Calculating Inductance for Resonant LC Circuit

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To match the resonant frequency of a mass-spring system with a given mass and spring constant to an LC circuit, the capacitance must be calculated using the formula C = 1/(omega^2 * L). The resonant frequency of the mass-spring system was determined to be 0.56. The inductance provided in the problem is 2.0H, which is the unit for inductance known as Henry. The key focus of the discussion is on finding the correct capacitance value to achieve resonance between the two systems. Understanding the relationship between inductance, capacitance, and resonant frequency is crucial for solving the problem.
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Homework Statement



Your professor tells you about pre-digital computer days when engineers used electric circuits to model mechanical systems. They could modify parameters of the circuit elements and see the effect on the circuit's behavior. Suppose a 5.0kg mass is connected to a spring with k = 1.54. This is then modeled by an LC circuit with 2.0H.

What should C be in order for the LC circuit to have the same resonant frequency as the mass-spring system?


I found the resonant frequency of the mass-spring system to be = 0.56.

I have solved a formula to get this :

C = 1/ (omega^2 * L)

where omega = 0.56. No I am not sure how to find the inductance. Any help.
 
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The inductance is stated in the problem: it's 2.0H. It's the capacitance that you need to find.
 
What does the H stand for in 2.0H? Is that the unit for inductance? I am not sure.
 
H stands for 'Henry'. It is the units of Inductance.
 

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