Electric Fields and Forces

1. Electric Fields and Forces

2. Gravity is a field force. A small object in the gravitational field feels the gravitational force and is attracted to the more massive object as a result.

3. A field exists around all objects with mass. Its strength increases with more mass and closer to the object.

4. What would happen to an object in this gravitational field? -feels a force toward Earth -accelerates toward Earth

5. How can we calculate the strength of this gravitational field? Calculate the acceleration due to gravity. Fg = mg g=Fg / m

6. Replace Earth with a negative charge.This is called the source charge (Q).

7. Replace the object with a small positive charge, called the test charge (q). Always positive unless stated otherwise. +

8. What would happen to the test charge? - Feels a force toward source charge + - Accelerates toward source charge - E-field lines go toward a negative source charge.

9. What if the source charge is positive? - Feels a force away from source charge + - Accelerates away from source charge - E-field lines go away from a positive source charge.

10. How can we calculate the strength of this electric field? Electric field strength -Units N/C  test charge Recall: g = Fg / m E = Fe / q OR Fe = qE

11. Similar to… Fg = Fg mg = GMm r2 g = GM r2

12. Another way…  source charge Distance between source  charge and either another charge or location E = kQ r2 k is Coulomb’s constant k = 9 x 109 Nm2/C2

13. Coulomb’s Law • Similar to Newton’s Universal Law of Gravitation • F = GMm r2 • Calculates the electrical force between 2 charges.

14. Coulomb’s Law E=F/q E = kQ r2 F = kQ q r2 F = kQq r2

15. VERY IMPORTANT NOTE!!!!!!! Use the absolute value of all charges (q or Q) in all of the above equations!