(Solved): The circuit below consists of three loads in series-parallel connection, with each loads defined a ...

The circuit below consists of three loads in series-parallel connection, with each loads defined as indicated as:- \[ \begin{array}{l} Z_{1}: P_{1}=100 \mathrm{~W}, Q_{1}=200 \mathrm{VAR} \text { (inductive) } \\ Z_{2}: P_{2}=400 \mathrm{~W}, \mathrm{p} . \mathrm{f}=0.8 \text { (leading) } \\ Z_{3}: P_{3}=300 \mathrm{~W}, \mathrm{~S}_{3}=600 \mathrm{VA} \end{array} \] Find the overall complex power of the circuit, the overall power factor and the source current in phasor form. Given \( \mathrm{V}_{\mathrm{rms}}=100\left\llcorner 0^{\circ}\right. \) Q3) Referring to the Figure below, calculate (a) the power factor (b) the average power delivered by the source (c) the reactive power (d) the apparent power (e) the complex power