Static/Kinetic Friction Problem

  • Thread starter Spartan Erik
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In summary, the maximum static frictional force on the block is 30N, but since only 20N of force is being applied, the magnitude of the frictional force is 20N.
  • #1
Spartan Erik
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Homework Statement


"A block that weighs 50N is initially at rest on a rough horizontal surface. A 20N horizontal force is then applied to the block. If the coefficients of friction (static = 0.6, kinetic = 0.3), what is the magnitude of the frictional force on the block?"

Homework Equations


Frictional force = coefficient of kinetic friction x normal force
Max static frictional force = coefficient of static friction x normal force

The Attempt at a Solution


Once again I'm worried this problem is misleadingly easy:

Max static frictional force = coefficient of static friction x normal force
Max static frictional force = 0.6 x (50N - 20N)
Max static frictional force = 0.6 x 30N
Max static frictional force = 18N

Is this method correct?
 
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  • #2
Spartan Erik said:

Homework Statement


"A block that weighs 50N is initially at rest on a rough horizontal surface. A 20N horizontal force is then applied to the block. If the coefficients of friction (static = 0.6, kinetic = 0.3), what is the magnitude of the frictional force on the block?"

Homework Equations


Frictional force = coefficient of kinetic friction x normal force
Max static frictional force = coefficient of static friction x normal force

The Attempt at a Solution


Once again I'm worried this problem is misleadingly easy:

Max static frictional force = coefficient of static friction x normal force
Max static frictional force = 0.6 x (50N - 20N)
Max static frictional force = 0.6 x 30N
Max static frictional force = 18N

Is this method correct?

No.

You need to draw a force diagram on the block.

What are the normal forces?

What is the horizontal forces.

If the block weighs 50N what is the maximum static frictional force it can resist?
 
  • #3
I think I just realized my mistake..

The normal force of the block is the given 50N, and the horizontal force applied is 20N, so
Max static frictional force = 0.6 x 50N
Max static frictional force = 30N

The max static frictional force exceeds the force applied horizontally (30N > 20N)
 
  • #4
Spartan Erik said:
I think I just realized my mistake..

The normal force of the block is the given 50N, and the horizontal force applied is 20N, so
Max static frictional force = 0.6 x 50N
Max static frictional force = 30N

The max static frictional force exceeds the force applied horizontally (30N > 20N)

I think you are on to something.

Good Luck.
 
  • #5
So if the max static frictional force is 30N, and you are only applying 20N of force to it, won't that make the magnitude of frictional force 20N (since the block won't move anyway)?
 
  • #6
Spartan Erik said:
So if the max static frictional force is 30N, and you are only applying 20N of force to it, won't that make the magnitude of frictional force 20N (since the block won't move anyway)?

Yes indeed.
 
  • #7
Thanks I appreciate it!
 

1. What is static friction?

Static friction is the force that keeps an object at rest when a force is applied to it. It is a type of friction that occurs between two surfaces that are not moving relative to each other.

2. What is kinetic friction?

Kinetic friction is the force that opposes the motion of an object when it is already in motion. It is a type of friction that occurs between two surfaces that are moving relative to each other.

3. How is the coefficient of friction determined?

The coefficient of friction is determined by dividing the force of friction by the normal force between two surfaces. It can also be calculated by dividing the maximum frictional force by the normal force.

4. What factors affect the magnitude of friction?

The magnitude of friction is affected by the types of surfaces in contact, the roughness of the surfaces, and the force pressing the surfaces together. It is also affected by the presence of lubricants or other substances between the surfaces.

5. How is friction important in everyday life?

Friction is important in everyday life because it allows us to grip and hold objects, walk without slipping, and drive vehicles safely. It also plays a crucial role in many industrial processes, such as braking systems and machinery.

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