Frictional Force on 39 kg Mass on Inclined Plane

In summary, the question is asking for the frictional force acting on a 39 kg mass at rest on an incline with a 32 degree angle from the horizontal. The coefficients of static and kinetic friction are given as 0.73 and 0.62 respectively and the acceleration of gravity is 9.8 m/s^2. The normal force can be found using geometry, as it is not simply equal to mg. The frictional force can then be determined using the normal force and the coefficient of static friction. The question also asks for the maximum angle of the incline where the mass will not slide down, which can be found using the coefficient of static friction and the normal force.
  • #1
kiwikahuna
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0

Homework Statement


A block is at rest on the incline (32 degrees from the horizontal). The coefficients of static and kinetic friction are Us=0.73 and Uk=0.62 respectively. The acceleration of gravity is 9.8 m/s^2. What is the frictional force acting on the 39 kg mass?

PART 2: What is the largest angle which the incline can have so that the mass does not slide down the incline?

Homework Equations



force of friction = (Uk) Fn
force of friction = (Us) Fn

The Attempt at a Solution



My initial thought was that the frictional force would be 0 because the block is at rest?

I have no idea how to start part 2 either. Please help if you can!
 
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  • #2
First, start out by drawing a diagram with all the forces that are acting on the block. Figure where the normal force, force of gravity, and frictional forces fit in.

As far as your thought about it being zero goes, think about simply standing on the floor. Sure you are not moving, but since gravity is perpetually acting on you, then what prevents gravity from not pushing you through? A counter-active force, which you probably know as the normal force. How do you think this extends to the block?
 
  • #3
So if the normal force is 39 X 9.8 m/s^2 = 382.2 N
how can the frictional force be found? Sorry if this is such a simple question, I'm really lost though.
 
  • #4
Ah, so there is one problem already. In this case, the normal force is not actually mg because it is on an incline. The normal force is actually mgcosØ, which can be found through geometry because the gravitational force will point straight downwards, but the normal force is perpendicular to the plane (the incline) and will form an angle relative to the gravitation force.

You should verify this geometry and work it out yourself as you will need it for actually determining the force of friction acting on the block.
 
  • #5
kiwikahuna said:
So if the normal force is 39 X 9.8 m/s^2 = 382.2 N
how can the frictional force be found? Sorry if this is such a simple question, I'm really lost though.

[tex]F_{fs} = (F_N)(\mu_{s})[/tex]

Because of this relation the friction force cannot be zero because the force of gravity is acting on the system, which inturn affects the normal force, which affects the friction force.
 

1. What is frictional force?

Frictional force is the force that resists the motion of an object when it comes into contact with another object or surface. It is caused by the microscopic irregularities on the surfaces of the objects.

2. How is frictional force calculated?

Frictional force is calculated by multiplying the coefficient of friction (a measure of how rough or smooth the surfaces are) by the normal force (the force perpendicular to the surface).

3. How does the mass of an object affect frictional force?

The mass of an object has no direct effect on frictional force. However, the weight of the object (which is affected by its mass) can influence the normal force and therefore affect the frictional force.

4. What is an inclined plane?

An inclined plane is a flat surface that is angled or sloped, rather than being horizontal. It is often used to reduce the effort needed to lift an object to a certain height.

5. How does an inclined plane affect frictional force on a mass?

When an object is placed on an inclined plane, the force of gravity acting on the object is split into two components: the normal force and the force parallel to the plane. The force parallel to the plane is responsible for the frictional force, which increases as the angle of inclination increases.

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