Physicist Amok

In an earlier post I gave my quibbles with the language of the BIO2010 report. I promised to lay out an alternative curriculum proposal, but first I’m going to set forth my underlying philosophy. First a few principles:

Repeat a canon several times.

Choose a core set of techniques and ideas which will properly shape the students’ minds. The shape of their mind when they come out is far more important than any particular collection of facts.

My sister once noted in surprise, the night before a calculus exam, "I can’t study for this class! I can only practice." There is no body of things that a science student should know, only a body of things he should be able to do. Skills and mindsets take much longer to teach than facts, so it is important to by stingy with what gets space in the curriculum. For example, given familiarity with the simple SIR epidemiology model and with partial differential equations from mechanics, there is no conceptual difficulty with adding spatial effects to the SIR model. Unless it is a step to some other compelling mental skill, ditch it.

If math is your language, don’t work in translation.

You would not expect students of Italian literature to have everything taught in English translation except for one course where they played with Italian translation. Just so, if mathematics isn’t the language in which you teach your classes, adding a random course will not fix the situation. Having students take carefully designed courses in math, computer science, and physics is not the right approach. They should only take those courses which impart tools they will use in every biology class from there on out. If no biology class in your department uses complex analysis, then don’t require the class of your students. If almost every class needs stochastic processes, then abstract that out and require a course in it. If no biology class in your department uses math, then if you find this state of affairs unacceptable, it falls upon you to correct it, not to delegate the task to a mathematician who spends his days worrying about category theory.

Prerequisite courses are for the universal, not the potentially useful.

Physicists have separate calculus courses not because it’s a good idea for students to know calculus, but because the tools are used in every physics course the students take, so it is more efficient to deal with the tools once, uniformly, and assume them from there on out. Topics like Laguerre polynomials which show up in only some of the following physics classes are simply taught alongside the physics, not abstracted out.

Does every course require the students to know what a calcium ion is, what it does in solution, and how it combines with things? Then general chemistry seems like a compelling prerequisite.

A course is the minimal mental pattern of a practitioner.

Students taking a course shouldn’t have to memorize facts. They are there to pick up a core of tools and structures which shapes their mind for research in a field. I propose a rule of thumb: if a practitioner uses something weekly, it should be in the introductory course; monthly, in the advanced undergraduate course; annually, in the graduate course.

Finally, the report wants physics and chemistry departments to modify their introductory courses for the needs of the biology department, or to offer special introductory courses. No. Many students are undecided as to their major in their first year, and take the introductory courses in all the sciences. I think each of these courses should be taught as if to a class full of majors in the department teaching the course. For instance, why should physics departments throw out relativity? And if an ostensible biology student seeing relativity decides that they like that more, shouldn’t they become a physics major?

I’ll post the curriculum proposal next.

(Update: Talking to my adviser, his comment was that the single most important thing that could be done would be to cut the administrative burden (not including teaching) of principal investigators from half to two thirds of their time to something much, much smaller. I think perhaps five to ten percent should be the upper limit.)