Calculating Time and Distance in a Constant Velocity Sprinting Problem

AI Thread Summary
The discussion focuses on calculating the total time for a sprinter running a 100 m dash with constant acceleration to top speed. The sprinter reaches a top speed of 11.3 m/s in 2.54 seconds, but the user struggles with unrealistic time calculations. They attempted various methods, including mathematical equations and graphing, but found themselves lacking sufficient information. Key points include determining average velocity, displacement, and the remaining distance to calculate the time taken at maximum velocity. The conversation emphasizes the need to clarify these variables to solve the problem accurately.
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This is probably very simple, but it's causing me problems. I keep coming up with VERY unrealistic times. Any help would be greatly appreciated!

One simple model for a person running the 100 m dash is to assume the sprinter runs with constant acceleration until reaching top speed, then maintains that speed through the finish line.
If a sprinter reaches his top speed of 11.3 m/s in 2.54 s, what will be his total time?
 
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What have you come up with so far?
 
Because I have no idea where to start, I keep trying to do it mathematically. Like, 100/11.3 and then adding or subtracting the 2.54 seconds. I also tried drawing it out in a graph. When I did that I found myself in the same place. Not enough information to finish anything! I know that the equation is the change in velocity/change in time.

I got 4.45m/s^2 for the first velocity, but that doesn't seem right. I just graphed it and used Pythagorean Theorem. That would mean he ran 3.65 m at 4.45m/s^2 before reaching 11.3 m/s^2 for the other 96.35 yards. Then if you try to do Pythagorean Theorem again, it doesn't work. The hypotenuse is 11.3 and the height is 96.35. I am really stuck!
 
Displacement = Average velocity x time.
You know the sprinter's initial velocity and maximum velocity.
What is the average velocity and displacement?
Next what is the remaining distance? How much time he takes to run this with the maximum velocity?
 

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