DAILEY SCHEDULE
Wednesday Jan. 25 topic: Introduction: Electromagnetic’s
and Modern Physics
Friday Jan.
27 topic: Electrostatic Force: Coulomb’s Law
read:
chapter 25, sections 1 through 4
Monday Jan.
30 topic: The Electric Field
read:
chapter 25, sections 5 and 6, chapter 26, sections 1, 2, 6, and 7
Wednesday Feb. 1 topic: Electric Field for Continuous
Charge Distribution
read:
chapter 26, sections 3 through 5
Friday Feb.
3 topic: Electric Field Lines and Gauss’s Law
read:
chapter 27, sections 1 through 6 read
section 5 lightly chapter 34,
section 1 to middle of page 1086
Monday Feb.
6 topic: Electric Current and Resistance
read:
chapter 28
Wednesday Feb. 8 topic: Electric Potential Energy
read:
chapter 29, sections 1 through 4
Friday Feb.
10 topic: Examples of Electric Potential
read:
chapter 29, sections 5 through 7
Monday Feb.
13 topic: Connection Between Potential and Fields
read:
chapter 30, sections 1 through 4
Wednesday Feb. 15 topic: Capacitors
read:
chapter 30, sections 5 through 7
Friday Feb.
17 topic: Electric Circuits
read:
chapter 31, sections 1, 2, 4, 5,
and 7
Monday Feb.
20 topic: Kirchhoff’s Laws
read:
chapter 31, sections 3, 6, 8 through 10
Wednesday Feb. 22 topic: The Magnetic Field
read: chapter 32, sections 1 through 4
Friday Feb.
24 - Exam #1 - covers material from Jan. 25 through Feb. 20
Monday Feb.
27 topic: Ampere’s Law
read: chapter 32, section
5 through 7
Wednesday March 1 topic: Magnetic Force on a
Current-Carrying Wire
read: chapter 32, sections 8
through 10
Friday March
3 topic: Faraday’s Law
read:
chapter 33, sections 1 through 5
- Spring Break - March 3,
Monday March
13 topic: Electromagnetic Induction
read:
chapter 33, sections 6 through
10
Wednesday March 15 topic: Maxwell’s Equations
read:
chapter 34, section 1 through 5, read sections 3 and 4 lightly
Friday March
17 topic: Electromagnetic Wave
read:
chapter 34, sections 6 through 8
Monday March
20 topic: Alternating-Current Circuits
read:
chapter 35, sections 1 through 6
Wednesday March 22 topic: Wave Optics
read:
chapter 22, sections 1 through 3
Friday March
24 topic: Interference and
Diffraction
read: chapter 22, sections 4 through 6
Monday March
27 - Exam #2 - covers material from Feb. 22 through March 20
Wednesday March 29 topic: Ray Optics and Reflection
read: chapter 23, sections 1 through 3
Friday March
31 topic: Refraction and Image Formation
read: chapter 23, sections 3 through 5
Monday April
3 topic: Lenses
read: chapter 23, sections 6 through 8
Wednesday April 5 topic: Special Theory of Relativity
read: chapter 36, sections 1 through 4
Friday April
7 topic: Results of Relativity
read: chapter 36, sections 5 through 7
Monday April
10 topic: Relativistic Dynamics
read:
chapter 36, sections 8 through 10
Wednesday April 12 topic: End of the Classical Period
read:
chapter 37, sections 1 through 9
Friday April
14 - Good Friday
-
Easter Break –
April 13
Wednesday April 19 topic: Origins of the Quantum Theory
read:
chapter 38, sections 1 through 4
Friday April
21 topic: Atomic Theory/ Bohr Atom (short class Jr/Sr Day)
read:
chapter 38, sections 5 through 7; chapter 24, section 5
Monday April
24 topics: Quantum Theory
read:
chapter 39, sections 1 through 6
Wednesday April 26 topics:
Matter Waves
read:
chapter 24, sections 1 through 4
Friday April
28 - Exam #3 - covers material from March 22 through April 26
Monday May
1 topic: Nuclear Physics
read:
chapter 42, sections 1 through 4
Wednesday May 3 topic: Radioactivity
read:
chapter 42, sections 5 through 7
Friday May
5 topic: Review
Monday May
8 -Finals Start - Monday, May 8 - Friday,
May 12
Great job and
have a wonderful Summer!