(a) In Figure 2.1, determine (1) (ii) the currents Is and I₁, the voltage Vx across the terminals. ww Is 40 52 Ω 50 Ω ww A 1₁ 10 Ω ww 15 22 Ω Figure 2.1 102 > 53 V (b) For the circuit shown in Figure 2.2, determine the currents I and Is, the power dissipated in 1 kO resistor. (1) (ii) Vx I 2 mA Is 20 V www 1 ΚΩ (d) 400 02 ww 600 £2 Refer to Figure 1.3. (0) Calculate the Thevenin resistance and voltage external to the load resistor RL. Sketch the Thevenin equivalent circuit. (ii) (iii) 1₁ Determine the value of RL for maximum power transfer, and calculate the maximum power delivered to the load resistor RL. 22 V 40 02 ww 36 Ω Im 3292 Figure 1.3 ww Σ 36 Ω a b R₁

need help on Q A, B,D

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(a) In Figure 2.1, determine (1) (ii) the currents Is and II. the voltage Vx across the terminals. 102 > 53 V Is ww 40 52 Ω 1₁ ww 10 Ω 50 Ω 15 22 Ω Figure 2.1 (b) For the circuit shown in Figure 2.2, determine the currents I and Is. the power dissipated in 1 kO resistor. (0) (ii) Vx I 2 mA Is 20 V Figure 2.2 www 1 ΚΩ 400 Ω (d) ww 600 £2 Refer to Figure 1.3. (0) Calculate the Thevenin resistance and voltage external to the load resistor RL. Sketch the Thevenin equivalent circuit. (ii) (iii) 1₁ Determine the value of RL for maximum power transfer, and calculate the maximum power delivered to the load resistor RL. 22 V 40 02 ww Im 36 Ω 3292 Figure 1.3 ww 36 Ω a b RL