Consider the power dissipated in a series R–L–C circuit with R=280Ω, L=100mH, C=0.800μF, V=50V, and ω=10500rad/s. The current and the voltages in this circuit are not in phase with each other. Using the values given, the phase angle ϕ was found to be 73 ∘, and the current amplitude I was found to be 5.1×10−2 A . Calculate the power factor and the average power to the entire circuit and to each circuit element.

[tex]Z=\sqrt{R^2+(X_L-X_C)^2}\\\Rightarrow Z=\sqrt{R^2+(\omega L-\dfrac{1}{\omega C})^2}\\\Rightarrow Z=\sqrt{280^2+(10500\times 100\times 10^{-3}-\dfrac{1}{10500\times 0.8\times 10^{-6}})^2}\\\Rightarrow Z=972.1483\ \Omega[/tex]

Power factor is given by

[tex]F=\dfrac{R}{Z}\\\Rightarrow F=\dfrac{280}{972.1483}\\\Rightarrow F=0.28802[/tex]

The power factor is 0.28802

The average power to the circuit is given by

[tex]P=\dfrac{V^2}{Z}\\\Rightarrow P=\dfrac{50^2}{972.1483}\\\Rightarrow P=2.57162\ W[/tex]

The average power to the circuit is 2.57162 W

Power to resistor

[tex]P_R=IR\\\Rightarrow P_R=5.1\times 10^{-2}\times 280\\\Rightarrow P_R=14.28\ W[/tex]

Power to resistor is 14.28 W

Power to inductor

[tex]P_L=IX_L\\\Rightarrow P_L=5.1\times 10^{-2}\times 10500\times 100\times 10^{-3}\\\Rightarrow P_L=53.55\ W[/tex]

Power to the inductor is 53.55 W

Power to the capacitor

[tex]P_C=IX_C\\\Rightarrow P_C=5.1\times 10^{-2}\times \dfrac{1}{10500\times 0.8\times 10^{-6}}\\\Rightarrow P_C=6.07142\ W[/tex]

The power to the capacitor is 6.07142 W