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)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Question
Q2 part a please
![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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd8daee9f-d29f-45df-a135-147485ae6037%2F90806284-658e-4c76-8a16-7e6ac51b3b95%2Fdmqbvu_processed.png&w=3840&q=75)
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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