- 1 Calculate The Reactive Power In The Inductor And Capacitor In The Circuit 240 0 V 2 3 50 52 12 30 V 20 52 Dete 1 (90.42 KiB) Viewed 49 times
1. Calculate the reactive power in the inductor and capacitor in the circuit. 240/0° V 2. 3. 50 52 12/30° V -√20 52 Dete
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1. Calculate the reactive power in the inductor and capacitor in the circuit. 240/0° V 2. 3. 50 52 12/30° V -√20 52 Dete
1. Calculate the reactive power in the inductor and capacitor in the circuit. 240/0° V 2. 3. 50 52 12/30° V -√20 52 Determine the impedance ZL for maximum average power transfer and the value of the maximum average power transferred to ZL for the circuit shown. -ja HE 90° A Find I, using Norton's Theorem. (50 points) 12/0° V 4/90° A 8/0° A 6/0° 892 {pa Find I, using Norton's Theorem. 5 Determine I, using Thevenin's Theorem. 302 j2 02 1₁ 4/0° A -J69 4. Find the average ZL for maximum average power transfer. Find the value of the maximum average power transfer delivered to the load. (50 points) J30 22 4/0° A 252 492 -392 j2Q2 11012 4 ohms j2 ohms :-/20 40 £2 J192 J5 Q23 202 8 ohms -J412 V Z₂ D³2 14 -292