I love teaching (but then, I learned from the best), and love my research - it's trying to do both all the time that I am finding taxing.

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've felt for quite some time that an HMC physics major can do anything he or she wants. The mere fact of making it through the program attests to a certain amount of natural ability, but at least as important is the fact that much of what we learn is many methods of approaching problems. The flexibility and open-mindedness which results is of great value in (I believe) any career option, from physics to software engineering to investment banking. So, though physics doesn't apply directly to writing software, the training I got has helped indirectly in a great many ways, most of which I don't realize until I stop and think about it for a bit.

So what do I think about a physics education some 30+ years after graduation? Would I do it all over again? There's absolutely no question in my mind. For anyone entering virtually any of the engineering or science disciplines, with maybe the exception of organic chemistry, an undergraduate physics education is invaluable. I went on to the Department of Aeronautics and Astronautics at the Stanford School of Engineering for my Ph.D., and my HMC physics degree was a major advantage in practically every class I took and in my thesis research. In addition, in my years as a technical contributor, having the breadth and depth that a physics degree provides made me much more versatile than my colleagues who studied some branch of engineering. I was able to apply basic concepts from E and M, dynamics, optics, and even basic nuclear physics / relativity theory / quantum mechanics to solving problems and inventing new techniques. The ability to understand physical phenomena and apply basic principals to analysis and problem solving is directly related to the solid foundation that I got as a physics major. The colleague with whom I had my most successful collaboration, by the way, has a Ph.D. in physics (with engineering subjects, from the Sorbonne) and my former boss has a degree in Engineering Physics from Cornell---just indications of how a physics degree is a key building block to a successful technical career.