Q2. Find the equivalent inductance Leg and capacitance CEQ for the partial circuits shown. .01 μF 50 µA + 20 V- 30 μΑ | | 100 µA + + .01 µF .01 µF 25 μΗ 50 μΗ 100 μΗ + 10 V 10 V .056 µF 15 V + 15 μΗ 5 V .022 µF 50 μΑ СЕО LEQ

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**Q2.** Find the equivalent inductance \( L_{EQ} \) and capacitance \( C_{EQ} \) for the partial circuits shown.

**Diagrams:**

1. **Inductance Circuit (Left):** 
   - The circuit includes three inductors in a combination of parallel and series arrangements.
   - Components and values:
     - Three inductors are present: 25 µH, 50 µH, and 100 µH.
     - Inductions (µA) in the circuit are as follows: 50 µA, 30 µA, 50 µA, and 100 µA.

2. **Capacitance Circuit (Right):**
   - The circuit consists of several capacitors with voltage sources in series and parallel configurations.
   - Components and values:
     - Capacitors: 0.01 µF, 0.056 µF, 0.01 µF, 0.01 µF, 0.022 µF.
     - Voltage sources: +20 V, +10 V, +15 V, +5 V, and +10 V.

Calculate the equivalent inductance and capacitance for each circuit based on the arrangements shown.
Transcribed Image Text:**Q2.** Find the equivalent inductance \( L_{EQ} \) and capacitance \( C_{EQ} \) for the partial circuits shown. **Diagrams:** 1. **Inductance Circuit (Left):** - The circuit includes three inductors in a combination of parallel and series arrangements. - Components and values: - Three inductors are present: 25 µH, 50 µH, and 100 µH. - Inductions (µA) in the circuit are as follows: 50 µA, 30 µA, 50 µA, and 100 µA. 2. **Capacitance Circuit (Right):** - The circuit consists of several capacitors with voltage sources in series and parallel configurations. - Components and values: - Capacitors: 0.01 µF, 0.056 µF, 0.01 µF, 0.01 µF, 0.022 µF. - Voltage sources: +20 V, +10 V, +15 V, +5 V, and +10 V. Calculate the equivalent inductance and capacitance for each circuit based on the arrangements shown.
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