How Do You Calculate the Spring Constant?

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To calculate the spring constant, apply Hooke's Law, which relates the force exerted by the spring to its displacement. The problem involves a 300g mass causing a 40 cm extension and a 500g mass causing a 50 cm extension. By setting up two equations based on the weights and their respective extensions, the spring constant (k) can be derived. The change in length of the spring is 10 cm, corresponding to the increase in mass from 300g to 500g. The units of the spring constant are Newtons per meter (N/m).
John O' Meara
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I just have no idea how to approach this simple problem.
When a 300g mass is hung from the end of a vertical spring, the spring's length is 40 cm. With 500g hanging from it, its length is 50cm. What is the spring constant of the spring (N/m)?
 
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How much did the length of the spring change?
How much did the mass change?

What are the units of the spring constant?
 
John O' Meara said:
I just have no idea how to approach this simple problem.
When a 300g mass is hung from the end of a vertical spring, the spring's length is 40 cm. With 500g hanging from it, its length is 50cm. What is the spring constant of the spring (N/m)?
Hooke's Law relating spring force F to spring constant k, resting length x0, and stretched length x:

F \, = \, -k\{x - x_0\}

2 equations in 2 unknowns:

\mbox{ (0.300 kg)(9.8 m/sec^2) } \ = \ -k \left \{ \mbox{ (0.40 m) } \, - \, x_0 \right \}

\mbox{ (0.500 kg)(9.8 m/sec^2) } \ = \ -k \left \{ \mbox{ (0.50 m) } \, - \, x_0 \right \}

solve for k.
 
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