Question
The rate at which water flows into a tank, in gallons per hour, is given by a differentiable function R of time t. The table below gives the rate as measured at various times in an 8-hour time period.
t---------0-----2------3-------7----8
(hours)
R(t)--1.95---2.5---2.8----4.00--4.26
(gallons per
hour)
Use a trapezoidal sum with the four sub-intervals indicated by the data in the table to estimate Using correct units, explain the meaning of your answer in terms of water flow.
So I did this and found out
1. 4[1.95 + 2(2.5 + 2.8 + 4.0) + 4.26] = 99.24 gallons per 8 hours
Now im just trying to figure out the second one .
Is there some time t, 0 < t < 8, such that R′(t) = 0? Justify your answer.
I thought no because the function is always increasing.
t---------0-----2------3-------7----8
(hours)
R(t)--1.95---2.5---2.8----4.00--4.26
(gallons per
hour)
Use a trapezoidal sum with the four sub-intervals indicated by the data in the table to estimate Using correct units, explain the meaning of your answer in terms of water flow.
So I did this and found out
1. 4[1.95 + 2(2.5 + 2.8 + 4.0) + 4.26] = 99.24 gallons per 8 hours
Now im just trying to figure out the second one .
Is there some time t, 0 < t < 8, such that R′(t) = 0? Justify your answer.
I thought no because the function is always increasing.
Answers
Steve
unless the function has some pathological behavior hidden in one of the intervals, you are likely correct.
Avery
for the trapezoidal sum, you cannot factor out the width as 4, because the intervals are not even. you have to do the width of each individual interval. The actual answer is around 23.83
Louise
Avery, you may have a typo, though I may be late in answering, haha. The trapezoidal sum yields 24.83
Taylor
Even still, the sum does not come out to 24.83, but 24.81 instead. Unless there is something I missed, This thread has an unfortunate series of typos. Quite amusing to be honest
Nagaroth
its 24.83
Man
Nice