Where Does Aaron Catch Up to Alyssa?

AI Thread Summary
Alyssa travels at a constant speed of 80 km/h, while Aaron starts accelerating at 10 km/h/s after a 1-second delay. The key point is that the time taken for both to cover the same distance is not the same; Aaron's time is one second less than Alyssa's. To find where they meet, the distances can be equated: Alyssa's distance is 80T, and Aaron's distance is 0.5A(T-1)². The correct approach involves solving these equations for T to determine the catch-up point.
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hey,

I was given a problem that states:

Alyssa passes by Aaron at a constant velocity of 80km/h. Aaron wanting to catch up to her hesitates for 1 second and then starts accelerating at 10km/h/s. Where does he catch up with alyssa?

OK what i have been thinking and trying out is that the time they meet will be the same right? like when you sub the numbers into an equation the time you get is the same for both? so then you can use that time and figure out the distance, since that's the same too. ALso, so when i get the time that's it right? i don't add the 1 second to it?? the time i got was 14.8 seconds and a distance of 328.9 meters. Did i do this right or am i way off??

thanx for your time.
 
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The distance is the same but the time is not same.
Time taken by Aaron in moving the same distance is one second less then taken by Alyssa.
Pay attantion to the units!
 
D of the constant velocity person is = 80T
the accelerating person's D = .5A(T-1)^2

you can make those equal to each other and solve for T
 
Last edited:
Uhh, Moose, Distance= 80T
 
HallsofIvy said:
Uhh, Moose, Distance= 80T
:blushing: :redface:
oops :bugeye:
Changed it, thanks!
 

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