Physics Major

Physics

Physics explores the fundamental principles governing the behavior of our universe, from the subatomic scale to the cosmological scale.  These principles underlie most modern technologies, and have direct applications to biology, chemistry, neuroscience, engineering, environmental analysis, etc., making physics a highly versatile undergraduate major.  Physics majors work closely with faculty as they develop a broad range of highly flexible analytical and quantitative model-building and problem-solving skills.  Our program places particular curricular emphasis on computational/numerical modeling techniques, so that our majors are well versed in tackling complex problems which are not readily solved by traditional methods.  Physics alumni go on to a variety of positions, including industrial and academic research, biophysics, engineering, finance, law, medicine, mathematics.  Course requirements for the physics major are kept relatively modest, allowing students with multiple interests to pursue double and dual majors and minors. 

Learning Outcomes

When confronted with an unfamiliar physical or dynamical system or situation, our students should be able to:

1. Develop a conceptual framework for understanding the system by identifying the key physical principles and relationships underlying the system.
2. Translate that conceptual framework into a quantitative/mathematical format suitable for analysis.
3. Investigate the model via a variety of analytical and/or numerical methods.
4. Intelligently analyze, interpret, and assess the reasonableness of the answers obtained and/or the model’s predictions.
5. Effectively communicate their findings (either verbally and/or via written expression) to diverse audiences.

In a laboratory setting, students should be able to:

1. Design an appropriate experiment to test out a hypothesis of interest.
2. Make basic order-of-magnitude estimates; identify and address the sources of error and uncertainty in an experiment.
3. Demonstrate a working familiarity with standard laboratory equipment (e.g., oscilloscopes, DMMs, signal generators, etc.).
4. Demonstrate proficiency with standard methods of data analysis (e.g., graphing, curve-fitting, statistical analysis, Fourier analysis, etc.).
5. Intelligently analyze, interpret, and assess the reasonableness of their experimental results.
6. Effectively communicate their findings (either verbally and/or via written expression) to diverse audiences.

Advisors: A. Landsberg, S. Marzen, J. Sheung, T. Phan, K. Setter

Major Requirements

A major in Physics requires a minimum of 13 courses plus a senior thesis.

Required Courses

• PHYS 033L KS -Principles of Physics I  
• PHYS 034L KS -Principles of Physics II  
• PHYS 035 KS -Mdrn Physics Computational Appls  
• PHYS 100 KS -Computational Phys/Engineering  
• PHYS 101 KS -Classical Mechns Computal Appls  
• PHYS 102 KS -Electromagnetism   
• 
   
• PHYS 108 KS  (or a computer science/programming course chosen in consultation with a physics faculty advisor)
• PHYS 109L KS -Advanced Laboratory in Physics  (or PHYS 106L KS -Electronics Lab , or equivalent)
• PHYS 114 KS -Quantum Mechanics Computal Appls  
• PHYS 115 KS -Statistical Physics Computal App  
• A one- or two-semester thesis in Science (e.g. PHYS 188L KS -Sr Thesis Rsrch Project in Phys , etc.) 
• MATH 060 PZ -Linear Algebra  or MATH 102 PZ -Differential Equations/Modeling  (only one is required but both are strongly recommended)
• MATH 031 PZ -Calculus II  and MATH 032 PZ -Calculus III  are prerequisites for several advanced physics courses

NOTE: Physics majors normally complete PHYS 033L KS -Principles of Physics I  , PHYS 034L KS -Principles of Physics II  , in their first year and PHYS 035 KS -Mdrn Physics Computational Appls  in fall of sophomore year.  The calculus sequence (through Math 32) is normally completed in the fall of sophomore year or earlier.  Students can then take (in any order) PHYS 100 KS -Computational Phys/Engineering  , PHYS 102 KS -Electromagnetism  , PHYS 115 KS -Statistical Physics Computal App  , PHYS 108 KS -Programming for Science+Engineer  or equivalent, PHYS 106L KS -Electronics Lab , PHYS 109L KS -Advanced Laboratory in Physics , differential equations and/or linear algebra.  PHYS 101 KS -Classical Mechns Computal Appls   and PHYS 114 KS -Quantum Mechanics Computal Appls   should only be taken after completing differential equations and linear algebra.  Majors interested in potentially pursuing experimental work are encouraged to take an additional advanced physics laboratory course.