Dr. Roger Dittmann, Professor Emeritus, Physics Department

(714) 278-3421 / Fax (714) CSU-5810 / rdittmann@fullerton.edu/ www.fullerton.edu/rdittmann

SyllabusPHYS 227 Fundamental Physics: Waves, Optics, and Modern Physics MH655 T, Θ 1300-1415hr

Course Code: 15450 (3 units); 15452 (1 unit for first five weeks)Course Requirements: Prerequisite: Physics 226 with a grade of C or better, or equivalent.

Concurrent enrollment in Physics 227L [Laboratory is required except for Biochemistry, Chemistry and Mechanical Engineering majors who may enroll for 1 unit credit (optics component)]. All others must enroll for 3 units credit. 

Course Description: Geometrical and physical optics, wave phenomena, interference, diffraction, refraction (1st 5 weeks for 1 unit); special theory of relativity, quantum physics, including the photoelectric effect, line spectra and the Bohr atom; the wave nature of matter, Schroedinger's equation and solutions; the Heisenberg Uncertainty Principle. (225, 225L & 226, 226L & 227 = CAN PHYS SEQ B)

Text: Halliday, David; Resnick, Robert; and Walker, Jearl, Fundamentals of Physics. Seventh Edition!!![Problems from the 7th Edition will be copied for those who have the 6 th Edition.]

Computer Assistance: The entire text and practice problems are available on the computers in MH629!

For the Seventh Edition [which is not in use yet] internet assistance is available from the publisher.Problems: (Some problems generally will be treated at the beginning of each class.

Problem Sets are generally due on Monday following the assignment.) [Supplementary problems will be assigned to complement lecture material]. [eGrade problem assignments will be used if available and will then be substituted for many of the problems listed below.]

Grading will use plus/minus grading [Ref. Spring 2005 Class Schedule pp. 18-19].Review University standards of academic integrity in the Student Handbook and in the University

Catalog p. 514.

Week Dates Chapter/Topic Problems

1 1,3Feb Ch 17 Wave Motion/Phasors Set 1. Ch17-1E,4E,5E,7P,9P [6th Edition]

2 8,10Feb Ch 34, 35 Geometric Optics Set 2. Ch 34-49P,43E,51P; Ch35-21E,25P

3 15,17Feb Ch 36 Diffraction Set 3. Ch36-6P,12E,13E,17E,19P,21P,25E,28P,29P,55E+in class

4 22,24Feb Ch 37 Interference Set 4. Ch37-2E,3E,10E,41P,45P

5 1-3 Mar Review

6 10 Mar Midterm Exam

6 12 Mar Post Mortem

7 15,17Mar Intro to Relativistic Kinematics Set 5. Ch37-1,9,21,27,40

8 22-24Mar Relativistic Dynamics

Concept Questions, 1 Energy, 2 Energy and Momentum

Complete and Submit

9 29,31Mar Spring Recess

10 5-7Apr Photons and Matter Waves Set 6. Ch 38-2,13,26,40,55,59 (7th Edition)

11 12-14Apr Einstein-de Broglie Set 7.

12 19Apr Review

12 21Apr Midterm Exam

13 26,28Apr Eigenvalue Eqs. Set 8.

14 3-5May Uncertainty Principle Set 9.

15 10-12May Nuclear Physics Set 10.

16 17-19May Particles and Fields  

 Final: 1200-1350hr T 24 May

This class will be conducted in an interactive mode [rather than traditional lecture

mode] as much as possible. That means that it will involve class participation,

formation of learning groups, and collaborative efforts.

PROFESSOR DITTMANN'S SCHEDULE:

Time\Day Monday Tuesday Wednesday Thursday Friday

12:00 Research Office Tutoring Research12:30   MH 670   MH 600  

13:00   ModernIndependent

Study Modern  13:30   Physics 227 499 Physics 227  14:00   MH 655 MH 670 MH 655  14:30        15:00   Office  15:30   MH 670 Modern Physics  

16:00  Department

Meeting Laboratory  16:30   Seminar Physics 227L  17:00   MH 606 MH 605  17:30      18:00 Office18:30 MH 67019:0019:30 Mechanics20:00 Laboratory20:30 Physics 211L21:00 MH 65621:30

Final: 1200-1350hr T 24 MayGRADING POLICY: MIDTERMS 2/5 (1/5 EACH)

HOMEWORK/CLASS PARTICIPATION 1/5FINAL EXAMINATION 2/5

2

TOTAL 5/5 =1

3