1. A resistance of RN is connected in series with a parallel circuit comprising two resistances of 100 and 12 0 respectively. The total power dissipated in the circuit is 80 Watts, when applied voltage is 20 V. Calculate the value of R.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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( 72 alll © s
V:r.
4. Use all sort of information sources to answer the questions.
5. Answer every question asked and show the step-by-step solution if the
problem is mathematical. Draw tables and diagrams if necessary.
6. after completing the all the questions, take the softcopy of your
assignment and upload in the link given in E learn with in the deadline.
Assignment Questions
1. A resistance of RQ is connected in series with a parallel circuit comprising two
resistances of 100 and 12 0 respectively. The total power dissipated in the
circuit is 80 Watts, when applied voltage is 20 V. Calculate the value of R.
2. Find the current delivered by 10 V battery using mesh analysis in the figure
shown in Figure1
12
1A
1Ω
| 22
22
Figure: 1
3. Find the current in 1 ohm resistor in figure 2 using nodal analysis.
2Ω
22
12
5V
Figure: 2
4. Find the current in load resistance in figure 3 using Thevenins theorem
24 V
R.50
Figure : 3
5. Apply super position theorem to find current in load resistance 2 ohm
resistor.
12
20
DIA
ΙΩ
Figure: 4
Transcribed Image Text:( 72 alll © s V:r. 4. Use all sort of information sources to answer the questions. 5. Answer every question asked and show the step-by-step solution if the problem is mathematical. Draw tables and diagrams if necessary. 6. after completing the all the questions, take the softcopy of your assignment and upload in the link given in E learn with in the deadline. Assignment Questions 1. A resistance of RQ is connected in series with a parallel circuit comprising two resistances of 100 and 12 0 respectively. The total power dissipated in the circuit is 80 Watts, when applied voltage is 20 V. Calculate the value of R. 2. Find the current delivered by 10 V battery using mesh analysis in the figure shown in Figure1 12 1A 1Ω | 22 22 Figure: 1 3. Find the current in 1 ohm resistor in figure 2 using nodal analysis. 2Ω 22 12 5V Figure: 2 4. Find the current in load resistance in figure 3 using Thevenins theorem 24 V R.50 Figure : 3 5. Apply super position theorem to find current in load resistance 2 ohm resistor. 12 20 DIA ΙΩ Figure: 4
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