a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like.
a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like.
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter7: Parallel Circuits
Section: Chapter Questions
Problem 4PP: Using the rules for parallel circuits and Ohmslaw, solve for the missing values....
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Question
![a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the
following output voltages:
i) 10 Volts
ii) 25 Volts
iii) 45 Volts
Draw the labelled circuit diagram for each output voltage value and show calculations for
all. Use R1 = 4.7 kQ for one of the resistance
Hint: Use voltage divider circuits, you can use any value of resistances you like.
b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw
the equivalent circuit replacing the whole network with just one Resistance (RT):
Hilt
V1
5V
4
R1
ww
4.1kΩ
R2
ww
10092
R3
www
2.00ΜΩ
R7
1ΜΩ
2
3
R4
330Ω
R6
www
59092
5
R5
470 ΚΩ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2990d9a5-4368-4679-a835-3bd0126dd56a%2F31c5f075-df67-4f8f-b141-ce647f3ba4da%2Fl5wpxn8_processed.png&w=3840&q=75)
Transcribed Image Text:a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the
following output voltages:
i) 10 Volts
ii) 25 Volts
iii) 45 Volts
Draw the labelled circuit diagram for each output voltage value and show calculations for
all. Use R1 = 4.7 kQ for one of the resistance
Hint: Use voltage divider circuits, you can use any value of resistances you like.
b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw
the equivalent circuit replacing the whole network with just one Resistance (RT):
Hilt
V1
5V
4
R1
ww
4.1kΩ
R2
ww
10092
R3
www
2.00ΜΩ
R7
1ΜΩ
2
3
R4
330Ω
R6
www
59092
5
R5
470 ΚΩ
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Follow-up Question
![b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw
the equivalent circuit replacing the whole network with just one Resistance (RT):
Hilt
V1
5V
4
R1
4.1k92
R2
10092
1
ww
R3
2.00ΜΩ
R7
1 ΜΩ
2
ww
3
R4
33092
R6
ww
59092
www
5
R5
470 kQ2](https://content.bartleby.com/qna-images/question/2990d9a5-4368-4679-a835-3bd0126dd56a/55f9b42b-0588-4a36-a059-59729ba9bbeb/4xqkwac_thumbnail.png)
Transcribed Image Text:b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw
the equivalent circuit replacing the whole network with just one Resistance (RT):
Hilt
V1
5V
4
R1
4.1k92
R2
10092
1
ww
R3
2.00ΜΩ
R7
1 ΜΩ
2
ww
3
R4
33092
R6
ww
59092
www
5
R5
470 kQ2
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