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22. (a) The circuit of Figure 4 has /₁ = 3mA, V₁ = 4V and R = 3k. Derive (and sketch) both its Thévenin and Norton equivalent circuits. V₁ 1₁ (1 2R R ww 2R R R

22. (a) The circuit of Figure 4 has /₁ = 3mA, V₁ = 4V and R = 3k. Derive (and sketch) both its Thévenin and Norton equivalent circuits. V₁ 1₁ (1 2R R ww 2R R R

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Q2. (a) The circuit of Figure 4 has /₁ = 3mA, V₁ = 4V and R = 3k2. Derive (and sketch) both its Thévenin and Norton equivalent circuits. V₁ 1₁ + V₁ 2R www R ww 2R Figure 4 (b) Calculate the maximum power Pmax that this circuit can deliver to a matched load; state the corresponding value of load resistance. h (c) Deduce the range of load resistances over which the dissipated load power exceeds 50% of Pmax. ww (d) The circuit of Figure 5 has /₁ = 3mA, V₁ = 4V and R = 3kQ. Use the superposition theorem to find the current through the resistor circled. www R R Figure 5 R 2R www ww R
Transcribed Image Text:Q2. (a) The circuit of Figure 4 has /₁ = 3mA, V₁ = 4V and R = 3k2. Derive (and sketch) both its Thévenin and Norton equivalent circuits. V₁ 1₁ + V₁ 2R www R ww 2R Figure 4 (b) Calculate the maximum power Pmax that this circuit can deliver to a matched load; state the corresponding value of load resistance. h (c) Deduce the range of load resistances over which the dissipated load power exceeds 50% of Pmax. ww (d) The circuit of Figure 5 has /₁ = 3mA, V₁ = 4V and R = 3kQ. Use the superposition theorem to find the current through the resistor circled. www R R Figure 5 R 2R www ww R
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