Does Compressing and Stretching a Spring Require Equal Force?

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Compressing and stretching a spring generally requires the same amount of force, as described by Hooke's Law (F = -kx), which applies to both scenarios. However, this relationship may not hold true for all types of springs, particularly those designed to behave differently, such as long coil springs that buckle under compression or springs with coils that touch, preventing compression. In practical applications, while Hooke's Law is a reliable guideline for physics problems, real-life springs can exhibit varied behaviors based on their design. The discussion also touches on finding the spring constant for a specific spring launcher. Overall, the principles of spring force and behavior can vary significantly depending on the spring's characteristics.
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Does it take the same amount of force to compress a spring 1cm as it does to stretch it 1cm?

Is it dependent on the type of spring?

If so, what kind of spring would exhibit properties similar to what I have posted above?

Is the spring constant, k, where F= -kx only used for spring compression, or can it be used interchangeably for both spring stretching and compression?
 
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welcome to pf!

hi gobbledygook! welcome to pf! :wink:

in exam questions, springs always obey Hooke's Law (F = -kx)

and yes it applies to both stretching (extension) and compression :smile:

(whether it applies accurately to all real-life springs, i have no idea! :redface:)
 


tiny-tim said:
(whether it applies accurately to all real-life springs, i have no idea! :redface:)

It doesn't. It is true for many types of real-life springs, but you can make the relation between force and displacement pretty much anything you like by designing the right sort of spring.

One example of when it isn't true a long coil spring that would "buckle" when you try to compress it, and the force needed to compress it would be very small.

Another example is a coil spring that is made with the coils touching each other, so you can't compress it at all, but you can stretch it easily.

But tiny-tim is right - you can assume it is true in physics or engineering "homework" type questions, unless the question tells you to assume something different.
 
Thanks Tim!

I am actually trying to find the spring constant of the launcher that I built.

Here are some photos of my spring launcher :smile:
Launcher 3.jpg


Launcher 1.jpg
 

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