nearest whole number as needed.)
Chapter6: Exponential And Logarithmic Functions
Section6.8: Fitting Exponential Models To Data
Problem 3TI: Table 6 shows the population, in thousands, of harbor seals in the Wadden Sea over the years 1997 to...
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![A person's metabolic rate tends to go up after
eating a meal and then, after some time has
passed, it returns to a resting metabolic rate.
This phenomenon is known as the thermic
effect of food. Suppose the effect (in kJ per
hour) for one individual is
F(t)=−11.37+172.6te^–t/1.2
where t is the number of hours that have
elapsed since eating a meal. Find the total
thermic energy of a meal for the next six hours
after a meal by integrating the thermic effect
function between t=0 and t=6
The total thermic energy is about _________ kJ.
(Round to the nearest whole number as
needed.)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2a8d7b81-b687-4706-b3fc-3c6e150f8e58%2F88289440-91e9-40e1-97c6-3c32a3131ab0%2Fqiescu9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A person's metabolic rate tends to go up after
eating a meal and then, after some time has
passed, it returns to a resting metabolic rate.
This phenomenon is known as the thermic
effect of food. Suppose the effect (in kJ per
hour) for one individual is
F(t)=−11.37+172.6te^–t/1.2
where t is the number of hours that have
elapsed since eating a meal. Find the total
thermic energy of a meal for the next six hours
after a meal by integrating the thermic effect
function between t=0 and t=6
The total thermic energy is about _________ kJ.
(Round to the nearest whole number as
needed.)
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