Solving Friction Problems: Calculating Distance and Time

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Friction can accelerate an object, as demonstrated by a box on a moving conveyor belt, where the friction force from the belt speeds up the box until it matches the belt's speed. The discussion revolves around calculating the distance the box moves before reaching this final speed and the time taken to do so. Using energy conservation, the distance is derived as d = v²/(2μg), where μ is the coefficient of friction and g is the acceleration due to gravity. The time taken to reach the final speed is calculated as t = v/(μg). The participants clarified the relationships between force, acceleration, distance, and time to arrive at their solutions.
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Friction help!

Homework Statement



It is sometimes claimed that friction forces always slow an object down, but this is not true. If you place a box of mass M on a moving horizontal conveyor belt, the friction force of the belt acting on the bottom of the box speeds up the box. At first there is some slipping, until the speed of the box catches up to the speed v of the belt. The coefficient of friction (greek letter mu "looks like a u") between box and belt is . Do not worry about italics. For example, if a variable g is used in the question, just type g and for (u) use mu.

I have 2 questions that do not have numbers, just have to solve for an equation.

(a) What is the distance d (relative to the floor) that the box moves before reaching the final speed v? (Use energy arguments to find this answer.)

(b) How much time does it take for the box to reach its final speed?



The attempt at a solution

not sure how to start. i figured conservation of energy. also the block will experience -mg force, it will have normal force cancelling it out. so then only force is friction force due to belt. this is where i get stuck. also not sure if i have to factor in change of thermal energy or not. anything with friction with have change in thermal.
any help would be great
thanks
 
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Until it comes to rest on the moving surface there is a force acting on M that is equal to the force of friction.

F = μ*M*g

This force will accelerate M until it is going at the speed of the belt.

Since F = m*a

then you can figure how fast it accelerates. Armed with acceleration you can write an equation from kinematics that relates this acceleration and the velocity of the belt to distance. Likewise the time based on velocity and acceleration.
 


ok since F= u*M*g and F = m*a i can set them equal
m*a = u*M*g i solved for a by dividing by m and get
a = (u*M*g)/m would the (m) cancel? ther is a big M and a small m not sure

then if this is a F = m*a
so F = m*((u*M*g)/m)

am i right so far? i feel like i messed up somewhere
 


fball558 said:
ok since F= u*M*g and F = m*a i can set them equal
m*a = u*M*g i solved for a by dividing by m and get
a = (u*M*g)/m would the (m) cancel? ther is a big M and a small m not sure

then if this is a F = m*a
so F = m*((u*M*g)/m)

am i right so far? i feel like i messed up somewhere

Sorry, of course the m's cancel.
 


But what you are really interested in is a, isn't it?

That way you can relate a, v, and x.

And you can relate a, v and t.
 


how are these related? i know if your integrate acceleration you get velocity. that is back to calc 1 stuff. but don't think that works for physics and i don't know where the x comes into play.
 


fball558 said:
how are these related? i know if your integrate acceleration you get velocity. that is back to calc 1 stuff. but don't think that works for physics and i don't know where the x comes into play.

These are kinematic relationships. But never mind that. Do it as they suggest.

What will the increase in kinetic energy be?

And you have the force ... so how much work is done on getting the block to speed?

W = F * d
 


kinetic energy is = 1/2mv^2
delta(E) = w+q i said q is 0
so delta(E) = w delta(E)= KE (1/2mv^2)
w=f*d so
1/2mv^2 = (m(u*g)) * d
solve for d i get
d= v^2/2g
where did i go wrong? this is the wrong answer
 


fball558 said:
kinetic energy is = 1/2mv^2
delta(E) = w+q i said q is 0
so delta(E) = w delta(E)= KE (1/2mv^2)
w=f*d so
1/2mv^2 = (m(u*g)) * d
solve for d i get
d= v^2/2g
where did i go wrong? this is the wrong answer

Well you have it, but you dropped a constant looks like.

1/2*m*V2 = μ*m*g * d

d = V2/(2*μ*g)
 
  • #10


yeah realized that
i got the answers now

thanks for all the help
 
  • #11


how did you get the time?
 
  • #12


jchojnac said:
how did you get the time?

Can't you get it from distance and acceleration?
 
  • #13


yes that is what i did messed with some of the letters.
eventually simplified down to

t= v/(mu*g) where mu is just u not mass * u
 
  • #14


i tried:

d/sqrt(2*d*mu*g)

...it was wrong
 
  • #15


jchojnac said:
i tried:

d/sqrt(2*d*mu*g)

...it was wrong

That's because your acceleration is μ*g

V is a constant and is already given. So to find time

V = a*t = μ*g*t

t = v/(μ*g)
 
  • #16


thx a lot for u guys helping

Now I get the answer
 

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