1. Calculate the current through each Resistance R1 to R6 when its correspondent switch is closed (e.g. the current through R1 when the switch SW1 is closed, the current through R2 when the switch SW2 is closed, etc.) 2. If the value of the Fuse F1 is 1 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations. 3. If the value of the Fuse F1 is 2 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations. 4. If the value of the Fuse F1 is 3 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations 5. Calculate the minimum value of the Fuse F1 that will allow ALL the switches to be close

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Given the following circuit
F1
BAT1
12 V
SW1
R1
1222
SW2
R2
24 22
SW3
R3
60
SW4
R4
4822
SW5
R5
80
SW6
R6
30
1. Calculate the current through each Resistance R1 to R6
when its correspondent switch is closed (e.g. the current
through R1 when the switch SW1 is closed, the current
through R2 when the switch SW2 is closed, etc.)
2. If the value of the Fuse F1 is 1 Amperes, which different
combinations of switches can you close together to ensure
that will be the maximum current possible but the Fuse F1
will not blow apart? - Justify your answer with your
calculations.
3. If the value of the Fuse F1 is 2 Amperes, which different
combinations of switches can you close together to ensure
that will be the maximum current possible but the Fuse F1
will not blow apart? - Justify your answer with your
calculations.
4. If the value of the Fuse F1 is 3 Amperes, which different
combinations of switches can you close together to ensure
that will be the maximum current possible but the Fuse F1
will not blow apart? - Justify your answer with your
calculations
5. Calculate the minimum value of the Fuse F1 that will allow
ALL the switches to be close
Transcribed Image Text:Given the following circuit F1 BAT1 12 V SW1 R1 1222 SW2 R2 24 22 SW3 R3 60 SW4 R4 4822 SW5 R5 80 SW6 R6 30 1. Calculate the current through each Resistance R1 to R6 when its correspondent switch is closed (e.g. the current through R1 when the switch SW1 is closed, the current through R2 when the switch SW2 is closed, etc.) 2. If the value of the Fuse F1 is 1 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations. 3. If the value of the Fuse F1 is 2 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations. 4. If the value of the Fuse F1 is 3 Amperes, which different combinations of switches can you close together to ensure that will be the maximum current possible but the Fuse F1 will not blow apart? - Justify your answer with your calculations 5. Calculate the minimum value of the Fuse F1 that will allow ALL the switches to be close
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