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RI TO M 4.70 TOV R2 10 ΚΩ V W Figure 1 Determining the Open Circuit Voltage R1 10kΩ R3 4.7622 w 10V R2 10kΩ A b Figure 2 Determining the Short Circuit Current R1 10kΩ R3 4.72 10V Ra 10kΩ RL 15ΚΩ V w b Figure 3: Determining Voltage Vs with R. Added
1.. Connect the circuit as shown in Figure 1 and Record the open circuit voltage (V) across terminals - V= 5.00 2 Based on the circuit component values in Figure 10-1, calculate the expected value of the voltage across terminals a-b (V.). Draw the circuit and do calculations in the space below. 3. Connect the circuit as shown in Figure 2 and Record the short circuit current (16) between terminals a-b. h 0.517 4 Based on the circuit component values in Figure 10-2, calculate the expected value of the short circuit current (la). Hint: Redraw the circuit and replace the ammeter with a short circuit. 5 Based on the measured values for Ve and I calculate the Thevenin voltage (V) and the Thevenin resistance (R) 6. Based on the values calculated in Step 5, draw the Thevenin equivalent circuit. 7. Draw the circuit in Figure 10-2 with voltage source V replaced with a short circuit. Use this circuit to calculate the Thevenin resistance (Ro) for the original network 8 Based on the measured values for Ver and he calculate the Norton current source (1.) and the Norton resistance (R.). 9. Based on the values calculated in Step 8, draw the Norton equivalent circuit. 10. Connect the circuit as shown in Figure 3, and Record the value of voltage V. 3.05.6V 11. Based on the circuit component values in Figure 10-3, calculate the expected value of voltage V.Draw the circuit and do your calculations. 12. Draw the circuit in Figure 10-3 with the section to the left of terminals a-b replaced with the Thevenin equivalent circuit in Step 6. Use this circuit to solve for voltage V... 13. Draw the circuit in Figure 10-3 with the section to the left of terminals a-b replaced with the Norton equivalent circuit in Step 9. Use this circuit to solve for voltage V..