1. Physics 213 General Physics Lecture 1

2. Today Syllabus Administrative details Class Overview Introduction to Electricity and Magnetism Static electric charge Coulomb’s law Electric field 2

3. Syllabus, notes, and homework assignments http://www.pa.uky.edu/~drstrach/phy213S11.php Can also be accessed from http://www.pa.uky.edu/~drstrach/index.php http://www.pa.uky.edu/~drstrach/index.php Notes will be available at this website. Feb. 2 – last day to drop without record Apr. 1 – last day to withdraw with W grade 3

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6. 6 Demo Comb and Paper Scotch Tape – repulsion and attraction Pivoting Plank

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8. Properties of Electric Charges Two types of charges exist – They are called positive and negative – Named by Benjamin Franklin Like charges repel and unlike charges attract one another Nature’s basic carrier of positive charge is the proton

9. More Properties of Charge Nature’s basic carrier of negative charge is the electron – Gaining or losing electrons is how an object becomes charged Electric charge is always conserved – Charge is not created, only exchanged – Objects become charged because negative charge is transferred from one object to another

10. Properties of Charge, final Charge is quantized – All charge is a multiple of a fundamental unit of charge, symbolized by e Quarks are the exception – Electrons have a charge of –e – Protons have a charge of +e – The SI unit of charge is the Coulomb (C) e = 1.6 x 10 -19 C

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12. Conductors Conductors are materials in which the electric charges move freely in response to an electric force – Copper, aluminum and silver are good conductors – When a conductor is charged in a small region, the charge readily distributes itself over the entire surface of the material

13. Insulators Insulators are materials in which electric charges do not move freely – Glass and rubber are examples of insulators – When insulators are charged by rubbing, only the rubbed area becomes charged There is no tendency for the charge to move into other regions of the material

14. Semiconductors, etc. The characteristics of semiconductors are between those of insulators and conductors Silicon and germanium are examples of semiconductors

15. Semiconductors, etc. The characteristics of semiconductors are between those of insulators and conductors Silicon and germanium are examples of semiconductors

16. 16 Demo Glass, Silk, Amber, Fur conduction/induction

17. 17 Charging by Conduction A charged object (the rod) is placed in contact with another object (the sphere) Some electrons on the rod can move to the sphere When the rod is removed, the sphere is left with a charge The object being charged is always left with a charge having the same sign as the object doing the charging

18. Charging by Induction When an object is connected to a conducting wire or pipe buried in the earth, it is said to be grounded A neutral sphere has equal number of electrons and protons

19. 19 Polarization In most neutral atoms or molecules, the center of positive charge coincides with the center of negative charge In the presence of a charged object, these centers may separate slightly  This results in more positive charge on one side of the molecule than on the other side surface of the insulator  This realignment of charge on the surface of an insulator is known as polarization A charged comb attracts bits of paper due to polarization of the paper

20. 20 Demo Comb and Paper Pivoting Plank

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23. 23 Vector Nature of Electric Forces Two point charges are separated by a distance r The like charges produce a repulsive force between them The force on q 1 is equal in magnitude and opposite in direction to the force on q 2

24. 24 Vector Nature of Forces, cont. Two point charges are separated by a distance r The unlike charges produce a attractive force between them The force on q 1 is equal in magnitude and opposite in direction to the force on q 2

25. 25 Vector Nature of Electric Forces Magnitude of the force In the direction of The precise Coulomb’s law

26. 26 Unit Vectors A unit vector is a dimensionless vector with a magnitude of exactly 1. Unit vectors are used to specify a direction Reference: Serway and Vuille, 8 th ed. Chapter 3.

27. 27 Unit Vectors, cont. The symbols represent unit vectors They form a set of mutually perpendicular vectors Right-hand convention

28. 28 Unit Vectors in Vector Notation A x is the same as A x and A y is the same as A y etc. The complete vector can be expressed as

29. 29 Adding Vectors Using Unit Vectors Using R = A + B Then and so R x = A x + B x and R y = A y + B y

30. 30 Vector Nature of Forces, cont. Two point charges are separated by a distance r The unlike charges produce an attractive force between them The force on q 1 is equal in magnitude and opposite in direction to the force on q 2

31. 31 Four point charges, each of the same magnitude, with varying signs are arranged at the corners of a square as shown. Which of the arrows labeled A, B, C, and D gives the correct direction of the net force that acts on the charge at the upper right corner? a. A b. B c. C d. D e. The net force on that charge is zero Answer: b Question:

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33. 33 Answer: Superposition Principle

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