Adjust the output voltage of a power supply to 5.0 V. Then turn the power off and connect the circuit shown in Figure 3.7. The ammeter should be set for its highest current measuring range. 3. 1.5 K Figure 3.7. Measure the curent in the series circuit. Power supply de :

Disregard question 4.

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**Instructions for Calculating Theoretical Voltages and Currents in a Circuit:** 3. **Theoretical Calculations:** - Calculate the theoretical voltage across and the current through each resistor in the circuit depicted in Figure 3.7. Use the actual resistance values measured for each resistor in step 1 of the procedure. - Additionally, compute the theoretical total current supplied by the power source based on the theoretical total equivalent resistance of the circuit. - Compare the measured values with the theoretically calculated values to assess accuracy and understanding. 4. **Repetition of Procedures:** - Repeat the procedures described in question 3 for each of the circuits illustrated in Figures 3.8, 3.9, and 3.10. **Note:** This exercise helps reinforce theoretical understanding by comparing it with practical measurements, and encourages critical analysis of any discrepancies.

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**Instructions:** 3. Adjust the output voltage of a power supply to 5.0 V. Then turn the power off and connect the circuit shown in Figure 3.7. The ammeter should be set for its highest current measuring range. **Figure 3.7: Measure the current in the series circuit.** **Diagram Explanation:** - The diagram shows a simple series circuit. - The circuit includes: - A power supply labeled with 5 V. - An ammeter (labeled A) to measure current. - Two resistors: one with a resistance of 1.5 KΩ and another with 1 KΩ (labeled \( V_R \)). **Calculation Shown:** \[ V_R = 5 \left(\frac{1}{2.5}\right) = 2V \] This calculation appears to be determining the voltage across a portion of the circuit.