20. The circuit shown in Figure 7.49b has a load with a range of R.- 10 n to 100 N. Delermine the normal range of V, for the circuit using its Thevenin equivalent. m nOuil

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**Figure 7.50** **20.** The circuit shown in Figure 7.49b has a load with a range of \( R_L = 10 \, \Omega \) to \( 100 \, \Omega \). Determine the normal range of \( V_L \) for the circuit using its Thevenin equivalent. **21.** Calculate the maximum possible load power for the circuit shown in Figure 7.50a. **Figure Details:** - **Figure 7.50a:** - Voltage source \( V_s = 16 \, V \). - Resistor \( R_1 = 300 \, \Omega \). - Resistor \( R_2 = 330 \, \Omega \). - Resistor \( R_3 = 470 \, \Omega \). - **Figure 7.50b:** - Voltage source \( V_s = 16 \, V \). - Resistor \( R_1 = 150 \, \Omega \). - Resistor \( R_2 = 750 \, \Omega \). - Resistor \( R_3 = 100 \, \Omega \). - Resistor \( R_4 = 100 \, \Omega \). Each figure demonstrates a different resistor configuration connected to a 16V power source, designed to analyze different electrical properties such as voltage and load power through Thevenin’s theorem and maximum load power calculations.