4. Suppose a block of mass m slides over a surface with kinetic friction coef- ficient towards a spring with spring constant k. The block reaches the spring with spring with speed vo. (a) How far is the spring compressed at maximum compression? Give your answer in terms of m, k, k, and vo. (b) What is an expression for the maximum value that vo could be in order for the spring to remain maximally compressed, no matter what
4. Suppose a block of mass m slides over a surface with kinetic friction coef- ficient towards a spring with spring constant k. The block reaches the spring with spring with speed vo. (a) How far is the spring compressed at maximum compression? Give your answer in terms of m, k, k, and vo. (b) What is an expression for the maximum value that vo could be in order for the spring to remain maximally compressed, no matter what
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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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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please answer only using algebra, no calculus
Transcribed Image Text:4. Suppose a block of mass m slides over a surface with kinetic friction coef-
ficient towards a spring with spring constant k. The block reaches the
spring with spring with speed vo.
(a) How far is the spring compressed at maximum compression? Give
your answer in terms of m, k, pk, and vo.
(b) What is an expression for the maximum value that vo could be in
order for the spring to remain maximally compressed, no matter what
material the block and surface are? Give your answer in terms of
m, k, pk. Hint: the coefficient of static friction is always greater than
the coefficient of kinetic friction.
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