I have had a great life since HMC, I have worked on everything from military to law enforcement to environmental analysis in the Amazon to farming software. I am most proud of my work in remote sensing combined with knowledge-based earth / terrain modeling. This work has led me all over the US, Europe, and South America. The thread of satellite imagery combined with GIS data and then pumped through human rules of expertise has spanned almost all of my projects. I couldn't have done this at all without a strong background in physics.

… it has been my experience that the physics background is extremely well suited to the ebbs and flows and constant changes in industry. Perhaps you can use that as a selling point to attract more majors. What I have found with myself and other PhD physicists at Northrop (former TRW), is that we are the most versatile of the many technical disciplines at work. I'll mention a few skills that the physics major imparts that perhaps aren't as strong in many engineering majors:

• the physicists seem to have better critical thinking skills and quantitative skills
• the physicists who were experimentalists in graduate school (or perhaps even during senior research) have a very broad knowledge and can step easily into several disciplines (e.g. I count myself very familiar with materials, vacuum techniques, cryogenic techniques, and influence of measurement equipment on experiments). This broad background is also a key advantage when it comes to troubleshooting and other problem solving
• they seem to remember their college subject matters better; believe it or not it comes in handy sometimes. Maybe this comes from the grad school courses, I don't know

I first entered HMC intending to major in engineering. I switched to Physics because I found the subject matter and approach to teaching much more appealing.

I would say, using myself as an example, having a Physics background is a tremendous asset no matter what field one decides to go into. I really think that the problem solving skills I learned as a Physics major have helped me in my Engineering work. Also, since Physics is so fundamental to everything else (perhaps my view here is a little jaded?) there is no way to go wrong by learning Physics first and then moving up to other disciplines. ('Up' in the sense that 'C' is a higher level language than 'assembly'.) And now seems to be a great time for well-skilled scientists here in the Silicon Valley. The group I am in at IBM is concerned with magnetic disk media and most of the PhD's are from Physics/Material Science backgrounds.

I very frequently thank my good fortune in having gone to HMC. I managed to learn a whole bunch of physics despite my best efforts to the contrary. :-) When I got to grad school I realized how good my undergrad classes had been. I think the biggest selling point for your department is the opportunity to do research and write a senior thesis working one-on-one with a faculty member. At _ _ _ _ _ _ _, undergrads get pawned off on us grad students, who assign the undergrads some boring grunt work--like build this circuit or do this computer simulation. At Mudd the physics research opportunities are much more intimate and enriching. It's pretty good experience for doing research in any field.