1. MR. ROCKENSIES REGENTS PHYSICS ELECTRICITY

2. ATOMIC STRUCTURE

3. WHAT IS THE STRUCTURE OF AN ATOM? Li atom 3 protons 3 electrons 4 neutrons

4. ATOMION Na - eNa + Cl + eCl - N + 3eN -3

5. WHAT ARE THE THREE SUBATOMIC PARTICLES? ParticleSymbolChargeMass Protonp or H 1 positive elementary charge = +1.6 x 10 -19 C 1 amu = 1.67 x 10 -27 kg (on the reference table) Neutronn0 1 amu = 1.67 x 10 -27 kg Electrone 1 negative elementary charge = -1.6 x 10 -19 C 1/1836 amu = 9.11 x 10 -31 kg 1111 1111 1010 0

6. 1 e = 1.6 x 10 -19 C (Coulombs) 6.25 x 10 18 e = 1 C On the reference table Examples: 1)+10 e (elementary charges) formed by _______________________________ 2)-4 e formed by _______________________________ An atom losing 10 electrons An atom gaining 4 electrons

7. Examples: 1) What is the charge on 2 protons in elementary charges? Coulombs? 2) What is the charge on 4 electrons in elementary charges? Coulombs? 3) An object has a charge of -2C a) Does the object contain more protons or electrons? b) How many more electrons than protons does it contain?

8. STATIC ELECTRICITY

9. WHAT IS STATIC ELECTRICITY 1)The study of the transfer of electrons between objects and the electrostatic force that the charges exert upon each other 2)Rubbing or contact produces equal, but opposite charges.

10. HOW DO CHARGES BEHAVE? 1)Opposites attract: 2) Like charges repel: 3) Any charge attracts a neutral object: + - ++ -- + - + + - + - + - - - + - + + + + - + - + - -- + - + + + - -+ + - +

11. LAW OF CONSERVATION OF CHARGE

12. WHAT IS THE LAW OF CONSERVATION OF CHARGE? 1.Charge is not created or destroyed. It can be moved from one object to another, but the total amount is constant (Like momentum and energy) 2.Charge occurs in specific quantities, integer multiples of the elementary charge Ex: q=ne where e = 1.6x10 -19 C and n=0, 1, -1, 2, - 2, 3, -3…

13. PRACTICE PROBLEMS +3 +5 If these two spheres come in to contact with each other and then are separated, what will the resulting charge be on each?

14. PRACTICE PROBLEMS -2 +4 If these two spheres come in to contact with each other and then are separated, what will the resulting charge be on each?

15. PRACTICE PROBLEMS If these three spheres come into contact with each other and then are separated, what will the charge on each be?

16. ELECTRIC FORCES

17. HOW EASILY DO ELECTRONS FLOW THROUGH MATERIALS? Electron motion depends on how tightly the substance holds the electrons. Conductors (weakly bound electrons) EX: Metals - “sea of electrons” Ionic solutions Insulators (tightly bound electrons) Organics – (rubber, plastic, paper) Crystalline Solids (silicon, etc.) All materials fall somewhere along the spectrum Charge will move easily through a conductor. Charge will stay in place on an insulator.

18. WHAT ARE ELECTRIC FORCES? Also called “Coulomb Forces” Like charges repel Opposite charges attract Either charge will attract a neutral

19. HOW DO THESE FORCES INTERACT WITHIN AN OBJECT? On a conductor, all charge rapidly moves to the outside surface due to repelling forces. Charge will always move to a lesser charges or uncharged object, or “ground” (literally earth) - This is the reason we experience a static shock

20. WHAT IS COULOMB’S LAW? F e = kq 1 q 2 r 2 r q1q1 q2q2 Force between two small charges. k = 8.99x10 9 N· m 2 /C 2 (use 9.0x10 9 ) k = the electrostatic constant

21. PROPERTIES OF COULOMB’S LAW Positive forces indicate repulsion Negative forces indicate attraction Coulomb’s Law is an inverse-square law. FeFe r Ex: Doubling the distance yields one-fourth the force

22. PRACTICE PROBLEM Force is a vector – multiple charges create multiple forces. Find the resultant +q 1 +q 2 -q 3 Resultant Force from q 2 Force from q 1