Improving the quality of teachers is not the only thing we need to do to improve the schools. The curriculum is also a problem, and as much of a problem. We are endlessly perverse in what we choose to teach.
I know there will be howls of protest over this, but the truth is, we waste kids' time in teaching them so much science and math. Everyone but the kids loves STEM. But STEM is not the way to go.
Yes, these fields are important for a lot of good jobs; and important for the advancement of our physical comfort. But for the majority of students who will not go on to STEM careers, it is pretty much a waste of their time. As the old saw goes, how much of your high school algebra did you use today? When today did you need to work out the circumference of a circle? Yet the time lost studying these things kept you away from learning things that might have been important to you in your real life and real career.
If, on the other hand, you do need these bits of knowledge in your job or your life later on, you have almost certainly forgotten them by then. You must pick them up again on the fly anyway—which, fortunately, is easy enough, when and if they are important to you.
Teaching science is an even worse time sink; at least the way we teach it now. We teach it as a set of known facts and “laws.” This is really the antithesis of science, which relies on taking nothing on authority. Inevitably, a significant portion of the “facts” and “laws” the typical student learns in public school are disproven a few years later—sometimes before the text goes to press. The student then wastes his time not just filling his head with useless information, but with things he will later need to laboriously unlearn, or look a fool.
We ought to teach the history of science, to show what science really is: a method, not a set of conclusions. And, of course, we ought to teach the scientific method. We claim to do that sometimes now, but we really never do. We will assign the class an experiment with a known, pre-ordained conclusion. Then, if the experiment does not produce the intended results, we require the student to explain why it failed. This is still teaching the opposite of the scientific method. Moreover, it seems deliberately pointless and boring.
At the same time, there are a lot of essential things, things everyone needs, that we do not teach. Most important among them are ethics and religion. They are, and have always been understood to be, the essence of an education. Unless you understand your goal, nothing else makes any sense.
But these are things we cannot teach in public schools. We do not want government teaching ethics and religion: that way totalitarianism lies. The only solution seems to be either funding all denominational schools, or school vouchers.
Aside from this, we need to teach basic skills: reading, writing, and arithmetic. Which we do, but not very well. Unfortunately, the best way to teach such basic skills is through direct instruction, or as teachers currently call it disparagingly, “drill and kill.” Memorization is itself an invaluable skill, and we ought to teach it deliberately: the practice of memorizing things is of value over and above the value of the things memorized. Unfortunately, far from teaching it, we currently tend to prohibit it.
Beyond and after this, we need to teach rhetoric, parliamentary procedure, and logic, which we do not currently teach at all. For any position in life, it is important to be able to think, to persuade, and to avoid being conned or manipulated. And it is important to be able to work in groups. Yes, we currently make students work in groups, endlessly, but then we do not show them how—or more often, we set up the groups so that they will not work. They become no more than tools for conformity and bullying. Kids need to learn how to run a meeting.
We need to teach basic bookkeeping—vital to any business, but also vital to anyone else, for personal finance.
On top of this, as I think E.D. Hirsch has demonstrated, there is a good case that we need to teach a core of shared cultural knowledge. Without it, you are left outside the cultural dialogue. You cannot read a good newspaper or a college text. This is where history and literature, in particular, come in. And that does not mean some recent book by a “minority” author, for the sake of supposed diversity. And it does not mean the history of some “minority” group. By the logic of the need, that means looking at the most familiar and established authors, and the aspects of history everybody has been most familiar with over the past generations. All those dead white males. Otherwise the exercise is pointless, and another huge waste of students' time.
Teaching a second language might be a good idea, but certainly not the way we teach it now. Growing up in Quebec, we all studied French from grade 3 through high school. And I doubt anyone ever became fluent in French as a result.
The problem was with the goal. It is crazy to try for conversational fluency in a classroom. Conversational fluency comes with speaking practice. It is almost impossible to manage this in a classroom. At best, it is a wildly inefficient use of student time and resources. If you want fluency, you get it on the streets, in the playgrounds, watching TV, hanging out with friends, shopping in the stores. In a classroom, the only useful approach is the old, now always disparaged and condemned “grammar-translation method.” It is universally condemned because it will never make you fluent in the language. True enough, it that is what you want. But it will give you a reading knowledge. This gives you access to all the most important thoughts and all the most important conversations in that language. That is not such a small thing in itself. More importantly, in having to analyse grammar, it will teach you how language works. And to understand how language works is to understand how thought works.
For the same reason, even apart from its own utility, and perhaps even as a suitable replacement, it would be immensely valuable to teach all students how to program. Unlike geometry or algebra, programming skills have an immediate practical payoff. You can make things, right away.
These are the things that everyone can benefit from knowing. If a student then decides to go into some STEM field, that is the time to learn what is specific to that field.
Of course, we are all charging full steam ahead in the opposite direction.
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