Advanced Lab Teaching Resources
This page provides a map to our online teaching resources for advanced laboratories at Haverford College Physics.
We have three labs that effectively fall in this category. Most unusally, our sophomore-level labs cover much of the material usually taught in Jr. lab. Our majors then take a semester of upper-level junior or senior level advanded lab. The sophomore labs have standard writeups (see below), while our advanced electronics and computer instrumentation lab is taught out of prerelease copies of the new version of Art of Electronics Lab Manual (courtesy of Tom Hayes, Harvard University), and our advanced lab course per se is project based and students do not have writeups to work off of. Feel free to contact us with any questions.
Suzannne Amador Kane
I also maintain a website with more information about medical physics-related labs. The Ultrasound and Human Eye labs are posted below. I include the Sound lab here since it's another relatively bio-related one from our intro sequence:
Sound Lab (intro level)
We also have a related curriculum on science ethics that I will be posting shortly.
Lab Manual for Nanoscale Science and Technology (University of Wisconsin's MRSEC)--has excellent online materials with many good ideas.
This course meets weekly for 3 hours per week. Students writeup short reports for the labs through the first half of the semester, then do either oral reports (1/2 hr) or longer written reports the second half.
- 211 Lab Manual Introduction
- DC Circuits
- AC Circuits
- LRC Circuits
- Semiconductors & Diodes
- Operational Amplifiers
- Dispersion of Water Waves
- Ultrasound Imaging
- Geometrical Optics
- Physical Optics
- Optical Instruments (the eye, microscope and telescope)
- Torsional Oscillator & normal modes
This course meets weekly for 3 hours per week. Students do either oral reports (1/2 hr) or longer written reports for these labs.
- 212 lab manual Introduction
- SQUID & Superconductivity (no cryogenics; only liquid nitrogen)
- Electron Spin Resonance
- Nuclear Spectroscopy
- Laser Modes
- Scanning Tunneling Microscopy
- Photoelectric Effect
- Electron Diffraction
This covers analog and digital electronics through a final project involving constructing a microcontroller basec computer, programmingn it, and interfacing it to a project of the students choosing.
This is our project lab. Here are is our curriculum on error analysis and data analysis, using Practical Physics (Gordon Squires), an excellent, brief, inexpensive and practical resource.