A student with a third floor dormitory window 32 feet off the ground tosses a water balloon straight up in the air with an initial velocity of 16 feet per second. It turns out that the instantaneous velocity of the water balloon is given by v(t) = -32t + 16, where v is measured in feet per second and z is measured in seconds. Let s(t) represent the height of the water balloon above ground at time t, and note that s is an antiderivative of v. That is, v is the derivative of s: s'(t) = v(t). Find a formula for s(t) that satisfies the initial condition that the balloon is tossed from 32 feet above ground. In other words, make your formula for s satisfy s(0) = 32. Show your work in the text box below.

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A student with a third floor dormitory window 32 feet off the ground tosses a water balloon straight up in the air with an initial velocity of 16 feet per second. It turns out that the instantaneous velocity of the water balloon is given by v(t) = -32t + 16, where v is measured in feet per second and t is measured in seconds. Let s(t) represent the height of the water balloon above ground at time t, and note that s is an antiderivative of v. That is, v is the derivative of s: s'(r) = v(t). Find a formula for s(t) that satisfies the initial condition that the balloon is tossed from 32 feet above ground. In other words, make your formula for s satisfy s(0) = 32. Show your work in the text box below.

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When does the water balloon reach its maximum height? Explain how you determined this. When does the water balloon land? Explain how you determined this.