1. Bell Ringer Using only the PVC, move the soda can, but you cannot touch the can with the PVC or blow on the can. Explain how you did it.

2. Bell Ringer Describe one of the stations from last weeks lab in detail. How do you believe a transfer of charges caused this to occur?

3. Electric charges at rest (static electricity) Involves electric charges, the forces between them, and their behavior in materials Electrostatics

4. Arise from the particles in atoms Alone: Billions and billions of times as strong as the force of gravity In Pairs: Cancel each other out and have no noticeable effect Electric Forces

5. In an atom, a positively charged nucleus is surrounded by electrons The protons (+) in the nucleus attract the electrons (-), while the electrons repel each other This attraction and repulsion behavior gives an object its charge Charge

6. All electrons are identical, with the same mass and same quantity of charge The nucleus is composed of protons (all of which are also identical) and neutrons (neutral) Atoms usually have as many electrons as protons, so the atom has a zero net charge Properties of Atoms

7. Bell Ringer Draw an atom and label the protons, neutrons and electrons Which of these particles is the easiest to remove?

8. Like charges repel; opposite charges attract The Fundamental Rule…

9. Ions If the total positive charge balances the total negative charge, the atom is neutral If a particle is removed from the atom, it becomes an ion Positive Ion: Has lost one or more electrons and has a net positive charge Negative Ion: Has gained one or more electrons and has a net negative charge

10. Removal of Electrons The inner electrons are bound very tightly to the atom The outermost electrons of many atoms are bound loosely and can be easily dislodged

11. Conductors and Insulators Conductor: Materials which allow electric charge to flow freely Metals are good conductors because their outer electrons are not bound tightly Insulator: Materials which do not allow electric charge to flow freely (i.e. glass, rubber)

12. Conductors and Insulators Semiconductor: Materials that can be made to behave as either a conductor or an insulator of electricity i.e.) germanium, silicon Superconductor: Material that has infinite conductivity at low temperatures so that charge flows through it without resistance

13. Conservation of Charge No case of the creation or destruction of net electric charge has ever been found Electrons are always transferred in whole – they cannot be divided into fractions of electrons Electrons are never created nor destroyed, but are simply transferred from one material to another

14. Coulomb’s Law The force between two charges depends on the magnitude of the charges and the distance between them F = k q1q2q1q2 d 2

15. Coulomb’s Law Units of charge = Coulomb (C) k is a proportionality constant called the Coulomb constant k  9,000,000,000 N·m 2 or 9·10 9 N·m 2 F = k q1q2q1q2 d 2 C2C2 C2C2

16. Other Useful Numbers Charge of an Electron q e = -1.6 · 10 -19 C Charge of a Proton q p = + 1.6 · 10 -19 C

17. Coulomb’s Law The force between two charges depends on the magnitude of the charges and the distance between them F = k q1q2q1q2 d 2

18. Sample Problem Two electrons are a meter apart. What is the force between them? What direction is it in?

19. Sample Problem d = 1m q p = -1.6*10 -19 Cq e = -1.6*10 -19 C F = k q1q2q1q2 d 2 F = (9*10 9 N*m 2 /C 2 ) (-1.6*10 -19 C)* (-1.6*10 -19 C) (1 m) 2 F = 2.3*10 -28 N

20. Sample Problem Two electrons are two meters apart. What is the force between them? What direction is it in?

21. Coulomb’s Law The force between the two particles falls off as 1/d 2 F = k q1q2q1q2 d 2

22. Bell Ringer Two electrons are two centrimeters apart. What is the force between them? What direction is it in?

23. Charging Items may be charged by friction Electrons are moved from one object to another by being scraped away Items may be charged by contact Electrons are moved without being scraped off

24. Charging by Induction Induction: The charging of an object without direct contact

25. Charging by Induction Grounding: Allowing charges to move freely along a connection between a conductor and the ground (shown in sketch c)

26. Induction and Lightning The bottom of the negatively charged cloud induces a positive charge at the surface of the ground below.

27. In Summary... By friction, when electrons are rubbed from one object to another By contact, when electrons are transferred through direct contact without rubbing Through induction when electrons are gathered or dispersed by the presence of a nearby charge (without physical contact) Objects are electrically charged in one of three ways:

28. Bell Ringer Determine the electrical force between two balloons with separate charges of +3.5 x 10 -8 C and -2.9 x 10 - 8 C when separated a distance of 0.65 m. What is the direction? 2.16 x 10 -5 N, attractive

29. Field Lines Electric Fields have a magnitude and direction Vector Quantities Lines go away from positive Lines go toward negative

30. Drawing Field Lines From + to – Lines start perpendicular to the surface of the charge Field strength is shown by the density of the field lines

31. Electric Shielding All charge on a conductor gathers on the outside If a charge is contained inside a conductor the electric field is zero If a charge is outside a conductor the inside of the container will not be affected by the outside charge Example: Faraday Cage

32. Faraday Cage

33. Bell Ringer Joann has rubbed a balloon with wool to give it a charge of -1.0 x 10 -6 C. She then acquires a plastic golf tube with a charge of +4.0 x 10 -6 C localized at a given position. She holds the location of charge on the plastic golf tube a distance of 50.0 cm above the balloon. Determine the electrical force of attraction between the golf tube and the balloon.

34. Charge Polarization Electrical Polarization: When one side of a molecule is induced to be slightly more positive than the other side

35. Capacitor A capacitor stores difference in electric charge Usually stored in parallel plates Consists of two conductors with an insulator in between

36. Capacitors Can hold this separation of charge for large periods of time This is why it is not smart to take apart an Old Television Set

37. Quick Review Draw the electric field of  An electron and a proton  Two electrons What are the three methods of charging  Give an example of each What is the difference between a conductor and an insulator? What is an ion? A 4C charge and a -3C charge are 1 meter apart. Which charge experiences a larger force?