20806239Modern Physics Lab
Course Information
Description
This one-credit laboratory course is comprised of experiments in modern physics. Selected content includes experiments in quantum, solid state, atomic, and nuclear physics. Students will gain experience in the use of high-precision laboratory equipment and electronics, advanced computational methods, and sophisticated analysis techniques, including a rigorous examination of uncertainty and error propagation. Effectively communicating experimental results and technical writing is emphasized.
Total Credits
1
Course Competencies
  1. Implement experimental techniques and instrumentation
    Assessment Strategies
    Report, presentation
    Criteria
    Operate specialized laboratory apparatus, including high-voltage sources
    Adhere to rigorous safety protocols
    Calibrate measurement devices against known standards to ensure the precision and accuracy of experimental data
    Manipulate delicate hardware and sensors to isolate physical phenomena and maximize signal-to-noise ratios
    Troubleshoot experimental setups by identifying and mitigating mechanical, electrical, or environmental sources of interference

  2. Conduct analytical and statistical calculations
    Assessment Strategies
    Report, presentation
    Criteria
    Determine physical parameters and fundamental constants
    Apply mathematical models to raw experimental data
    Apply uncertainty propagation principles throughout the analysis process
    Ascertain the statistical significance of the results
    Apply computational tools and programming for data visualization, curve fitting, and numerical analysis
    Evaluate the validity of theoretical models by comparing empirical findings with established physics principles and limiting cases

  3. Validate theoretical concepts through observation
    Assessment Strategies
    Report, presentation
    Criteria
    Verify quantum and relativistic predictions through the direct observation of subatomic or high-velocity phenomena
    Demonstrate the underlying physical laws governing matter-energy interactions across different scales
    Analyze the transition between classical and modern physical regimes based on experimental evidence
    Interpret unexpected data trends to distinguish between novel physical effects and experimental artifacts

  4. Employ professional communication and documentation
    Assessment Strategies
    Report, presentation
    Criteria
    Record experimental methodology, raw observations, and real-time metadata in a systematic and reproducible manner
    Incorporate complex findings into formal technical reports that align with professional scientific writing standards
    Illustrate data through clear, accurate visualizations that emphasize key relationships and associated errors
    Defend experimental conclusions and uncertainty budgets through peer-level discussion or formal presentation