B) After the rockets have fired, a constant frictional force of 12421 N acts to slow our clever coyote down. How far does he travel before coming to rest? Assume his initial s when he is slowing down is equal to his final speed when the rockets were firing. 17.860 m C) How fast is this coyote moving when he has traveled 1.48 m while he is slowing down. Assume his initial speed when he is slowing down is equal to his final speed whe ockets were firing. 42.138 m

B) After the rockets have fired, a constant frictional force of 12421 N acts to slow our clever coyote down. How far does he travel before coming to rest? Assume his initial s when he is slowing down is equal to his final speed when the rockets were firing. 17.860 m C) How fast is this coyote moving when he has traveled 1.48 m while he is slowing down. Assume his initial speed when he is slowing down is equal to his final speed whe ockets were firing. 42.138 m

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

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

Please answer the questions in red.

You have answered 1 out of 3 parts correctly.
(A)
A clever coyote uses rocket powered skates to try to catch a roadrunner. The mass of the coyote is 37.3 kg.
(A) If the coyote starts from rest, and accelerates to a final speed of 44 m/s in a distance of 2.5 m, how much thrust force did the rockets exert to get him to his final speed? Assume
this thrust is constant over the 2.5 m.
(B&C)
14442.56 N
(B) After the rockets have fired, a constant frictional force of 12421 N acts to slow our clever coyote down. How far does he travel before coming to rest? Assume his initial speed
when he is slowing down is equal to his final speed when the rockets were firing.
17.860 m
(C) How fast is this coyote moving when he has traveled 1.48 m while he is slowing down. Assume his initial speed when he is slowing down is equal to his final speed when the
rockets were firing.
42.138
m
S

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