What's affecting the friction?

  • Context: High School 
  • Thread starter Thread starter null void
  • Start date Start date
  • Tags Tags
    Friction
Click For Summary

Discussion Overview

The discussion revolves around the relationship between mass and static friction, particularly in the context of experiments and theoretical scenarios involving blocks on surfaces. Participants explore the implications of mass on the normal force and the resulting static friction, questioning the lecturer's assertion that mass does not affect static friction.

Discussion Character

  • Debate/contested
  • Experimental/applied
  • Mathematical reasoning

Main Points Raised

  • Some participants express confusion regarding the claim that mass does not affect static friction, citing the formula F = μN, where N is the normal force.
  • One participant notes that the actual static friction force is equal to or less than μN, depending on the applied force, and questions how doubling the mass affects static friction.
  • Another participant describes an experiment involving a block on an inclined plane, suggesting that as the incline increases, the normal force decreases, which may influence the static friction experienced by the block.
  • Some participants argue that while the maximum static friction value increases with mass, the actual static friction force remains equal to the applied force until it reaches that maximum.
  • One participant provides numerical examples comparing blocks of different masses to illustrate how maximum static friction is calculated and how it relates to the applied force.
  • A later reply suggests that at the point of slipping, the forces can be equated to show that mass cancels out, implying that the coefficient of static friction is independent of mass.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the relationship between mass and static friction. There are competing views on whether mass affects the actual static friction force or just the maximum allowable static friction.

Contextual Notes

Participants reference specific scenarios and examples, but there are unresolved assumptions regarding the definitions of static friction and the conditions under which the discussions take place.

null void
Messages
102
Reaction score
1
I am quite confused when my lecturer told me that the mass of an object doesn't affect the static friction.

F = μN , the N suppose to be the Normal force right? If i have an object on an horizon surface, the N should be -mg, why doesn't mass affect the static friction?
 
Physics news on Phys.org
Note that for static friction, μN gives the maximum value of the friction force. The actual friction force will be equal or less than that. So you need to be clearer about the context of your question.

Example: A block rests on a table. You push with a horizontal force of 1 N and it doesn't move. What's the value of the static friction force? What if the mass of the block doubled? Will that change the static friction?
 
For static friction, the friction force is of the same magnitude as the force with which you are pushing on the object, but oppositely oriented, so as to exactly keep the object stationary. Since we are talking about static friction, we are assuming that you are pushing with a force not larger in magnitude than \mu N. This upper limit depends on the mass, through N.
 
  • Like
Likes   Reactions: 1 person
I was doing an experiment by putting a wooden block on a plane, then slowly lifting up the other side to make the plane incline more until the wooden block slip( when the force that the friction is opposing exceed the static friction). I know that when lifting up the plane, the N force getting smaller then the force perpendicular to the N will become bigger.

Example: A block rests on a table. You push with a horizontal force of 1 N and it doesn't move. What's the value of the static friction force? What if the mass of the block doubled? Will that change the static friction?

the static force = 1 N; when the mass doubled, i suppose the friction also doubled. So in conclusion the static friction does affected by mass?
 
Q: A block rests on a table. You push with a horizontal force of 1 N and it doesn't move. What's the value of the static friction force? What if the mass of the block doubled? Will that change the static friction?
Ans: Value is 1N. Even if the mass is doubled, the force remains 1N, just the maximum allowable static friction becomes double.
So originally if the block would move at 10N(say), it will now not move until 20N is applied.
I hope this helps
 
  • Like
Likes   Reactions: 1 person
null void said:
I was doing an experiment by putting a wooden block on a plane, then slowly lifting up the other side to make the plane incline more until the wooden block slip( when the force that the friction is opposing exceed the static friction). I know that when lifting up the plane, the N force getting smaller then the force perpendicular to the N will become bigger.
OK. Since you're finding the angle at which the block just begins to slip, the static friction at that point will equal μN, the maximum value. As you point out, the greater the angle of the incline, the smaller the value of that normal force.

In any case, should the angle at which the block just begins to slip depend on the mass of the block?

the static force = 1 N;
Right.

when the mass doubled, i suppose the friction also doubled.
Why do you think that? You're still pushing with only 1 N of force. (What changes is the maximum value of the friction force, not the actual friction force.)

More examples. Two blocks on a horizontal table. One with a mass of 1 Kg and the other with a mass of 10 Kg. Let's say that μ = 0.5. So what is the maximum value of static friction in each case, which is given by μN = μmg?

For the 1 kg block: μmg = 4.9 N
For the 10 kg block: μmg = 49 N

So, if you push the 1 kg block with a horizontal force of 1 N, what will be the static friction created? (Hint: How does the 1 N force compare to the maximum value for the static friction?)

Same question for the 10 kg block.

So in conclusion the static friction does affected by mass?
See above.
 
  • Like
Likes   Reactions: 1 person
At the instant the block slips the force down the slope is equal to the max value of static friction.

Write equations for both and equate them.

You should find that the mass cancels.

You can then rearrange the result to solve for the coefficient of static friction which will be independent of mass.

That's probably what your lecturer meant.
 
  • Like
Likes   Reactions: 1 person
I get it, thanks
 

Similar threads

High School Why is static friction necessary for pure rolling?
  • · Replies 4 ·
Replies
4
Views
3K
High School Are frictional forces action forces or reaction forces?
  • · Replies 14 ·
Replies
14
Views
2K
Undergrad If frictional force in system is <= us*N then there is no slipping
  • · Replies 7 ·
Replies
7
Views
2K
Undergrad Modeling Coulomb Friction for a Moving Point Mass in a Circular Bowl
  • · Replies 20 ·
Replies
20
Views
2K
High School Rolling of non-deforming sphere on a non-deforming rough surface?
  • · Replies 4 ·
Replies
4
Views
2K
High School Why doesn't static friction move the other object?
  • · Replies 9 ·
Replies
9
Views
2K
Graduate Boundary condition of limiting friction in continuum mechanics
  • · Replies 18 ·
Replies
18
Views
2K
High School Questions about momentum and force as well as normal force/friction
  • · Replies 35 ·
2
Replies
35
Views
5K
Undergrad What determines the direction of static friction forces?
  • · Replies 6 ·
Replies
6
Views
2K
Undergrad Rolling Without Slipping
  • · Replies 59 ·
2
Replies
59
Views
5K