at C1 with a 100µF capacitor and then observed the charging time of the rger capacitor. You should have seen that D1 was lit for much longer when charging the larger capacitor than when arging the smaller capacitor. How is this best explained? My LED lit for about the same amount of time. I did not go back and change my circuit or try to figure out why the results were not as expected. The 100µF capacitor is approximately ten times more powerful than the 10µF capacitor, enabling it to light the LED for a longer period of time. The size of the capacitor makes no real difference in the circuit. The larger capacitor has a higher maximum, leaving extra "capacity" after the same amount of electrical energy is stored. The larger capacitor holds more electrical energy at the same voltage than the smaller capacitor. With the same current flowing, storing more electrical energy takes more time.
at C1 with a 100µF capacitor and then observed the charging time of the rger capacitor. You should have seen that D1 was lit for much longer when charging the larger capacitor than when arging the smaller capacitor. How is this best explained? My LED lit for about the same amount of time. I did not go back and change my circuit or try to figure out why the results were not as expected. The 100µF capacitor is approximately ten times more powerful than the 10µF capacitor, enabling it to light the LED for a longer period of time. The size of the capacitor makes no real difference in the circuit. The larger capacitor has a higher maximum, leaving extra "capacity" after the same amount of electrical energy is stored. The larger capacitor holds more electrical energy at the same voltage than the smaller capacitor. With the same current flowing, storing more electrical energy takes more time.
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter20: Capacitance In Ac Circuits
Section: Chapter Questions
Problem 2PA: You are working in an industrial plant. You have been instructed to double the capacitance connected...
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![10 pts
In STEP 3 you replaced the 10µF capacitor at C1 with a 100µF capacitor and then observed the charging time of the
larger capacitor. You should have seen that D1 was lit for much longer when charging the larger capacitor than when
charging the smaller capacitor. How is this best explained?
O My LED lit for about the same amount of time. I did not go back and change my circuit or try to figure out why the results were not as expected.
O The 100µF capacitor is approximately ten times more powerful than the 10LF capacitor, enabling it to light the LED for a longer period of time.
O The size of the capacitor makes no real difference in the circuit. The larger capacitor has a higher maximum, leaving extra "capacity" after the same
amount of electrical energy is stored.
O The larger capacitor holds more electrical energy at the same voltage than the smaller capacitor. With the same current flowing, storing more electrical
energy takes more time.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F10720d57-2b70-4cbe-a273-53d8d7f1ea5d%2F6fdb98cb-62b0-4470-9c8a-014bb2c647bb%2Fr32hsf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:10 pts
In STEP 3 you replaced the 10µF capacitor at C1 with a 100µF capacitor and then observed the charging time of the
larger capacitor. You should have seen that D1 was lit for much longer when charging the larger capacitor than when
charging the smaller capacitor. How is this best explained?
O My LED lit for about the same amount of time. I did not go back and change my circuit or try to figure out why the results were not as expected.
O The 100µF capacitor is approximately ten times more powerful than the 10LF capacitor, enabling it to light the LED for a longer period of time.
O The size of the capacitor makes no real difference in the circuit. The larger capacitor has a higher maximum, leaving extra "capacity" after the same
amount of electrical energy is stored.
O The larger capacitor holds more electrical energy at the same voltage than the smaller capacitor. With the same current flowing, storing more electrical
energy takes more time.
![D1
Red
SW1
PSB
3.3 V
北
R1
C1
10 kQ
100 µF](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F10720d57-2b70-4cbe-a273-53d8d7f1ea5d%2F6fdb98cb-62b0-4470-9c8a-014bb2c647bb%2Fw0pjqf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:D1
Red
SW1
PSB
3.3 V
北
R1
C1
10 kQ
100 µF
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