What is the final speed of the bicyclist rolling downhill?

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The discussion focuses on calculating the final speed of a bicyclist rolling downhill from a height of 127 meters, encountering a friction force of 292 Newtons. The initial speed at the top is 8 m/s, and the energy conservation equation is applied to find the final speed at the bottom. Initial calculations yield a result of 12.95 m/s, but a participant identifies a transcription error, correcting the total energy to 113617.4 J and arriving at a final speed of 14.96 m/s. The importance of accurate calculations and transcription in physics problems is emphasized. The final speed of the bicyclist, accounting for friction, is thus determined to be 14.96 m/s.
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1. A bicyclist on an old bike (combined mass: 89 kg) is rolling down (no pedaling or braking) a hill of height 127 m. Over the course of the 355 meters of downhill road, she encounters a constant friction force of 292 Newton. If her speed at the top of the hill is 8 m/s, what is her speed at the bottom of the hill?



2. 1/2 m(V1)^2 + mgh1 = 1/2m(V2)^2 + mgh2 + Ffrx



3. 1/2(89 kg)(8 m/s)^2 + (89 kg)(9.8 m/s^2)(127 m) = 1/2(89 kg)V2^2 + (292 N)(355 m)

111125.4 J = 44.5 kg V2^2 + 103660 J

sqrt(7465.4 J / 44.5 kg) = V2

V2 = 12.95 m/s

Somehow I'm doing something wrong because this velocity is wrong. Any help would be greatly appreciated.
 
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jorge0531 said:

3. 1/2(89 kg)(8 m/s)^2 + (89 kg)(9.8 m/s^2)(127 m) = 1/2(89 kg)V2^2 + (292 N)(355 m)

111125.4 J = 44.5 kg V2^2 + 103660 J


I think it is just a transcription error. I am getting 113617.4 J rather than 111125.4 J, and a final velocity of 14.96 m/s.
 
you were right :P thank you
 

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