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100 V (± 4Vx + w ΔΩ + B 40 ww w 402 Vx≤40 C +20 V w i. If RL is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) KCL at A: (A-100) + 4 =0A ii. What is the Voltage at B if RL is replaced by a short circuit? V RL iii. What is the current in R if it is replaced by a short circuit? A iv. If RL is replaced by an open circuit, write the equation for the application of KCL at A: KCL at A: A-100+ 4 D =0A V For the circuit shown above, use the following steps to determine the value for i. If RÅ is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) v. What is the voltage across RL if it is replaced by and open circuit? vi. What value of RL gives maximum power transfer? Ω vii. What is the power dissiplated in RÅ when it has a value to allow maximum power transfer? I- W

100 V (± 4Vx + w ΔΩ + B 40 ww w 402 Vx≤40 C +20 V w i. If RL is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) KCL at A: (A-100) + 4 =0A ii. What is the Voltage at B if RL is replaced by a short circuit? V RL iii. What is the current in R if it is replaced by a short circuit? A iv. If RL is replaced by an open circuit, write the equation for the application of KCL at A: KCL at A: A-100+ 4 D =0A V For the circuit shown above, use the following steps to determine the value for i. If RÅ is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) v. What is the voltage across RL if it is replaced by and open circuit? vi. What value of RL gives maximum power transfer? Ω vii. What is the power dissiplated in RÅ when it has a value to allow maximum power transfer? I- W

Introductory Circuit Analysis (13th Edition)
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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100 V (± 4Vx + w ΔΩ + B 40 ww w 402 Vx≤40 C +20 V w i. If RL is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) KCL at A: (A-100) + 4 =0A ii. What is the Voltage at B if RL is replaced by a short circuit? V RL iii. What is the current in R if it is replaced by a short circuit? A iv. If RL is replaced by an open circuit, write the equation for the application of KCL at A: KCL at A: A-100+ 4 D =0A V For the circuit shown above, use the following steps to determine the value for i. If RÅ is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) v. What is the voltage across RL if it is replaced by and open circuit? vi. What value of RL gives maximum power transfer? Ω vii. What is the power dissiplated in RÅ when it has a value to allow maximum power transfer? I- W
Transcribed Image Text:100 V (± 4Vx + w ΔΩ + B 40 ww w 402 Vx≤40 C +20 V w i. If RL is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) KCL at A: (A-100) + 4 =0A ii. What is the Voltage at B if RL is replaced by a short circuit? V RL iii. What is the current in R if it is replaced by a short circuit? A iv. If RL is replaced by an open circuit, write the equation for the application of KCL at A: KCL at A: A-100+ 4 D =0A V For the circuit shown above, use the following steps to determine the value for i. If RÅ is replaced by a short circuit. Complete the formula below for the application of KCL at node A. Use the symbols A,B,& C for the voltages at the nodes) v. What is the voltage across RL if it is replaced by and open circuit? vi. What value of RL gives maximum power transfer? Ω vii. What is the power dissiplated in RÅ when it has a value to allow maximum power transfer? I- W
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