Part a: Assume that the height of your cylinder is inches. Consider A as a function of r, so we can write that as A (r) = 2 Tr + 16 Tr. What is the domain of A (r)? In other words, for which values of r is A (r) defined? Part b: Find the inverse function to A (r). Your answer should look like r ="some expression involving А".

Need answers for A and B, also please explain, I don't understand

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We'll be analyzing the surface area of a round cylinder - in other words the amount of material needed to "make a can". A cylinder (round can) has a circular base and a circular top with vertical sides in between. Let r be the radius of the top of the can and let h be the height. The surface area of the cylinder, A, is A = 2rr2 . + 2rrh (it's two circles for the top and bottom plus a rolled up rectangle for the side). r = radius Areas = T r? h = height Area = h(2tr) Circumference 2ar Part a: Assume that the height of your cylinder is 8 inches. Consider A as a function of r, so we can write that A (r) = 2 Tr- + 16 r. What is the domain of A (r)? In other words, for which values of r is A (r) defined? Part b: Find the inverse function to A(r). Your answer should look like r ="some expression involving А". r (A) = Hints: • To calculate an inverse function, you need to solve for r. with A = 2 Tr2 This equation is a2? • Here you could start + 16 Tr. the same as 2 Tr + 16 Tr – A = 0. Do you recognize this as a quadratic equation ax + bx +c = 0 where the variable x is r? The coefficients would be 2 T for a, 16 T for b, and -A for c. • You can solve for r using the quadratic formula even though the constant term c is a symbol here.