Asked by Anonymous
Ryan throws a tennis ball straight up into the air. The ball reaches its maximum height at 2 seconds. The approximate height of the ball x seconds after being thrown is shown in the table.
Which equation models the motion of the ball?
Which equation models the motion of the ball?
Answers
Answered by
Steve
well, you know that
y = vt - 4.9t^2
max height is at t = v/9.8
y = vt - 4.9t^2
max height is at t = v/9.8
Answered by
Reiny
let the initial velocity be k m/s
so
height = -4.9t^2 + kt
d(height)/dt = -9.8t + k
when t = 2, d(height)/dt = 0
2 = -9.8(2) + k
k = 19.6
so your equation was
height = -4.9t^2 + 19.6t
the maximum height is
= -4.9(4) + 19.6(2) m
= appr 19.6 m
I used the more traditional variable t for time instead of the suggested x, no big deal.
so
height = -4.9t^2 + kt
d(height)/dt = -9.8t + k
when t = 2, d(height)/dt = 0
2 = -9.8(2) + k
k = 19.6
so your equation was
height = -4.9t^2 + 19.6t
the maximum height is
= -4.9(4) + 19.6(2) m
= appr 19.6 m
I used the more traditional variable t for time instead of the suggested x, no big deal.
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