Solve 2D Motion Homework: Throw Football 196.6m at 25°

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To determine the speed required for a quarterback to throw a football 196.6 m at a 25° angle, calculations indicate a necessary initial speed of 70.93 m/s. The problem assumes the ball is launched and caught at the same height, neglecting air resistance. Participants in the discussion suggest using constant acceleration equations to verify the calculations. The approach includes analyzing the maximum height reached by the ball and applying relevant physics formulas. Accurate calculations are essential for evaluating the quarterback's claim effectively.
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Homework Statement


A quarterback claims that he can throw the football a horizontal distance of 196.6 m (215 yd). Furthermore, he claims that he can do this by launching the ball at the relatively low angle of 25° above the horizontal. To evaluate his claim, determine the speed with which this quarterback must throw the ball. Assume that the ball is launched and caught at the same vertical level and that air resistance can be ignored. For comparison, a baseball pitcher who can accurately throw a fastball at 45 m/s (100 mph) would be considered exceptional.



Homework Equations


delta x = V0x delta t


The Attempt at a Solution


70.93 m/s

Tried finding the maximum height the ball would reach by using 1/2 of the length (98.3) and then plug it into the max height equation : delta y = ((initial velocity)^2 sin (theta)^2)) / 2 acceleration of gravity (-9.8 m/s^2)

This would have given me the answer for the velocity needed sine the initial and final velocity would be the same in the x-direction.
 
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Welcome to PF!

Hi IAmSparticus! Welcome to PF! :wink:

Show us your full calculations, and then we can see what went wrong, and we'll know how to help.

Use the usual constant acceleration equations. :smile:
 

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