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23 March, 04:34

A ball is shot from a cannon into the air with an upward velocity of 65 ft/sec. The equation that gives the height (h) of the ball at any time (t) is: h (t) = - 14t^2+65t+1.75.

Find the maximum height attained by the ball.

What time was the maximum height achieved?

How high was the ball off of the ground when it was shot?

How far did the ball travel before it hit the ground

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  1. 23 March, 08:13
    0
    Step-by-step explanation:

    Find AOS

    X = - b/2a

    X = - 65/2 (-14)

    X = - 65/-28

    X = 2.32 secs

    t = 2.32secs

    A) y value when t = 2.32 is the maximum height.

    Substitute t in the equation.

    h (t) = - 14t^2+65t+1.75

    h (t) = (-14 * 2.32²) + (65 * 2.32) + 1.75

    = (-14 * 5.38) + (65 * 2.32) + 1.75

    = - 75.35 + 150.8 + 1.75

    = 77.2 ft

    Maximum height attained by the ball = 77.2 ft

    B) Time the maximum height achieved = 2.32secs

    C) The ball off of the ground when it was shot is well t = 0

    Substitute t in equation

    h (t) = - 14t^2+65t+1.75

    h (0) = (-14 * 0²) + (65 * 0) + 1.75

    = 0 + 0 + 1.75ft

    The ball is 1.75ft off the ground when it was shot.
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