A Question about Hooke's Law....

In summary, Hooke's Law states that the force needed to extend or compress a spring by some distance X is proportional to that distance, expressed as F = kX. This means that the force applied to the spring will be greater if the distance X is greater, and the force will be necessary to hold the spring at the distance X. The law also applies to oscillations around the equilibrium position, where the force exerted by the spring is proportional to the extension or compression, as long as the amplitude is small.
  • #1
Kaneki123
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Okay...Hook's Law is stated as ''the force (F) needed to extend or compress a spring by some distance X is proportional to that distance. That is: F = kX (Wikipedia)'' And further on this topic there is a statement that
''Hooke's law for a spring is often stated under the convention that F is the restoring (reaction) force exerted by the spring on whatever is pulling its free end''...
My question is that, Is the force F the force which we apply continuosly for some time to extend the spring upto some distance X, or is it the force needed to ''hold'' the stretched spring at the distance X (the former force will obviously be greater than the second)? If it is the first force than should'nt it be the second one?
 
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  • #2
Kaneki123 said:
the former force will obviously be greater
hmmm. What is your argument to justify that statement? Do you just mean that it would be necessary to accelerate the mass of the spring by a finite amount`?
 
  • #3
Kaneki123 said:
Is the force F the force which we apply continuosly for some time to extend the spring upto some distance X,
If you apply a constant force, starting from zero extension, you will end up with an oscillation around the equilibrium position. (If the spring has finite mass).
 
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  • #4
If you want to state Hooke's law in terms of a force that YOU apply, then the force necessary to KEEP the spring compressed (or extended) by a distance x is proportional to x. Obviously then, if you extend it more, you will need to apply a larger force to keep it extended by that amount.
Of course, nothing prevents you from exerting whatever force you want. As sophiecentaur said, you could just apply a constant force, for example, by hanging a mass from a vertically suspended spring. In which case, the mass will oscillate about the equilibrium position.
You could also apply a force varying sinusoidally with time, and force the spring to oscillate at the same frequency as the applied force.
In all cases, the RESTORING force exerted by the spring will be proportional to the extension or compression, provided the amplitude of oscillations is small.
 
  • #5
Kaneki123 said:
My question is that, Is the force F the force which we apply continuosly for some time to extend the spring upto some distance X, or is it the force needed to ''hold'' the stretched spring at the distance X (the former force will obviously be greater than the second)? If it is the first force than should'nt it be the second one?
The force is only dependent on the current position, not the change in position. For each value of x, the law applies. The final value, X, will need a force of kX to prevent it from moving. Any force greater than kX will stretch the spring past X. Similarly, for any value of x<X, a force of kX will accelerate the mass to X.
 

Related to A Question about Hooke's Law....

1. What is Hooke's Law?

Hooke's Law is a principle in physics that states the force needed to extend or compress a spring is directly proportional to the distance it is stretched or compressed. This law was first described by English scientist Robert Hooke in the 17th century.

2. How does Hooke's Law relate to elasticity?

Hooke's Law is often used to describe the behavior of elastic materials, such as springs, because it shows the relationship between the applied force and the resulting deformation. This law can also be applied to other materials, such as rubber bands or metal wires, as long as they exhibit elastic behavior.

3. Can Hooke's Law be applied to all materials?

No, Hooke's Law only applies to materials that exhibit elastic behavior. These materials can return to their original shape after being stretched or compressed. For materials that do not exhibit elastic behavior, other laws, such as the stress-strain relationship, must be used to describe their behavior.

4. How is Hooke's Law used in real life?

Hooke's Law has many practical applications, such as in the design of springs and shock absorbers. It is also used in medical devices, such as braces and orthopedic implants, to provide support and aid in the healing process. Additionally, Hooke's Law is used in the study of earthquakes and other natural phenomena to understand the behavior of materials under stress.

5. What are the limitations of Hooke's Law?

Hooke's Law is only applicable within a certain range of deformation. Once a material reaches its elastic limit, it will no longer follow Hooke's Law and may experience permanent deformation. Additionally, Hooke's Law assumes that the material is homogeneous and isotropic, meaning it has the same properties in all directions. In reality, most materials have variations in their properties which can affect their behavior under stress.

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