2014-2015 Pitzer Catalog 
    
    Mar 28, 2024  
2014-2015 Pitzer Catalog [ARCHIVED CATALOG]

Physics Major


The physics major places a strong emphasis on computation and numerical techniques while still retaining the core material common to all physics majors. Many problems which are not readily solvable using traditional analytic methods will be incorporated into the program and solutions will involve numerical integration, computer modeling and other numerical techniques introduced in the classroom and laboratory.

Requirements for the Major


Learning Outcomes of the Program in Physics

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, relationships, and constraints underlying the system
  2. Translate that conceptual framework into an appropriate mathematical format/model
    1. If the mathematical model/equations are analytically tractable, carry out the analysis of the problem to completion (by demonstrating knowledge of and proficiency with the standard mathematical tools of physics and engineering)
    2. If the model/equations are not tractable, develop a computer code and/or use standard software/programming languages (e.g., Matlab, Maple, Python) to numerically simulate the model system
  3. Intelligently analyze, interpret, and assess the reasonableness of the answers obtained and/or the model’s predictions.
  4. 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.
  3. Demonstrate a working familiarity with standard laboratory equipment (e.g., oscilloscopes, DMMs, signal generators, etc.).
  4. Identify and appropriately address the sources of systematic error and statistical error in their experiment.
  5. Have proficiency with standard methods of data analysis (e.g., graphing, curve-fitting, statistical analysis, Fourier analysis, etc.).
  6. Intelligently analyze, interpret, and assess the reasonableness of their experimental results.
  7. Effectively communicate their findings (either verbally and/or via written expression) to diverse audiences.

Courses required for the Physics major: