On the use of calculators in elementary/high school? Computer algebra systems later on?

Question

I know this subject is inflamatory... but I also believe it is something that requires broader discussion (and hopefully some consensus).

My own position (from personal experience) is that today you rarely (if ever) do calculations (sums, multiplications, ...) by hand. Remembering the hours I spent (not all exactly happy ones) being drilled in multiplication and division, doing so-so in that, but going on to end up here, I'm looking for better use of that time. In college, I see student's (and teacher's) time being wasted on "what clever trick gets an integral for ..." and similar questions.

My question is then, can (and should) we take out this "drill" aspect of teaching, and what should we do with the freed time?

Follow-up question is what this means in formation of future teachers?

Answer 1

I think some practice in manipulating symbols and number is necessary for many mathematical activities. To do everything "by machine" is first inconvenient and second there is also some insight to be gained from doing it by hand.

I think by solving some systems of linear equations by hand one gains some insight that one would not gain just by typing it into some CAS and getting the solution back out. (Leaving aside the aspect that some need to build and improve such things, as this is a minority.)

The same goes first for basic calculations, then for more complex ones, then for manipulating expression containing indeterminantes and so on.

The above being said, I stress the some. I agree it is nowadays pointless (for most anyone) to develop high proficiency at these tasks. And, yes, I do not understand either why some still let students do so many integrals. Surely, one should know how to do integration by parts and substitution, but a few examples should suffice.

Generally speaking, I think some practice in such tasks is important, but only to the extent that one can do things by hand if one must. Forced "drill" to do such things fast and reliably is besides the point in my opinion (I stressed the forced as, personally, I enjoyed to do calculations a lot).

Answer 2

I agree that in the current paradigm, there is no need to emphasize the skills of computing things by hand for the sake of it. Having said that, I totally agree with the answer above which says that "there's a valuable insight to be gained in doing things by hand". I think that precisely because it is laborious, the act of writing things out forces you to take notice of them, and in doing this a student takes in more. If I am allowed to be poetic, I would say that the act of writing or computing things forges the first relationship between a student and symbols. Of course this loses its meaning when computing by hand also becomes mechanical. It is the same reason I prefer board talks to slide shows. As a student, I was more awake in the class where the instructor wrote things on the board, talking to us as he did. As an instructor too I am able to engage my audience when I am not feeding them pre-packaged slides. Hence I don't think that asking students to do things by hand is a waste of their time. But again, balance is the key.

Answer 3

In addition to the other useful answers... there is a general "problem" that computers, given the long-known algorithms, ironically many not really human-executable, can do almost all of the algorithmic parts of k-12 and undergraduate and some once-upon-a-time-grad-level math. So it seems silly to struggle to teach kids to do things that machines can do better (the superiority of calculators at arithmetic was just the beginning...)

The genuine sociological and pedagogical problem is that humans are not getting smarter or more capable to keep ahead of things that can be implemented algorithmically on machines. And, to add insult to injury, the same kids that had trouble getting the algebra right in by-hand-calculus will typically have similar troubles getting the input right to have software do it.

That is, math software mostly helps the most able people.

Returning to some aspect of the question at hand: yes, it is ostensibly silly to teach algorithms that are far-better executed by machines. (I don't know whether anyone's bothered to write Latin or classical-Greek or classical-Hebrew grammar-checkers...) Ideally, yes, it would be better to use the machinery and allow kids to look at higher-level issues.

However, sadly, those higher-level issues are intellectually more taxing than (pointless, yes) execution of algorithms. I am disappointed to report that my experience with trying such things generates such reports.

That is, the kids who'd make sign errors or not be able to do middle-school algebra will also be flummoxed by trivial computer-language syntax, etc.

Nevertheless, it is better to be honest, to be genuine, to have math courses address real issues rather than traditional-fake. But we must brace ourselves for the disappointment that there'll still be a cadre of kids who can't do it... now for just-slightly-different reasons than the reasons for which they couldn't do hand-executed algorithms.

So, yes, one should not insist on hand-execution of algorithms, but giving that up and doing better things will make it harder, overall, for the students. But that doesn't mean we shouldn't move in that direction. A tough situation, quite seriously, in my opinion.

Answer 4

I have some documents discussing various issues about the use of Maple in teaching here:

http://neil-strickland.staff.shef.ac.uk/talks/maple2/

(This is actually quite old, but I think that most of it is still valid.)

Answer 5

For your college example: remove the techniques of integration from the calculus curriculum.

Teach numerical integration instead, e.g.: What is $$\int_0^1 e^{-x^2} dx$$ and how do you calculate it to within 0.001?

Answer 6

I have several arguments for having some hand-calculations in the classroom, but with some caveats:

Firstly, as a pure mathematician, whose entire research was doing things by hand entirely in symbols, I can confidently say that it was important to me! Also, when I enter various applied mathematician's or statistician's or scientist's offices at my university I see whiteboards and scraps of paper with symbols scrawled on them every time. I have watched even those whose work mostly involves computers constantly switching back and forth from the computer to hand-caclulations. So clearly hand-calculations are still important for the working scientist.

Often there is a decent amount of algebraic thinking that needs to be done in order to make it possible to turn your problem into something the computer can solve. Without some training in this, you may never be able to even enter the correct input. (Of course, this also means it is probably a good idea to introduce calculators/computers early so that people can learn to use them in conjunction with their algebraic manipulations, rather than leaving it till later to learn that skill.)

Secondly, symbolic thinking is a style of thinking that is actually quite useful, and allows people to do things they could not otherwise do. Sometimes an in-depth study of the symbols and rules allows you to know what is possible and what is not possible and what can be made possible. Deferring all of that to a machine can rob us of coming up with a way that is different and makes more sense to us, rather than the way that makes sense to the person who programmed the computer.

However, sometimes our approach to using symbols and calculations does not highlight these thinking skills. Techniques of integration can be a study of how integrals are connected to each other and can be a study of the difficulties that integration poses compared to differentiation, and it can be a study in how to earn how to choose from a set of strategies in a field where multiple approaches may work or none may work. However, sadly, it usually just feels like a lot of "here's another fancy trick". So in terms of structuring a course, I'd suggest making sure your emphasis is on the higher thinking if you do choose to do calculations (or have no choice).

Finally, something that is never mentioned in these discussions is self-efficacy. There is something highly satisfying about knowing that you can do something yourself without the need of technology or assistance. My daughter learned to crochet for no purpose but to know that she could. I personally love doing integrals simply because I can. The nursing students I help love to be able to calculate their drug caclulations by hand once they know how, because it gives them power over their calculations. This personal power is an important aspect of doing things by hand. Note you don't necessarily need absolute fluency to have this feeling, but it does take some practice.