A small box is being launched along a track as shown below (if the image does not load, click here). From A to E the track is smooth whereas it is rough from E to F with a coefficient of kinetic friction of 0.53. The segment B-C-D is a circular section with a radius of 3.1 m. The table below summarises some relevant information. At A, the block is at rest and the spring is unstretched. Values h1 = 0.49 m h2 = 1.2m Track.png Calculate the maximum speed of the block at C before losing contact with the track. For that maximum speed, calculate the required distance d for the block to stop at F. Write your answer to d in millimetres rounded to the nearest millimetre. (previous answers to similar questions on this site are incorrect)

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
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A small box is being launched along a track as shown below (if the image does not load, click here). From A to E the track is smooth
whereas it is rough from E to F with a coefficient of kinetic friction of 0.53. The segment B-C-D is a circular section with a radius of
3.1 m. The table below summarises some relevant information. At A, the block is at rest and the spring is unstretched.
Values
h1 = 0.49 m
h2 = 1.2m
Track.png
Calculate the maximum speed of the block at C before losing contact with the track.
For that maximum speed, calculate the required distance d for the block to stop at F.
Write your answer to d in millimetres rounded to the nearest millimetre.
(previous answers to similar questions on this site are incorrect)
Transcribed Image Text:A small box is being launched along a track as shown below (if the image does not load, click here). From A to E the track is smooth whereas it is rough from E to F with a coefficient of kinetic friction of 0.53. The segment B-C-D is a circular section with a radius of 3.1 m. The table below summarises some relevant information. At A, the block is at rest and the spring is unstretched. Values h1 = 0.49 m h2 = 1.2m Track.png Calculate the maximum speed of the block at C before losing contact with the track. For that maximum speed, calculate the required distance d for the block to stop at F. Write your answer to d in millimetres rounded to the nearest millimetre. (previous answers to similar questions on this site are incorrect)
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