Everything in this problem is working out fine in my brain except for the last part where he determines the capcitance.
\(Q_{cap} = 2.551 kVAR\)
but how does
\(Q_{cap} = V^{2} \omega_{c} \quad \text{?}\)
I'm thinking,
\(V_{c} = \frac{Q}{C}\)
What is he doing here?
I know that \(\omega_{c} = \omega\) since we assume steady state but where is that coming from?
Thanks again!
\(Q_{cap} = 2.551 kVAR\)
but how does
\(Q_{cap} = V^{2} \omega_{c} \quad \text{?}\)
I'm thinking,
\(V_{c} = \frac{Q}{C}\)
What is he doing here?
I know that \(\omega_{c} = \omega\) since we assume steady state but where is that coming from?
Thanks again!
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