Finding the coefficient of kinetic friction

AI Thread Summary
The discussion revolves around finding the coefficient of kinetic friction for a cart on a linear track using measurements from photogates. The user calculated instantaneous velocities but lacked the distance between the gates, which is crucial for determining acceleration. They explored using kinematic equations to derive acceleration but faced challenges due to missing variables. A suggestion was made to explain the missing data in the lab report, which could help mitigate issues with the experiment's results. Ultimately, the conversation emphasizes the importance of all measurements in accurately calculating kinetic friction.
rm_girl
Messages
15
Reaction score
0

Homework Statement


For our lab we had to find the coefficient of kinetic friction for a cart on a linear track. We pushed the cart on the track and it went through two photogates which measured the time it spent in the photogate.
So through the 1st photogate = 0.0040s
2nd photogate = 0.0062s
There was a flag on the cart which was 0.42cm.
So we found the instantaneous velocity through the first gate as v=0.0042m/0.0040s = 1.05m/s
The instantaneous velocity through the second gate was v=.0042m/.0062s = 0.677m/s

The mass of the cart is = 0.507 kg

Homework Equations


vf = vo + at

F=ma

Ff = ukFN

FN = mg

The Attempt at a Solution


I was going to use vf = vo + at
find the acceleration as
a= vf - vo/t
but I don't know what the time is between the change instantaneous velocity.
I know if I get the acceleration I can plug into the F=ma, find the force and somehow get the frictional force from there.
 
Last edited:
Physics news on Phys.org
You will need one more piece of information. The distance between the gates will do. (But you didn't need the cart mass.)
 
Unfortunately we didn't measure the distance between the photogates either.
I only thought of getting the time/distance between the photogates AFTER the lab was done. :frown:
But I talked to my professor and apparently we can get the acceleration just from those two instantaneous velocity, unless he didn't understand our question when we asking him about the time issue.
 
rm_girl said:
apparently we can get the acceleration just from those two instantaneous velocity,
No chance. Suppose the distance between the gates was 1m. That would allow you to work out the acceleration, and would not contradict any of the information you provided. Now suppose it was 1km. This would still not contradict any known facts, but produce a rather different acceleration.
 
That's what I figured. Well, I can't go back and do the experiment again. So guess I'm screwed.
Thanks for the help though.
 
rm_girl said:
I can't go back and do the experiment again. So guess I'm screwed.
You can't even estimate it from memory?
For the purposes of the lab exercise, there is merit in at least demonstrating that you could have worked it out if you'd had all the measurements.
 
Do you have the time it took to go from one photogate to the other?
 
SammyS said:
Do you have the time it took to go from one photogate to the other?
No I didn't get that time.

I didn't set up the track and photogate, my lab partner did. And I very much highly doubt he remembers either.
I think my professor will accept if I explain it in my lab report what variables I'm missing, then it should be fine.
 
Just to make sure, before I start typing up my report.

If were to find the acceleration from the equation
a = vf-vi/Δt
Then I plug that into the F=ma
since frictional force is Ff = ukmg I would set
ma = ukmg
and find uk that way ?
 
  • #10
rm_girl said:
Just to make sure, before I start typing up my report.

If were to find the acceleration from the equation
a = vf-vi/Δt
Then I plug that into the F=ma
since frictional force is Ff = ukmg I would set
ma = ukmg
and find uk that way ?
Yes, but would you really have known Δt? How would you have measured it accurately? I think it's more reasonable that you would have noted the distance between the gates
 
  • #11
haruspex said:
I think it's more reasonable that you would have noted the distance between the gates

How would I find acceleration from the distance?
 
  • #12
rm_girl said:
How would I find acceleration from the distance?

There's a kinematic equation for that.
 
  • #13
which would be?
the only equation I know that involves distance and acceleration is
d = vot + 1/2at2
which has two unknowns in the equation.
 
  • #14
rm_girl said:
the only equation I know that involves distance and acceleration is
d = vot + 1/2at2
You haven't met vf2 - vo2 = 2ad?
If not, you could have derived it from the above together with any other kinematic equation by eliminating t.
 
  • #15
No, we never had to use that equation.
But I was just able to derive it using the equation I gave above. Thanks :smile:
 
  • #16
rm_girl said:
No, we never had to use that equation.
It's just force * distance = KE, with the masses canceled out.
 

Similar threads

Coefficient of Friction question for a cart going down a wooden ramp
Replies
18
Views
3K
Does coefficient of kinetic friction depend on speed?
Replies
16
Views
5K
How to find the coefficient of kinetic friction
Replies
4
Views
3K
How to find coefficient of friction of a body sliding down the slope?
Replies
7
Views
2K
Finding friction without coefficient?
2
Replies
88
Views
9K
How to find coefficient of friction *Without* mass?
Replies
3
Views
22K
Calculating acceleration from the coefficient of kinetic friction
Replies
48
Views
8K
Coefficient of kinetic friction lab
Replies
3
Views
1K
Find the force of Friction and minimum coefficient of friction
Replies
1
Views
2K
Roller coaster problem involving velocity
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top