MHB Find the Optimal Starting Time for a Tied Race in Physics Kinematics

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In a physics kinematics problem, John runs at 5 m/s and Joe at 3 m/s over a distance of 300 m, with John starting t seconds after Joe to create a tie. The equations derived show that for the race to end in a tie, t must equal 40 seconds, allowing Joe to cover 120 m before John starts. The calculations confirm that John runs for 60 seconds while Joe runs for 100 seconds, both completing the 300 m distance. The final agreement on the solution validates the approach taken in the discussion. The problem effectively illustrates the relationship between speed, time, and distance in a race scenario.
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John runs at 5 m/s joe runs at 3m/seg the distance to run is 300 m Antony in order to do the race more exciting allows john start t seconds after joe What is the t value so that the race finishes in a tie?? what distance was allowed to joe?? Answer 40 seg and 120 m

I don't know how to denote the time of john
5t = 3 (300-t) ?'
 
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Let's let $T$ represent the time John runs, and so $T+t$ is the time Joe runs. We know the must both run 300 m during their respective times, and so we may write:

$$5T=3(T+t)$$

$$5T=300\implies T=60$$

Can you proceed?
 
sure 5T -3T = t
2 T = t
t = 2 *60 = 120
please I am not Sure cooecte me if I am not correct
and thanks for you reply greetings and regards
 
You should have:

$$5T-3T=3t$$

You didn't distribute the $3$ before...:D
 
2T = 3t

2(60) = 3t
so t = 40 seg

Ok and now: 3 (40) = 120 m

ithink i am ruight now do I?
 
leprofece said:
2T = 3t

2(60) = 3t
so t = 40 seg

Ok and now: 3 (40) = 120 m

ithink i am ruight now do I?

Yes, that's correct! (Sun)
 

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