Athlete Long-Jump Question, Don't Know Where I've Gone Wrong

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To determine the takeoff speed of an athlete in a long jump, the angle of 35° and the distance of 5.80 m must be used correctly. The initial approach using angular velocity is incorrect; instead, focus on the projectile motion principles. The time in the air relates only to the vertical component of velocity, while the horizontal distance is linked to the horizontal component. The formula for the range of a projectile, R = v²sin(2θ)/g, should be applied to find the takeoff speed. Understanding the forces acting on the athlete during the jump is crucial for solving the problem accurately.
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An athlete executing a long jump leaves the ground at a 35° angle and travels 5.80 m. What was her takeoff speed?

I was set this question and have spent about an hour trying to solve it but just can't come up with the correct answer. I found this formula:

Angular Velocity w = 2Π / T
35 = (2 x 3.14) / T
T = 0.179
V = D / T
V = 5.80 / 0.179
V = 32.4

But this is wrong...is there another formula I should be using?
 
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You need to find the vertical componant of the velocity, by using trigonometry.
Then you use suvat to find the time when distance is zero again (i.e. when the athlete hits the ground).

Now you know the time when he hits the ground, and using trigonometry, you can find the horizontal componant of the velocity. Then find how far they have traveled at the time when they hit the ground again
 
lando45 said:
An athlete executing a long jump leaves the ground at a 35° angle and travels 5.80 m. What was her takeoff speed?
I was set this question and have spent about an hour trying to solve it but just can't come up with the correct answer. I found this formula:
Angular Velocity w = 2Π / T
35 = (2 x 3.14) / T
T = 0.179
V = D / T
V = 5.80 / 0.179
V = 32.4
But this is wrong...is there another formula I should be using?

In the question, it is given that the angle at which the athlete leaves the ground is 35°.
This is entirely different from angular velocity.
Also, don't try to solve problems by blindly applying formulas.

For example, in this question, what happens to the athlete during the jump and why? Can you find what forces are acting on him during the jump along the horizontal and vertical directions?
 
Remember that the time in the air only has to do with the vertical componant, and the distance only has to do with the horizontal one.
 
Remember the formula for the range of a projectile. thus you will get the horizontalcomponent as well as the takeoff velocity since the angle the initial velocity vector makes with the surface is already given.
R = v^2sin(2theta)/g
 

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