How Does Acceleration Impact a Sprinter's 100 Meter Dash Performance?

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The discussion focuses on how acceleration affects a sprinter's performance in the 100-meter dash, specifically analyzing a scenario where a sprinter accelerates for 2 seconds before running at a constant speed. Participants are working through calculations to determine the runner's position and speed after 2 seconds, concluding that the position is 2A and speed is 2A. The challenge lies in finding the acceleration A given that the total time for the race is 10 seconds. The conversation emphasizes breaking the race into two segments: the acceleration phase and the constant speed phase, while applying relevant kinematic equations to solve for A. Overall, the discussion highlights the importance of understanding the relationship between acceleration, time, and distance in sprinting performance.
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A sprinter running a 100 meter race starts at rest, accelerates at constant acceleration
with magnitude A for 2 seconds, and then runs at constant speed until the end.

a) Find the position (relative to the start position) and speed of the runner at the end of
the 2 seconds in terms of A. ANS: 2A , Vx=2A

b) Assume that the runner takes a total of 10 seconds to run the 100 meters. Find the
value of the acceleration A. You can leave your answer in terms of a fraction but clearly
indicate the units. ANS: 100/18



...struggling with b) !
 
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Relevant equations
all kinematic eq'n with x, v, a in it

What I know so far:

I got that x(2)=2A and v(2)=2A

when it comes to b) i have tried various inputs...
Which way do I approach this? Do approach it from x=100 and t=10, do I incorporate x=2A and v=2A.

The closest I've gotten is using x=100-2A, t=8, v=2A...
 
Consider the 100m broken down into two parts
- the part with constant acceleration from part a). You were asked to get the displacement of this in terms of A in part a). This will help you with that.
- and consider the second part where velocity is constant. what formulae can you use?
 
according to your post, it can be broken down into two times

t=2 and t=8
at t=2 , what I know is x=2A, v=2A, a=A


at t=10, what I know is x=100, v=10 (because v=d/t=100/10, is this relavant?)

there are two eq'ns that come to mind

x(t)= Xi + Vit + 0.5at^2

Vf^2= Vi^2+2a(Xf - Xi)
 
For the second part of the race, the eight seconds at constant velocity, just think displacement = velocity X time.
Your v=d/t = 100/10 isn't correct because velocity wasn't constant for the entire 100m.
For the first two seconds, acceleration was constant, and velocity was increasing (at a constant rate= acceleration). For the remaining eight seconds then, velocity is constant, so you can use v = d/t here.
Your two eqns are correct and should then help you find a value for A.

You're eventually looking for the slope of the velocity/time graph (slope here = acc.) over the first two seconds. What do you need to find this?
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still struggling
 

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