Determine the time required for the ball to reach its maximum height, the maximum height of the ball, and the ball's velocity and acceleration at that height. Round solutions to the nearest thousandth, if necessary. The ball reaches a maximum height after The ball reaches a maximum height of The ball's velocity at the above height is The ball's acceleration at the above height is seconds. Select an answer Select an answer Select an answer

Please answer all of the questions asked. Please show your work.

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The position of a free-falling object is given by s(t) = 4.9t² + vot + so = where s(t) is measured in meters, vº represents the initial velocity of the object, and so represents the initial position of the object. A ball is thrown vertically upward with a velocity of 20 meters per second, off of a building that is 426 meters tall. Use the above position function to address the following prompts. Determine the time required for the ball to reach its maximum height, the maximum height of the ball, and the ball's velocity and acceleration at that height. Round solutions to the nearest thousandth, if necessary. The ball reaches a maximum height after The ball reaches a maximum height of The ball's velocity at the above height is The ball's acceleration at the above height is The ball reaches ground level after The ball's velocity at the above time is The ball's acceleration at the above time is seconds. Select an answer Select an answer seconds. Select an answer Select an answer Select an answer O