Can Oscilloscope Measurements Show Resistance Impact on RLC Circuit Damping?

AI Thread Summary
The discussion focuses on demonstrating the relationship between resistance and damping in a series RLC circuit using experimental methods. Participants suggest considering energy loss in the circuit, specifically how it relates to current and resistance. The use of an oscilloscope is highlighted as a practical tool for measuring current peak values, which can indicate damping effects. The idea is to show that variations in resistance lead to observable differences in current peaks, supporting the claim that damping is influenced by resistance. Overall, the conversation emphasizes experimental approaches to validate theoretical concepts without relying on the damping factor formula.
batshwa
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Hello,

I've got to prepare for a practical session and need some help with a problem: how (by what experiments) can you prove that the damping of a series RLC circuit depends on the value of the resistance (without basing oneself on any knowledge of the damping factor \zeta=\frac{R}{2L}).

Thanks in advance!
 
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batshwa said:
Hello,

I've got to prepare for a practical session and need some help with a problem: how (by what experiments) can you prove that the damping of a series RLC circuit depends on the value of the resistance (without basing oneself on any knowledge of the damping factor \zeta=\frac{R}{2L}).

Thanks in advance!
Think in terms of energy. What is the energy loss of a current, I, passing through a resistance, R?

AM
 
Thanks a lot for your answer!

The energy loss is \Delta E=Ri^2\Delta t, right? But is there another way (based more on experiments) to show that \zeta\propto R ?

I forgot to mention, that we dispose of an oscilloscope. Would it be then correct to say that the damping depends on the resistance, because the difference between two peak values of the current (measured with the oscilloscope) depends on the resistance?
 

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