Physics - Hooke's Law

What types of forces alter an object?

Why do you need to equal and opposite forces to alter an object?

When you’re sitting on a chair, you’re compressing it. What are the two forces in action?

What are forces that produce extension called?

What are forces that shorten or compress an object called?

What are tensile forces?

What are compressive forces?

What does this photo show?

What does this graph represent?

What is on the y-axis?

What is on the x-axis?

What is the point at which a spring will become deformed called?

What is a non-lasting deformation called?

What is a permanent deformation called?

Why are elastic deformation and plastic deformation different?

What is Hooke’s Law?

What is the formula for Hooke’s Law?

What does $k$ represent in the formula for Hooke’s Law, $F = kx$?

What does $x$ represent in the formula for Hooke’s Law, $F = kx$?

Simply put, what does the force constant $k$ represent in Hooke’s Law?

How will a spring with a large force constant feel?

If you have a force-extension graph, what does the gradient tell you?

Is it harder to extend springs to the same extension in series or parallel?

What is the effective spring constant $k _ T$ for two springs connected in SERIES with $k _ 1$ and $k _ 2$?

What is the effective spring constant $k _ T$ for two springs connected in PARALLEL with $k _ 1$ and $k _ 2$?

Why is it harder to stretch two springs in parallel vs one spring to the same extension?

Why is it easier to stretch two springs in series vs one spring to the same extension?

How do the springs in series and parallel formulas compare to the resistors in serires and parallel formulas?

How should you define Hooke’s law in an exam?

When stating Hooke’s law, what is proportional to what?

What does the stress-strain graph look like for a rubber band?

PHOTO SERIES SPRING How is the extension shared after you’ve calculated the effective spring constant for springs in constant?

What are OCR finicky about when you’re describing elastic versus plastic materials?

Where is the elastic limit here?

What is the difference between the limit of proportionality (A) and elastic limit (B)?

When describing a material from its stress-strain graph, what are some other options you should consider instead of “it obeys Hooke’s law”?

Can you explain why the force constant of two identical springs of force constant $k$ connected in series have an effective force constant of $2k$?

When reading a question about springs in series or parallel, what do you have to be extra careful about?