Why is it easier to undo a bolt with a long lever

In summary, the conversation discusses the concept of torque and its relationship to the length of a lever arm. It is explained that by increasing the length of the arm, the radius of the turning circle is increased, resulting in more work being done and more energy being used to turn the bolt. Additionally, the ratio of the two parts of the lever arm is important in determining the forces and torques involved. The conversation also suggests that it is more constructive to think about the forces and torques rather than the work and energy involved. Ultimately, the longer lever arm allows for a lower force to be applied, but the work done remains the same.
  • #1
climbon
18
0
Question about moments and torques.

I understand that torque is defined as τ=Fs and understand where this comes from mathematically but am wondering why does nature make it easier to put a greater torque on an bolt with a longer lever.

The only real explanation I can think of is by increasing the length of the arm, you are increasing the radius of the turning circle (of your lever arm). By doing this you are increasing the distance moved of your hand (circumference of circle) and so increasing the work done (W=Fs) and so more "energy" goes into turning the bolt with a longer arm?

Thanks!
 
Physics news on Phys.org
  • #2
climbon said:
The only real explanation I can think of is by increasing the length of the arm, you are increasing the radius of the turning circle (of your lever arm). By doing this you are increasing the distance moved of your hand (circumference of circle) and so increasing the work done (W=Fs) and so more "energy" goes into turning the bolt with a longer arm?
That's pretty much it, but you could also think about from the bolt's point of view. For the bolt, the lever arm is one-half its diameter. When you increase your lever arm, the forces holding the bolt frozen in its socket have relatively less leverage to resist the force you're applying.
 
  • #3
I agree. Think about levers in general. It's not just the length of the lever that matters, the ratio of the two parts of the lever are important.

By doing this you are increasing the distance moved of your hand (circumference of circle) and so increasing the work done (W=Fs) and so more "energy" goes into turning the bolt with a longer arm?

I think it's more constructive to think of the forces & torques involved rather than the work/energy. It's probably best to think of the work/energy required to undo the nut as a constant. It's the same nut and bolt regardless of how long the wrench is!

Basically the lever provided by a longer wrench means your arm has to apply a lower force on the end of it... but in the end the work done (work = force * distance) is the same. The longer wrench just trades force for distance.
 

Why is it easier to undo a bolt with a long lever?

1. What is the principle behind using a long lever to undo a bolt?

The principle behind using a long lever to undo a bolt is based on the concept of torque. A longer lever allows for a greater distance between the point where the force is applied and the pivot point, resulting in a greater torque or rotational force.

2. How does a long lever affect the amount of force needed to undo a bolt?

A longer lever reduces the amount of force needed to undo a bolt because it increases the torque applied to the bolt. This means that the same amount of force applied to the end of a longer lever can produce a greater amount of torque compared to a shorter lever.

3. Why does a longer lever make it easier to undo a bolt?

A longer lever makes it easier to undo a bolt because it multiplies the amount of force applied to the bolt. This allows for a smaller force to be applied to the lever, making it easier to overcome the resistance of the bolt.

4. How does the length of the lever affect the ease of undoing a bolt?

The length of the lever directly affects the ease of undoing a bolt. A longer lever will make it easier to undo a bolt, while a shorter lever will require more force to overcome the resistance of the bolt.

5. Are there any other factors besides the length of the lever that can affect the ease of undoing a bolt?

Other factors that can affect the ease of undoing a bolt include the material and surface condition of the bolt, the force applied to the lever, and the position of the pivot point in relation to the bolt. These factors can also impact the amount of torque produced by the lever and therefore affect the ease of undoing the bolt.

Similar threads

Torque and Moment of Inertia of a Lever Arm
    • Mechanics
Replies
2
Views
2K
Torque is same all along lever?
    • Mechanics
Replies
5
Views
2K
Maximizing Projectile Range on a Class 1 Lever Catapult: Tips & Tricks
    • Mechanics
Replies
1
Views
2K
Why do bicycle gears make pedaling easier or harder?
    • Mechanics
Replies
19
Views
7K
Compound lever: Best fulcrum location to increase mechanical advantage
    • Mechanical Engineering
Replies
17
Views
7K
Exploring Torque: Definition, Equations, and Explanation
    • Mechanics
Replies
1
Views
3K
Chopping wood - torque question
    • Mechanics
Replies
4
Views
4K
Automotive How can gears improve the performance of mousetrap cars?
    • Mechanical Engineering
Replies
1
Views
6K
Car in corner -- relative airflow
    • Mechanics
Replies
20
Views
2K
Why does a Lever arm magnify force?
    • Optics
Replies
12
Views
23K

Hot Threads

Recent Insights

Back
Top