Republic of Mathematics blog

Cognitive theft in mathematics teaching

Posted by: Gary Ernest Davis on: April 6, 2011

W. Gary Martin

The person who truly taught me to teach mathematics in a deeper and more productive way is W. Gary Martin.

He showed me, by example, how to stop talking so much about my own understanding, and listen carefully to student understanding.

In particular, he demonstrated for me how, when a student is presenting their own problem solution to the class, to pay careful and concentrated attention to whether other students were understanding.

Over the years, as a teacher educator in the UK and the United States, I have helped student teachers, as well as practicing teachers, to focus less on their own explanations and focus more on what their students understand. Less talk and more listening.

This point was raised again in the April 6, 2011 GenerationYes blog: part 4 of 4 of a series on Khan Academy.

The blog post cites Gary Stager as saying that “anytime you go to ‘help’ a learner, pause and think about whether you are taking away an opportunity for them to learn it themselves.”

Gary Stager summarizes this as “Less us, more them.”

Many years ago at a National Council of Teachers of Mathematics conference a well known mathematics educator, now a distinguished Professor and Dean of a major College of Education, showed a video of a student and herself. In the video the student showed how to find one-half and then one-fourth of a cookie.

The student paused when asked to find one-third of the cookie. The well known math educator explained to the student that it might be easier to replace the cookie by a candy bar and proceeded to approximately mark a drawing of a candy bar into thirds.

The student who to that point had been quite talkative, now remained silent.

I was so struck by the inappropriateness of this “showing” that I dubbed this type of instructional interference with a student’s thought processes as “cognitive theft”.

The math educator’s intervention  did not solve the original problem, did not even show how to find one-third of a candy bar, and took away  – stole – from the student the chance of continuing to think about the problem.

Well meaning, I suppose, but who wants a well-meaning brain surgeon?

Equally, who wants a well meaning teacher stealing from students the opportunity to think?

The GenerationYES blog discusses perceived failings in the Khan Academy’s instructional videos from many perspectives.

These videos are not directly stealing the opportunity for students to think, but they are emphasizing mathematics as a bunch of techniques that one learns by being shown by one’s teacher.

This seems, to me, to promote a passive consumer attitude to learning mathematics: a show me how to do it” attitude.

Whereas learning mathematics usefully, productively, flexibly and deeply requires active participation in solving problems.

The “show it to me” attitude is traveling dangerously close to cognitive theft.

In the long-run it is indeed cognitive theft: a student is stealing from themselves the opportunity to learn deeply, and, as it turns out, more joyfully.

A clutch of mathematical Haiku

Posted by: Gary Ernest Davis on: April 5, 2011

I’m hoping that teachers of mathematics, and their students, will be inspired to write a few Haiku describing life in the mathematical world.

Inspired by the following excellent (non mathematical) Haiku of Colin T. Graham (@ColinTGraham):

Occluding stratus,

Trees shivering in the wind.

And yet, there is green.

I decided to chance my arm at a mathematically-oriented Haiku:

Statistics in Spring.

Finding goodness of a fit,

Chi-squared small, good!

It caught the attention of Dime Arale (@Norii_xD) who re-tweeted it.

I looked around to see if there were examples of mathematical Haiku on the Web, and perhaps even a genre of mathematical Haiku.

To my surprise I found quite a few examples.

Here’s a clever bunch from Damiel Matthews: Mathematical_Haiku_Daniel_Matthews_2004

Here are some focussing on programming, from the site of Tim Davis:

Floating in number,

result of add off by eps :

bit of summer err.

_______________

Variant (2010):

Floating in number,

An adder is off by eps :

bit of summer err.

_______________

Etrees in autumn,

elm and yew leaves are falling :

L and U fill-in.

_______________

Two coders at sea,

for pair programming extreme ;

C shanties they sing.

_______________

A summer blessing :

May descendents multiply,

non-transitive life.

_______________

Land-lubbers set sail,

C coding in mexFunction :

MATLUBbers at C.

_______________

Here’s another bunch in Haiku style by J. L. Alperin, reflecting on a mathematical life:

Referee’s Report

Beautiful theorem

The basic lemma is false

Reject the paper

_______________

Oral Exam

Questions like arrows

I give proofs, like swatting flies

Then smiles, all around

_______________

Fermat’s Last Theorem

A marginal note

Enigma for centuries

A theorem of Wiles

_______________

Classification

Eighteen families

Twenty-six sporadic groups

All the simple ones

Typically a Haikai verse (plural Haiku) consists of 3 phrases, with 5, 7, and 5 sound units (mora) repectively. Haiku often contain a seasonal reference, and a cutting word that contrasts two situations.

Commonly, English language Haiku form has the following characteristics:

  • Use of three (or fewer) lines of 17 or fewer syllables;
  • Use of a season word (kigo);
  • Use of a cut (sometimes indicated by a punctuation mark) paralleling the Japanese use of kireji, to implicitly contrast and compare two events, images, or situations.

If you have a mathematically-oriented Haiku you would like to share, please add it to the comments.