Feb 05, 2025  
2017-18 Catalog 
    
Catalog Navigation
  Catalog Home
  About Bellevue College
  Enrollment Information
  Academic Information
  Graduation Information
  General Education
  Academic Disciplines
  Programs of Study
  Course Descriptions
  Student Support Services
  Other Educational Opportunities
  College Policies
  Administration and Faculty
  Academic Calendar
  2017-18 cover
  My Favorites
HELP
2017-18 Catalog [ARCHIVED CATALOG]

Facebook this Page (opens a new window)
Tweet this Page (opens a new window)
Add to Favorites (opens a new window)

PHYS 225 - Modern Physics

5 CR

Presents the special theory of relativity, key phenomena, and experiments of modern physics that led to a break from classical views. Includes an introduction to quantum mechanics. Research based active engagement, pedagogical methods and hands on activities assist conceptual development.

Recommended: MATH 238  or concurrent enrollment.
Prerequisite(s): MATH 153  or MATH 254  and PHYS 123 .

Course Outcomes
  • Special Relativity
  • Differentiate between Galilean Relativity and Special Relativity
  • Correctly calculate time dilation and length contraction effects
  • Represent appropriate quantities using four vectors
  • Perform Lorentz Transformations between reference frames
  • Identify proper time and proper velocity
  • Make appropriate computations using the Energy-Momentum 4-vector 
Limits of Classical Physics 
  • Identify the limitations of classical physics 
Mysteries and Failures
  • Identify what was mysterious about particular historical experiments (such as the ones listed here) or describe where classical physics fails to explain aspects of these or similar experiments.
  • Atomic Spectra
  • Photoelectric Effect
  • Blackbody Radiation
  • Heat Capacities of Solids
  • Atomic Theory
  • Electrical Conduction
Thinking differently about classical physics
  • Construct and solve problems using the Hamiltonian
  • Derive wave functions
  • Construct and interpret energy Diagrams
Schroedinger’s Equation
  • Articulate the wave particle duality and describe its basis in the Schroedinger Equation
  • Explain the purpose and meaning of the Schroedinger Equation
  • Cite and describe different philosophical interpretations of the Schroedinger Equation
  • Perform the computations that illlustrate the interpretations above and those that give rise to the Uncertainty Principle
  • Perform computations appropriate to the Time-Independent Schroedinger Equation
The Spherical Shroedinger Equation
  • Construct the solution to the Schroedinger equation for the Hydrogen Atom
Special Topics
  • Working individually or in teams students will utilize concepts deriving from the active engagement portions of the course in a project, paper or other assessment that illustrates how the modern view reconciles conflicts, mysteries or failures from classical physics.


Find out when this course is offered



Facebook this Page (opens a new window)
Tweet this Page (opens a new window)
Add to Favorites (opens a new window)