Olympic Class Runner: Race Time & Acceleration

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In summary, a sprinter follows a model where he accelerates at 3.8 m/s2 for 3.26 s, then runs at a constant velocity to the finish line. If a sprinter's top speed is the same as in part a, he would need to increase his acceleration by 9.61% to run the 100 meter dash in 9.61 s.
  • #1
grimsdale
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1. Careful measurements have been made of Olympic sprinters in the 100 meter dash. A simple but reasonably accurate model is that a sprinter accelerates at 3.8 m/s2 for 3.26 s, then runs at constant velocity to the finish line.
(a) What is the race time for a sprinter who follows this model?

(b) A sprinter could run a faster race by accelerating faster at the beginning, thus reaching top speed sooner. If a sprinter's top speed is the same as in part a, what acceleration would he need to run the 100 meter dash in 9.61 s?

(c) By what percent did the sprinter need to increase his acceleration in order to decrease his time by 1%?




Homework Equations


Vf=Vi+at
Sf=Si +Vi*t+.5*a*t^2




The Attempt at a Solution



ok i am able to get part (a):

i started by finding the velocity for the rest fo teh race after the acceleration:
Vf=0+((3.8)(3.26))=12.388 m/s

then i found how far he traveled during the acceleration:
Sf=0+0+.5((3.8)(3.26))=20.19m

next i found how much time it took to complete the race from t=3.26s:
100=20.19+(12.388)t+.5(0)t^2
100-20.19=12.388t
t=6.44s

finally:
t(total)= 3.26+6.44= 9.7s

now i have been looking at the last two parts and i have no idea where to start.
 
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  • #2
What have you tried so far for parts b and c ?
To start you off on b, look at the given information. You have total distance, total time and maximum velocity. The only factors you do not know directly are the acceleration, the acceleration phase time and the constant velocity time.
Thus you have 3 eqns and 3 unknowns, I think you know what to do now :)
 
  • #3
Looking at your final equation you have:

100 = 20.19 + 12.388t + .5(0)t^2

In this new situation the only thing we are changing is the 20.19 part because we don't know how far he goes in the first leg, so that part can become X let's say

100 = x + 12.388t

Now we just got to think, what exactly is x. Well look how you calculated it previously

Sf=0+0+.5((3.8)(3.26)^2)=20.19m

Since we don't know the 3.8 or 3.26 we can just fill them as A and [itex]t_1[/itex] respectively ([itex]t_1[/itex] because it's not the same time as the time variable that's already in the equation).

[tex] 100 = (.5)(a)(t_1)^2 + 12.388t [/tex]

That is an equation with 3 unknowns. The rest is is just using known information to eliminate variables. See if you can solve it from there
 
Last edited:
  • #4
BishopUser said:
Looking at your final equation you have:

100 = 20.19 + 12.388t + .5(0)t^2

In this new situation the only thing we are changing is the 20.19 part because we don't know how far he goes in the first leg, so that part can become X let's say

100 = x + 12.388t

Now we just got to think, what exactly is x. Well look how you calculated it previously

Sf=0+0+.5((3.8)(3.26)^2)=20.19m

Since we don't know the 3.8 or 3.26 we can just fill them as A and [itex]t_1[/itex] respectively ([itex]t_1[/itex] because it's not the same time as the time variable that's already in the equation).

[tex] 100 = (.5)(a)(t_1)^2 + 12.388t [/tex]

That is an equation with 3 unknowns. The rest is is just using known information to eliminate variables. See if you can solve it from there

Can any1 explain this a little more clearly perhaps, I've been looking at this for atleast an hour and I'm still stuck...
 
  • #5
anyone? I am still a little stuck
 
  • #6
no help?
 

1. What is the Olympic Class Runner?

The Olympic Class Runner is a type of elite athlete who competes in the sport of running at the Olympic level.

2. How is race time calculated for Olympic Class Runners?

Race time for Olympic Class Runners is calculated by measuring the time it takes for the runner to complete a specific distance, typically in meters or kilometers.

3. What is the average race time for an Olympic Class Runner?

The average race time for an Olympic Class Runner varies depending on the distance being run. For example, the average race time for a 100m sprint is around 10 seconds, while the average race time for a marathon is around 2 hours and 10 minutes.

4. How does acceleration affect an Olympic Class Runner's race time?

Acceleration plays a crucial role in an Olympic Class Runner's race time. The faster a runner can accelerate, the quicker they can cover a specific distance, resulting in a shorter race time.

5. Can an Olympic Class Runner's race time be improved?

Yes, an Olympic Class Runner's race time can be improved through training and conditioning. By improving their speed, strength, and endurance, a runner can decrease their race time and become more competitive at the Olympic level.

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