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A red car moving at 44.7 mph passes a blue car moving at 30.7 mph. (Use 1609 meters = 1 mile when converting to meters/second.) Seeing a stopped car in his lane up ahead, the driver of the red car applies the brakes just as he passes the blue car which causes the red car to slow down to a stop by losing 4.36 m/s every second.



(a) How much time (in seconds) passes before the two cars are side-by-side once again?
s




(b) When the cars are finally side-by-side, how do their average speeds compare for the time you calculated above? Please explain fully.

2007-09-18 13:39:34 · 1 answers · asked by ags101 2 in Science & Mathematics Physics

1 answers

(a) The cars meet again when red's average velocity = blue's velocity.
v0 = vred(initial)
vred(ave) = 0.5*(v0+(v0+at)) = vblue
t = 2(vblue-v0)/a
I'll leave the conversions and arithmetic to you. (Remember 'a' is negative.)
(b) From the above their average speeds are equal; they covered equal distances in equal times.

2007-09-19 15:51:58 · answer #1 · answered by kirchwey 7 · 0 0

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