Physics 222

Fall 2016

Department of Physics and Astronomy

Iowa State University


11/22: Exam 2 blank+solution: Click here.
Final Exam is on Dec 13th 4:30PM-6:30PM (click for room assignment)
11/08: Exam 2 key: Click here.

10/9: Exam 1 blank+solution posted. Click here.


9/30:  Exam 1 answer key. Click here.

9/14: Exam room assignment for exams 1 (Thursday 9/29) and exam 2 (Monday 11/7) is now available. Click here to view. You need to take the exam in the room associated with your recitation section as noted in the schedule.

8/29: Old Exams are available for practice. Click here
8/26: Helproom hours schedule is now available. Click here

Accessing online homework for the first time must be from within blackboard, then you can either access from within blackboard or by visiting www.pearsonmastering.com  directly.

SyllabusFormula Sheet , Helproom ScheduleOld Exams

General Physics:

Electricity, Magnetism, Optics and Introduction to modern physics.
Lecturer: Dr. Mohamad Al-Saqer (msaqer A T iastate D O T edu)
Mon Wed Fri: 1:10 pm - 2:00 pm, Room 5 Physics
Mon Wed Fri: 2:10 pm - 3:00 pm, Room 5 Physics

Lecturer: Dr. John Lajoie (lajoie A T iastate D O T edu)
Mon Wed Fri: 3:10 pm - 4:00 pm, Room 5 physics
Lecture slides
Written Homework
(not graded)

Recitation Worksheest Quiz Solutions Exams
Al-Saqer
Lajoie
01. Electric Charge, Coulomb's Law
01. Electric Charge, Coulomb's Law 01. blank + solution
01. blank + solution

Exam 1: blank + solution
02. Electric Field: (pre lecture) (post lecture)
02. Electric Field
02. blank + solution
02. blank + solution
01. blank + solution
Exam 2: blank + solution
03. Electric Field lines: (pre lecture) (post lecture)
03. Electric Field lines
03. blank + solution 03. blank + solution 02. blank + solution
04. Electric Dipole: (pre lecture) (post lecture)
04. Electric Dipole
04. blank + solution 04. blank + solution
03. blank + solution
05. Electric Flux. Gauss's Law: (pre lecture) (post lecture)
05. Electric Flux. Gauss's Law
05. blank + solution
05. blank + solution
04. blank + solution
06. Applications to Gauss's law. Conductors: (pre lecture) (post lecture)
06. Applications to Gauss's law. Conductors
06. blank + solution 06. blank + solution
05. blank + solution
07. Electric Potential, Electric Potential energy: (pre lecture) (post lecture)
07. Electric Potential, Electric Potential energy 07. blank + solution
07. blank + solution
06. blank + solution
08. Electric Potential, Equipotentials: (pre lecture) (post lecture)
08. Electric Potential, Equipotentials
08. blank + solution
08. blank + solution
07. blank + solution

09. Capacitance: (pre lecture) (post lecture)
09. Capacitance and Capacitors
09. blank + solution
09. blank + solution
08. blank + solution

10. Energy in Capacitors (pre lecture) (post lecture)
10. Dielectrics, Electric field energy, Gaussís law in dielectrics
10. blank + solution
10. blank + solution
09. blank + solution

11. Electric Current. Resistance, Ohm's law (pre lecture) (post lecture)
11. Electric current, Resistance, Ohmís law
11. blank + solution
11. blank + solution
10. blank + solution

12. Current circuits. Power (pre lecture) (post lecture)
12. Resistors in circuits. Power 12. blank + solution 12. blank + solution
11. blank + solution

13. Real Batteries. DC instruments (pre lecture) (post lecture)
13. Real Batteries. DC instruments
13. blank + solution
13. blank + solution
12. blank + solution

14. Kirchhoff's rules (pre lecture) (post lecture)
14. Kirchhoff's rules 14.
14. blank + solution
13. blank + solution

15. RC circuits (pre lecture) (post lecture)
15. RC circuits

15.  14. 
16. Magnetic force on moving charges (pre lecture) (post lecture)
16. Magnetic force on moving charges




17. Magnetic force on moving charges and currents (pre lecture) (post lecture)
17. Magnetic forces on currents




18. Hall effect. Current loops and dipole moment (pre lecture) (post lecture)
18. Current Loops and Torque. The DC motor. The Hall effect




19. Source of magnetic field (pre lecture) (post lecture)
19. Magnetic field of moving charge. Law of Biot and Savart




20. Ampere's law (pre lecture) (post lecture)
20. Ampere's law




21. Magnetic Materials (pre lecture) (post lecture)
21. Magnetic Materials




22. Farady's and Lenz's Law (pre lecture) (post lecture)
22. Electromagnetic Induction. Faraday's Law. Lenz's Law




23. Induced Electric Field. Displacement Current (pre lecture) (post lecture) 23. Induced Electric Field. Displacement Current



24. Inductors. Stored energy. LR circuit (pre lecture) (post lecture)
24. Inductance. Energy of a magnetic field




25. LC and RLC circuits (pre lecture) (post lecture)
25. RL, LC and RLC circuits




26. AC RLC Circuits, Phasor Diagram (pre lecture) (post lecture)
26. AC circuits




27. AC RLC Power, Resonance and Transformers (pre lecture) (post lecture)
27. Power and Resonance. Transformers




28. EM waves (pre lecture) (post lecture)
28. EM Waves




29. Energy, Momentum. Standing EM Waves (pre lecture) (post lecture)
29. Energy, Momentum. Standing EM Waves



30. Reflection and Refraction (pre lecture) (post lecture)
30. Light. Reflection and Refraction



31. Dispersion, Polarization, Huygens Principle, Fermat's priciple (pre lecture) (post lecture)
31. Dispersion and Polarization




32. Spherical Mirrors (pre lecture) (post lecture)
32. Plane, convex and concave mirrors




33. Spherical, thin lenses (pre lecture) (post lecture)
33. Lenses




34. Optical Instruments (pre lecture) (post lecture)
34. Camera, Eye, Microscope and Telescope




35. Review of Waves. Interference. Multi Slit interference patterns (pre lecture) (post lecture)
35. Review of Waves. Interference



36. Lecture number shift.
36. Lecture number shift



37. Thin films. Interferometers. (pre lecture) (post lecture)
37. Thin films. Interferometers




38. Single Slit diffraction (pre lecture) (post lecture)
38. Diffraction, Gratings and Spectrographs




39. Resolving power. Diffraction Grating (pre lecture) (post lecture)
39. Resolving power. Diffraction Gratings




40.
40.




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41.




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42.