Solve for capacitor voltage of the following circuit round to nearest unit

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The image contains three text boxes labeled for entering voltage values: 1. **K =** [Text box] volts 2. **K₁ =** [Text box] volts 3. **K₂ =** [Text box] volts These sections are intended for inputting or calculating electrical voltages. There are no graphs or diagrams included in the image.

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The image depicts an RLC series circuit with a switch. Here's a detailed explanation suitable for an educational website: **Circuit Diagram Overview:** - **Voltage Source (Vs):** On the left, there is a voltage source represented by a circle with a plus-minus sign labeled as \( V_S \). This indicates the supply voltage to the circuit. - **Switch:** Next to the voltage source is a switch that is initially open, indicated by its position pointing upwards. The switch is labeled \( t = 0 \), meaning it is intended to close at the moment \( t = 0 \). - **Resistor (R):** To the right of the switch is a resistor, depicted as a zigzag line, labeled \( R \). This component restricts the flow of electric current and dissipates energy in the form of heat. - **Inductor (L):** Following the resistor is an inductor, shown as a coiled line, labeled \( L \). An inductor opposes changes in current and stores energy in a magnetic field. - **Capacitor (C):** The circuit concludes with a capacitor, illustrated by two parallel lines, labeled \( C \). A capacitor stores energy in an electric field and is connected parallel to the rest of the components. It has a voltage across it labeled \( v_C(t) \), indicating a time-varying voltage. - **Closed Path:** This entire configuration is arranged in a closed loop, allowing current to flow when the switch is closed. The circuit demonstrates a typical RLC series configuration, used in various applications, including filtering and tuning circuits, which exhibit oscillatory behavior based on their component values.