Find the solution to the characteristic equation you got in part (1). Use only the methods we taught in class (i.e., Do NOT solve the problem using Laplace / partial fractions). If both values of s are equal, write them twice. If they are not equal, write the larger one first (-15 is larger than -20). If they are complex, write the real part in the first box and the imaginary part in the second box. S₁= S₂= 1/sec 1/sec

Introductory Circuit Analysis (13th Edition)
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The circuit has a switch that closes at t=0. Resistor R = 2.6ohms. L=0.1H, C= 4F while Vs= 24 volts
**Question:**

Find the solution to the characteristic equation you got in part (i). **Use only the methods we taught in class (i.e., Do NOT solve the problem using Laplace / partial fractions).**

If both values of s are equal, write them twice. If they are not equal, write the larger one first (-15 is larger than -20). If they are complex, write the real part in the first box and the imaginary part in the second box.

**Input Boxes:**

- S₁ = [____] 1/sec
- S₂ = [____] 1/sec
Transcribed Image Text:**Question:** Find the solution to the characteristic equation you got in part (i). **Use only the methods we taught in class (i.e., Do NOT solve the problem using Laplace / partial fractions).** If both values of s are equal, write them twice. If they are not equal, write the larger one first (-15 is larger than -20). If they are complex, write the real part in the first box and the imaginary part in the second box. **Input Boxes:** - S₁ = [____] 1/sec - S₂ = [____] 1/sec
The diagram illustrates an RLC series circuit, commonly used in electrical engineering to study the behavior of circuits over time. The circuit includes the following components:

1. **Voltage Source (\(V_S\))**: Represented by a circle with a plus and minus sign inside, indicating its polarity. This source provides the input voltage to the circuit.

2. **Switch**: Positioned at the top left of the circuit, shown in the open position with an arrow indicating that it closes at \(t = 0\). This controls the flow of current through the circuit.

3. **Resistor (\(R\))**: Denoted by a zigzag line. It represents the resistance in the circuit, which opposes the flow of current and dissipates energy as heat.

4. **Inductor (\(L\))**: Illustrated as a coiled loop. It stores energy in a magnetic field when current flows through it and opposes changes in current.

5. **Capacitor (\(C\))**: Displayed as two parallel lines with a gap between them. It stores energy in an electric field and can release it when necessary.

6. **Voltage Across Capacitor (\(v_C(t)\))**: Indicated to the right of the capacitor, showing the time-variable voltage across the capacitor's terminals.

This circuit is used to demonstrate the transient response when the switch is closed, allowing the charge and discharge cycle of the capacitor to be analyzed, as well as the energy interactions with the inductor and resistor.
Transcribed Image Text:The diagram illustrates an RLC series circuit, commonly used in electrical engineering to study the behavior of circuits over time. The circuit includes the following components: 1. **Voltage Source (\(V_S\))**: Represented by a circle with a plus and minus sign inside, indicating its polarity. This source provides the input voltage to the circuit. 2. **Switch**: Positioned at the top left of the circuit, shown in the open position with an arrow indicating that it closes at \(t = 0\). This controls the flow of current through the circuit. 3. **Resistor (\(R\))**: Denoted by a zigzag line. It represents the resistance in the circuit, which opposes the flow of current and dissipates energy as heat. 4. **Inductor (\(L\))**: Illustrated as a coiled loop. It stores energy in a magnetic field when current flows through it and opposes changes in current. 5. **Capacitor (\(C\))**: Displayed as two parallel lines with a gap between them. It stores energy in an electric field and can release it when necessary. 6. **Voltage Across Capacitor (\(v_C(t)\))**: Indicated to the right of the capacitor, showing the time-variable voltage across the capacitor's terminals. This circuit is used to demonstrate the transient response when the switch is closed, allowing the charge and discharge cycle of the capacitor to be analyzed, as well as the energy interactions with the inductor and resistor.
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