(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
(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
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Question
need help on Q A, B,D
![(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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc6be7614-91ac-42b9-a633-52b61f86512e%2F988702b4-ac41-4fbb-9c74-8be888b61bc4%2Ftzcb4jq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(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
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