Solving a Long Jump Problem: Find Takeoff Speed & Increase Jump Distance

AI Thread Summary
To solve the long jump problem, the athlete's takeoff speed can be determined by analyzing both horizontal and vertical motions using the given 30-degree angle and horizontal displacement of 7.80 meters. The time of flight can be calculated by recognizing that the highest point of the jump occurs at half the horizontal distance, allowing for the use of kinematic equations. The vertical velocity at the peak is zero, which aids in finding the initial vertical velocity. The calculations suggest that the initial vertical velocity is approximately 8.74 m/s, leading to a total takeoff speed of about 17.48 m/s when considering the angle. Increasing the takeoff speed by 5% will result in a longer jump distance, but further calculations are needed to determine the exact increase.
jonnyboy261
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hey guys imm new here
i got a question in my book i can't figure out
it says:
an athlete executing a long jump leaves the ground at a 30 degree angle and travels
7.80m (a) what was the takeoff speed? (b) if this speed were increased just 5.0 % how much longer would the jump be?

anyone kno how to do this
i tried using the kinematic equations but ther isn't enuf info
please help if u know the answer.
thanks a lot !
 
Last edited:
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Start out by splitting the problem up into 2 parts: Horizontal motion & Vertical motion. From here, you will have 2 equations with 2 unknowns.
 
i know to do that.. but i still don't get how u can use the equations when u only have the horizontal displacement of 7.80 m ? how do i use the 30 degree angle to find anything?
 
You can calculate the time of flight.

If you have a horizontal displacement of 7.8 metres you can use symmetry to find where the highest point is - this is also half way through the flight.

The vertical velocity here is zero.

The 30 degree angle let's you split the flight into its horizontal and vertical components.
 
ok so i plugged 3.9 m and 0m/s into the displacement equation so it makes t=.892s
and then i found out Vi for vertical is 8.74 m/s
then i used SOH to find the hyponuse to be equal to 17.48 by dividing 8.74 by sin30
is this the right answer?
 
Last edited:
Why did you use 0m/s?
 

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