Conclusion Questions: (reminder, µ = 10) E, = 8.85x10 1² F/m 1. As area of a capacitor increases, capacitance increases / decreases / remains the same. (circle) 2. As plate separation of a capacitor increases, capacitance increases / decreases/ remains the same. 3. As potential on a capacitor increases, capacitance increases / decreases / remains the same. 4. As potential on a capacitor increases, stored charge increases / decreases / remains the same. s. As capacitance increases, stored energy increases/ decreases/ remains the same. 6. As potential on a capacitor increases, stored energy increases/ decreases / remains the same. 7. What maximum charge can exist on a 420 µF capacitor attached to a 9.0 V battery? (10)
Conclusion Questions: (reminder, µ = 10) E, = 8.85x10 1² F/m 1. As area of a capacitor increases, capacitance increases / decreases / remains the same. (circle) 2. As plate separation of a capacitor increases, capacitance increases / decreases/ remains the same. 3. As potential on a capacitor increases, capacitance increases / decreases / remains the same. 4. As potential on a capacitor increases, stored charge increases / decreases / remains the same. s. As capacitance increases, stored energy increases/ decreases/ remains the same. 6. As potential on a capacitor increases, stored energy increases/ decreases / remains the same. 7. What maximum charge can exist on a 420 µF capacitor attached to a 9.0 V battery? (10)
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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concidering capacitors circle the correct option from 4-7
Transcribed Image Text:Conclusion Questions: (reminder, µ = 10)
E, =8.85x10-12 F /m
1. As area of a capacitor increases, capacitance increases / decreases / remains the same. (circle)
2. As plate separation of a capacitor increases, capacitance increases / decreases / remains the same.
3. As potential on a capacitor increases, capacitance increases / decreases / remains the same.
4. As potential on a capacitor increases, stored charge increases / decreases / remains the same.
5. As capacitance increases, stored energy increases / decreases / remains the same.
6. As potential on a capacitor increases, stored energy increases / decreases / remains the same.
7. What maximum charge can exist on a 420 µF capacitor attached to a 9.0 V battery? (10)
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