What Was the Take-Off Speed of the Long Jumper?

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The discussion focuses on calculating the take-off speed of a long jumper who leaves the ground at a 30-degree angle and travels 8.90 meters. Participants clarify that the vertical distance traveled is not zero, emphasizing the need to account for vertical height in the calculations. The vertical motion is divided into ascent and descent phases, with gravity affecting the jumper's vertical speed. The horizontal distance is known, but without the flight time, the problem primarily hinges on understanding the vertical components of motion. Ultimately, the key to solving the problem lies in accurately applying the equations of motion for both vertical and horizontal trajectories.
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Homework Statement



An athlete executing a long jump leaves the ground at an angle of 30 degrees and travels 8.90m. What was the take-off speed?

Homework Equations



d(vertical)=(vi)(t) + 0.5at^2

The Attempt at a Solution



0=Vsin30t + (0.5)(-9.8)(t^2)

I cannot solve for two separate variables, how can I solve this problem?
 
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EDIT: I see what you've done.

Right, in your attempt, d does not equal 0. There has to be some vertical height.

For horizontal you know:

d = 8.9m

For vertical you know:

a = -9.8 for the ascent and 9.8 for the descent.

You know vf for the ascent = 0 and vi for the descent = 0.
 
Last edited:
that is the vertical, there is no horizontal acceleration
Vertical:
Vi=?
Vf=?
a=-9.8m/s^2
t=?
d=0

Horizontal:
Vave=?
t=?
d=8.90m
 
dmkeddy said:
that is the vertical, there is no horizontal acceleration
Vertical:

d=0

d does not equal 0. There has to be vertical height.

The vertical phase is split in two. See previous post for details.

Unless you know the flight time, this question all comes down to the vertical components.
 

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