Package Dropped On A Conveyor Belt

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The discussion revolves around a physics problem involving a package dropped on a conveyor belt, focusing on the effects of friction. The user struggles with calculations for the time it takes for the package to stop sliding, its displacement, and the energy dissipated by friction. The user provides symbolic answers for each part of the problem, indicating confusion about the calculations and the relevance of numerical values. They also question the necessity of substituting numerical values for constants like gravitational acceleration. The overall sentiment reflects uncertainty in applying physics principles to solve the problem effectively.
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Homework Statement


A package is dropped on a horizontal conveyor belt. The mass of the package is 4m , the speed of the conveyor belt is 3v , and the coefficient of kinetic friction between the package and the belt is 2k .

a) How long does it take for the package to stop sliding on the belt?

b) What is the package’s displacement during this time?

c) What is the energy dissipated by friction?

d) What is the work done by friction on the box?

Homework Equations



F = m*a
W = F*d

The Attempt at a Solution



I got all these problems wrong, and honestly I have no clue what I am doing with this problem. Here are my answers:

a) v/(26.16*k)
basically I calculated this by force of friction = (2k)(4m)(9.81)
then with F = ma
78.48mk = ma
a = 78.48k

So I used v = at
3v = 78.48kt
t = 3v/78.48k
t = v/26.16k

b) (17.44*(v^2))/(k)

basically I calculated this by force of friction = (2k)(4m)(9.81)
then with F = ma
78.48mk = ma
a = 78.48 k
Then d = .5at2
d = .5(78.48k)(v/26.16k)2

c) 1368.7*m*(v^2)

For this I used Ff*d

So Ff = 78.48mk
d = .5(78.48k)(v/26.16k)2

d) 1368.7*m*(v^2)

This is the same as c, right?
 
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It seems like all the results are going to be symbolic since you don't have numerical values for m,v,k. Why bother plugging in a numerical value for g? Why not just leave it as 'g'?
 

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