What is the Output Force of a Wheel Axle?

AI Thread Summary
To determine the output force of a wheel axle, the discussion emphasizes the importance of understanding mechanical advantage and torque, even if torque hasn't been formally covered. The problem involves applying a force of 17 N to a wheel with a radius of 0.75 m and an axle radius of 6 cm. Participants suggest visualizing the setup as a lever, where the input and output forces depend on the scenario. The conversation highlights the need to apply concepts like angular momentum and mechanical advantage to solve the problem effectively. Overall, grasping these fundamental principles is crucial for calculating the output force accurately.
NatalieWise123
Messages
14
Reaction score
0

Homework Statement


You apply a force of 17 N to a wheel with a radius of 0.75 m. If the axle has a radius of 6 cm, what is the output force, assuming the machine operates under ideal conditions?

Homework Equations

The Attempt at a Solution


I don't even know how to begin to begin this. Help!
 
Physics news on Phys.org
Google "simple machines output force".
 
Begin with thinking about all the equations you were given in class.
 
NatalieWise123 said:
I don't even know how to begin to begin this. Help!
What do you know about angular momentum?
 
TeethWhitener said:
What do you know about angular momentum?

Angular Momentum= mass*velocity*radius
 
Isaac0427 said:
Begin with thinking about all the equations you were given in class.

I'm thinking it has something to do with Idea Mechanical Advantage which is output/input I believe.
 
How about torque? (I probably should have said torque in my first post)
 
TeethWhitener said:
How about torque? (I probably should have said torque in my first post)

We haven't learned that yet
 
Hmm. Ok. It is about mechanical advantage. It's just a little easier to understand if you know about torque. No big deal. But gimme a sec to think about how to explain the problem without torque.
 
  • #10
Have you gone over concepts such as angular velocity yet?
 
  • #11
You can think of the setup like a lever, with each arm being a radius and the fulcrum being the shared center of rotation (axis). Surely you've covered simple machines like levers?

Fig1.png
 
  • #12
TeethWhitener said:
Have you gone over concepts such as angular velocity yet?

In a really general sense. I understand it though.
 
  • #13
gneill said:
You can think of the setup like a lever, with each arm being a radius and the fulcrum being the shared center of rotation (axis). Surely you've covered simple machines like levers?

View attachment 91966

Sort of. Would output force be F2?
 
  • #14
NatalieWise123 said:
Sort of. Would output force be F2?
Sure. For a lever, which end is "input" and which is "output" is your choice based on the situation at hand. Base your choice on the scenario presented in the problem statement.
 
  • #15
gneill's picture is probably much better help than anything I could put into words.
 

Similar threads

Rolling resistance force for a 75gram vehicle
Replies
10
Views
2K
Calculating Net Force on a Wheel: Magnitude and Direction | 0.350 m Radius
Replies
4
Views
2K
Force exerted on counter-rotating wheels by a tennis ball
Replies
44
Views
6K
Maximum allowable value of a force
Replies
5
Views
1K
How Much Load Will the Wheel at C Bear in a 3-Axle Trailer?
Replies
1
Views
1K
What is the most efficient way to solve a wheel and axle system problem?
Replies
15
Views
11K
Calculating Net Torque on Wheel Axle
Replies
7
Views
4K
Bicycle Translational Acceleration vs Angular Acceleration
3
Replies
121
Views
11K
Calculating Efficiency in a Wheel and Axle System
Replies
14
Views
4K
Find the torque for a vehicle wheel
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top