Using the circuit below with R1 = 1 kQ, R2 = 10 kQ, and E = 9 volts, determine the theoretical voltages at points A, B, and C with respect to ground. Record these values. Apply Ohm's law to determine the expected currents through R1 and R2. Record these values. Include demonstration of Kirchhoff's Voltage Law.

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Using the circuit below with \( R1 = 1 \, \text{k}\Omega \), \( R2 = 10 \, \text{k}\Omega \), and \( E = 9 \) volts, determine the theoretical voltages at points A, B, and C with respect to ground. Record these values. Apply Ohm’s law to determine the expected currents through \( R1 \) and \( R2 \). Record these values. Include demonstration of Kirchhoff’s Voltage Law. **Circuit Diagram Explanation:** The diagram shows a simple series-parallel circuit: - **Source Voltage (\( E \))**: 9 volts connected from ground to point A. - **Resistor \( R1 \)**: 1 kΩ connected between points A and B. - **Resistor \( R2 \)**: 10 kΩ connected between points B and C. - **Current \( I_s \)**: The total current flowing from the voltage source. - **Currents \( I_1 \) and \( I_2 \)**: The currents through resistors \( R1 \) and \( R2 \) respectively. - **Ground**: The reference point for measuring voltage. The task involves: 1. Calculating voltages at points A, B, and C. 2. Determining currents \( I_1 \) and \( I_2 \). 3. Verifying Kirchhoff’s Voltage Law.