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1. (a) Write a function file that can be used to calculate the equivalent resistance of n parallel-connected resistors. Machine Problem (b) Write a function file that can be used to calculate the current division of n parallel-connected resistors. 2. Write a Matlab script to find the node voltages and the power supplied or absorbed by the sources using nodal analysis for the circuit below. 12 V U1 9 V 18 V 150 N 3 ka 3. Write a Matlab script to find the mesh currents and the power supplied or absorbed by the sources using mesh analysis for the circuit below. 6 mA 15 k 0.37 A ww 12 k 1/₂ 13 6 KQ 3 ka 4. For the circuit given below, determine using matlab script: (a) the value of the load resistance, R, that will dissipate maximum power from the circuit. (b) From the calculated Thevenin's circuit, vary the load resistance starting from 1 to 150 ohms. Plot R. vs power for all scenarios and from the graph, prove that the answer in (a) is correct.

1. (a) Write a function file that can be used to calculate the equivalent resistance of n parallel-connected resistors. Machine Problem (b) Write a function file that can be used to calculate the current division of n parallel-connected resistors. 2. Write a Matlab script to find the node voltages and the power supplied or absorbed by the sources using nodal analysis for the circuit below. 12 V U1 9 V 18 V 150 N 3 ka 3. Write a Matlab script to find the mesh currents and the power supplied or absorbed by the sources using mesh analysis for the circuit below. 6 mA 15 k 0.37 A ww 12 k 1/₂ 13 6 KQ 3 ka 4. For the circuit given below, determine using matlab script: (a) the value of the load resistance, R, that will dissipate maximum power from the circuit. (b) From the calculated Thevenin's circuit, vary the load resistance starting from 1 to 150 ohms. Plot R. vs power for all scenarios and from the graph, prove that the answer in (a) is correct.

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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1:49 AM S ← Circuits 1 Machin... Electric Circuits 1 Machine Problem 1. (a) Write a function file that can be used to calculate the equivalent resistance of n parallel-connected resistors. (b) Write a function file that can be used to calculate the current division of n parallel-connected resistors. 0₂ 2. Write a Matlab script to find the node voltages and the power supplied or absorbed by the sources using nodal analysis for the circuit below. 12 V 9 V 18 V 602 3 k2 400 15 3. Write a Matlab script to find the mesh currents and the power supplied or absorbed by the sources using mesh analysis for the circuit below. 103 240 22 40 A 6 mA 15 ΚΩ 1₂ www 12 kg 10.37 A 4. For the circuit given below, determine using matlab script: (a) the value of the load resistance, R, that will dissipate maximum power from the circuit. 16 2 ww 2002 02 (b) From the calculated Thevenin's circuit, vary the load resistance starting from 1 to 150 ohms. Plot R. vs power for all scenarios and from the graph, prove that the answer in (a) is correct. 100 0 46 651 95 4G B/S a <6kQ b <3 ksz
Transcribed Image Text:1:49 AM S ← Circuits 1 Machin... Electric Circuits 1 Machine Problem 1. (a) Write a function file that can be used to calculate the equivalent resistance of n parallel-connected resistors. (b) Write a function file that can be used to calculate the current division of n parallel-connected resistors. 0₂ 2. Write a Matlab script to find the node voltages and the power supplied or absorbed by the sources using nodal analysis for the circuit below. 12 V 9 V 18 V 602 3 k2 400 15 3. Write a Matlab script to find the mesh currents and the power supplied or absorbed by the sources using mesh analysis for the circuit below. 103 240 22 40 A 6 mA 15 ΚΩ 1₂ www 12 kg 10.37 A 4. For the circuit given below, determine using matlab script: (a) the value of the load resistance, R, that will dissipate maximum power from the circuit. 16 2 ww 2002 02 (b) From the calculated Thevenin's circuit, vary the load resistance starting from 1 to 150 ohms. Plot R. vs power for all scenarios and from the graph, prove that the answer in (a) is correct. 100 0 46 651 95 4G B/S a <6kQ b <3 ksz
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