What is the Frictional Force Acting on a Block on a Rough Incline Plane?

AI Thread Summary
A block of mass 10 kg on a 30-degree rough incline descends with an acceleration of 2 m/s², leading to a discussion on calculating the kinetic friction force. The initial attempt to find the coefficient of friction using a simple ratio was incorrect due to the incline's angle affecting the normal force. Participants emphasized the importance of analyzing forces acting on the block and drawing a free body diagram (FBD) to clarify the situation. The correct calculation reveals that the frictional force is 30 N, aligning with the derived equation mg sin(30) - friction = ma. Understanding the components of forces on an incline is crucial for accurate friction calculations.
Priyadarshini
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Homework Statement


A block of mass 10kg is released on a rough incline plane which is inclined at 30 degrees. Block start descending with acceleretion 2m/s^2. Kinetic friction force acting on the block is:
A) 10. B) 30. C) 50. D) 50*3^(1/2)

Homework Equations



f= meu*N
a=meu*g

The Attempt at a Solution


meu= 2/10=1/5
N=mgcostheta
= 50*3^(1/2)
frictional force= 50*3^(1/2) / 5
which is 10*3^(1/2) and is not in the options.
 
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I think you should start off by determining the forces acting on the object first
Equate through forces, you don't even need to bring in the variable ##μ##
 
Suraj M said:
I think you should start off by determining the forces acting on the object first
Equate through forces, you don't even need to bring in the variable ##μ##
50-friction=ma
50-friction= 20
f=30N
But why doesn't my initial working give me this answer?
 
How did you get your coefficient of friction to be 1/5?
It's not in plane with the ground hence you can't just take 2/10 you have to take their components
 
Last edited:
Suraj M said:
How did you get your coefficient of friction to be 1/5?
It's not planar with the ground hence you can't just take 2/10 you have to take their components
What do you mean by "planar with the ground"? The f=N*meu formula has conditions? I thought it could be applied to any situation.
 
Which force will pull the block down and which force will oppose the motion? Draw FBD. As Suraj said earlier, you don't need μ.
 
cnh1995 said:
Which force will pull the block down and which force will oppose the motion? Draw FBD. As Suraj said earlier, you don't need μ.
Thank you, the answer matched. However I do not completely understand why my initial method did not give me the same answer.
 
Priyadarshini said:
What do you mean by "planar with the ground"? The f=N*meu formula has conditions? I thought it could be applied to any situation.
Not conditions Priyadarshini, your normal force is ?
You've taken 2/10
That denominator is the normal acceleration right? But that's not the normal acceleration in this case because the plane is not parallel to the ground
So you'll have to take a component of this.
FBD please
(PS- Look at us 3 Indians at this hour :-) sorry off subject- ignore this)
 
Suraj M said:
Not conditions Priya, your normal force is ?
You've taken 2/10
That denominator is the normal acceleration right? But that's not the normal acceleration in this case because the plane is not parallel to the ground
So you'll have to take a component of this.
FBD please
PS- Look at us 3 Indians :-) sorry off subject- ignore this
Ohhh. I see! Thank you!
Haha, true. The name is Priyadarshini by the way, not Priya.
 
  • #10
Priyadarshini said:
Ohhh. I see! Thank you!
Haha, true. The name is Priyadarshini by the way, not Priya.
Sorry my bad, down here we just omit the "darshini"
No offence, force of habit
Hope you got your answer[emoji106]
 
  • #11
Suraj M said:
Sorry my bad, down here we just omit the "darshini"
No offence, force of habit
Hope you got your answer[emoji106]
None taken, a lot of people do that.
Yup, thanks a lot.
 
  • #12
mgsin(30)-friction = ma
10*10*(1/2) - friction = 10*2

friction = 30 N
 

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