1. | Volt | A. | Energy charge due to its location in an electric field (increases when like charges are pushed closer together) | |
2. | Voltage | B. | When the charge is NOT moving | |
3. | Capacitor | C. | Used to represent an electric field (farther apart means weaker) | |
4. | Electric Field | D. | Measure by its effect on charges located in the field | |
5. | Electric Potential | E. | Electric Potential measured in Volts | |
6. | Zero Electric Field | F. | Electric potential energy “per” charge = Electric potential energy / charge | |
7. | Electric Field Lines | G. | SI Unit or electric potential (Symbol V) = 1 Joule / 1 Coulomb | |
8. | Electric Potential Energy | H. | Direction of the force that would be on a positive test charge if placed at that point | |
9. | Direction of Electric Field | I. | Device used to store a charge in a circuit | |
10. | Magnitude of Electric Field | J. | Force Field that surrounds an electric charge or group of charges |
G | 1. | Volt | A. | Energy charge due to its location in an electric field (increases when like charges are pushed closer together) |
E | 2. | Voltage | B. | When the charge is NOT moving |
I | 3. | Capacitor | C. | Used to represent an electric field (farther apart means weaker) |
J | 4. | Electric Field | D. | Measure by its effect on charges located in the field |
F | 5. | Electric Potential | E. | Electric Potential measured in Volts |
B | 6. | Zero Electric Field | F. | Electric potential energy “per” charge = Electric potential energy / charge |
C | 7. | Electric Field Lines | G. | SI Unit or electric potential (Symbol V) = 1 Joule / 1 Coulomb |
A | 8. | Electric Potential Energy | H. | Direction of the force that would be on a positive test charge if placed at that point |
H | 9. | Direction of Electric Field | I. | Device used to store a charge in a circuit |
D | 10. | Magnitude of Electric Field | J. | Force Field that surrounds an electric charge or group of charges |