City urbanization City planners model the size of their city u...

Question

City urbanization City planners model the size of their city using the function A(t) = - 1/50t² + 2t +20, for 0 ≤ t ≤ 50, where A is measured in square miles and t is the number of years after 2010.
a. Compute A'(t). What units are associated with this derivative and what does the derivative measure?

a. Compute A'(t). What units are associated with this derivative and what does the derivative measure?

Accepted Answer

Hello there. Today we're gonna solve the following practice problem together. So first off, let us read the problem and highlight all the key pieces of information that we need to use in order to solve this problem. Find the derivative of the function that represents the area of the forest given by F of T is equal to -1 divided by 40 multiplied by T 2 plus 5T plus 150 or 0 is less than or equal to T. And T is less than or equal to 60, where F is in square kilometers, and T is the number of years since 1990. What are the units of the derivative and what does it signify? Awesome. So it appears for this particular problem we're asked to solve for three separate answers. Our first answer is we're trying to figure out what the derivative of FFT is. That's our first answer. What is the derivative? Our second answer is we're trying to determine what are the units of our derivative. That's our second answer. And our third and final answer that we're ultimately trying to solve for is we're trying to figure out what our derivative signifies. So what does our derivative signify? So now that we know that we're solving for 3 separate answers, To solve first, let's focus our attention on solving for the derivative first. So, as we should recall, in order to find the derivative of the function, F of T, specifically F of T is equal to -1 divided by 40, multiplied by T 2. Plus 5 T. Plus 150, and we're focusing on the range for 0 is less than or equal to T and T is less than or equal to 60, that is our range. And in order to find the derivative of the specific function within this range, we need to recall and apply the power rule of differentiation. So as we should recall, the power rule states that D by DT. It's gonna be, so DT sorry D by DT of T to the power of N is equal to N multiplied by T to the power of N minus 1, and we need to apply this rule to F T. And when we do that, we will find that F. Of T is equal to D by DT. Of -1 divided by 40, multiplied by T to the power 2 plus 5 T. Plus 150. And when we differentiate each term separately, we will find that F of T is equal to -1 divided by 40, multiplied by 2 T plus 5 multiplied by 1 + 0. And when we simplify this expression, you will find that F of T. is equal to -1 divided by 20T. + 5. And that is our first answer. Hooray, we did it. We found our first answer, which is the derivative of FFT. So now, our next answer that we're trying to solve for is we're trying to figure out the units of the derivative. And as we should recall a note for this particular problem, the units of the derivative F of T are in kilometers squared per year. Because it represents the rate of change of the forest area with respect to time, which means as a result, the derivative of F T signifies the rate at which the force area is changing in the given domain of 0 is less than or equal to T and T is less than or equal to 60. So without a doubt, our final three answers simplified will be once again F of T is equal to -1 divided by 20T plus 5. Our units of measurement are square kilometers per year. And finally, what does our derivative signify? It signifies the rate of area change. And that is it. Those are our final three answers. Thank you so much for watching. Hopefully that helped, and I can't wait to see you in the next video. Bye.

Key Concepts

Derivative

Units of Measurement

Quadratic Functions

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