CHAPTER 5 Problems and Solutions Problem 1 a
CHAPTER 5 Problems and Solutions 不要用看的,要動手!
Problem 1 a. Determine the currents I and IL for the network in Fig. 5. 77. b. Find the power delivered to the resistor R 2.
Problem 2 a. Determine the vo 1 tage Vs for the network in Fig. 5. 78. b. Find the power delivered to R 2.
ZL ZR 1 ZR 2 ZC
ZL ZR 1 另一條路… ZR 2 ZC
Problem 7 Determine the current I in Fig. 5. 79 by first converting both voltage sources to current sources and then combining the parallel current sources.
利用Current divider rule
Problem 8 Convert the current source in Fig. 5. 80 to a voltage source and find the current I by combining the series voltage sources and using Ohm's law.
2 kΩ
Problem 9 a. Determine the current through the inductor of Fig. 5. 79 using mesh analysis. b. Using the results for part (a) find the voltage across the inductor.
Z 1=2 kΩ Z 3=5 kΩ∠-90° I 1 I 2 Z 2=4 kΩ∠ 90° Mesh 1 Mesh 2
Problem 10 Determine the current I in Fig. 5. 81 using mesh analysis.
I 1 I 2 Z 1=10Ω∠ 0° Z 2=20Ω∠ 0° Z 3=30Ω∠ 90° Z 4=50Ω∠-90° Mesh 1 Mesh 2
I 1 I 2 Z 1=10Ω∠ 0° Z 2=20Ω∠ 0° Z 3=30Ω∠ 90° Z 4=50Ω∠-90°
Problem 11 Determine the current through resistor R 2 in Fig 5. 86.
I 2 I 1 I 3 Mesh 1 Mesh 2 Mesh 3
Problem 12 Determine the voltage across the resistor R 2 in Fig 5. 86.
Z 3 Z 1 Z 2 Z 6 Z 5 Z 4
Problem 13 a. Determine the nodal voltages for the network in Fig. 5. 82. b. Calculate the current through each impedance using the results for part (a).
V 1 NODE 2 V 2
Problem 14 Find the Thévenin equivalent circuit for the network to the left of the load ZL in Fig. 5. 83.
ZTH、ETH
Problem 15 a. Determine ZL for maximum power to ZL in Fig. 5. 83. b. Calculate the maximum power that can be delivered to ZL.
R + XL For max. power
Problem 16 a. Find the Thévenin equivalent circuit for the network to the left of XC= 50Ω in Fig. 5. 81. b. If XC in Fig. 5. 81 is replaced by a load ZL, determine R and X for the load so that the load will receive maximum power.
Problem 17 a. Find the Thévenin equivalent circuit for the network to the left of ZL in Fig. 5. 84. b. Determine ZL for maximum power to ZL. c. Calculate the maximum power to ZL.
Problem 23 For the network in Fig. 5. 88, determine: a. The current through each branch using Ohm's law. b. The total power dissipated (real power). c. The net reactive power. d. The total apparent power e. The network power factor.
a. b.
c. d. Total apparent power e. Power factor
Problem 24 For the system in Fig. 5. 89, determine: a. PT b. QT c. ST d. I e. FP
a. Total power b. Net reactive power Lagging 電感性較強 c. Total apparent power
d. e. Power factor Lagging
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