Posted by: Gary Ernest Davis on: January 21, 2010

translation servicesTranslate | French translation Spanish translation translate German translate Chinese

Corina Silveira came from Argentina to carry out research for her doctorate in mathematics education at the University of Southampton in England.

Corina was interested in how children developed an informal sense of number through their world experiences – particularly seeing adults deal with prices of goods and vehicles, and seeing telephone numbers, street numbers, and such.

She

Corina was interested to map out a picture of the development of children’s everyday number sense, and its relationship to known development in counting.

We found a school in South Wonston, north of Southampton, where a grade 1 teacher and her students were happy to work with us.

Among other things, Corina devised a game for about 4 children in which each child was dealt a small number of cards, each of which had a (different) number from 1 through 100.

Children took turns in placing a card on the table and a hand was won by the child who put down the largest numbered card.

There is an element of strategy in this game in that if a card on the table is higher than all your cards then you should play your lowest card.

Corina was interested in an answer to the question: how do these 5 year old children know which is the largest number?

A few times the card with “100” on it was dealt, and each time that happened the child who got the card started laughing. One boy laughed so hard he fell backwards onto the floor, crying out: “Oh, oh! It’s the biggest one of all!”

Corina asked a group of children how they knew 63, on a card, was bigger than 29, as they said it was.

One child pointed to the card with 63 and said:

“Because it’s got a 6.”

When Corina objected that the other card had a 9, the children jostled to tell her, with almost pity in their eyes that an adult would not know such a thing:

“But the left hand’s the boss!”.

These children could not read 69, but knew that the left hand 6 meant it was a bigger number than 29.

Among the children in this first grade was a boy named Tom. He was somewhat developmentally delayed, having relatively poor coordination, and being slow at both counting and reading. Tom had arrived at the school the year before and was, by his teacher’s account, not well socialized at that point.

Now, however, Tom was very keen to join in the card game. He told us very proudly that he was a good counter.

“Would you like me to count for you?” he asked.

Of course we agreed . So he counted:

“One, two, three, four, five, seven, eleven, twenty, thirty!”

He beamed.

“I’m a good counter. I practice at home.”

That was Tom: happy to be in school, happy to be part of his grade of school mates, happy to be learning to read and count.

It is common in England for children to be placed in groups, or sets, according to their general academic ability. Tom was in the bottom set.

The top set in Tom’s grade 1 consisted of 4 boys who were keen to know why we were in their classroom.

I explained that we were interested in what they knew about big numbers, such as one hundred, one thousand or even one million.

One of these top set boys said to me:

“I will tell you what’s the biggest number there is.”

“The biggest number there is?” I queried.

“Yes. It’s called infinity.”

“Infinity?” I repeated.

“Yes, it’s the biggest number there is.”

I nodded, looked him in the eye, and said:

“Infinity plus one.”

“No, no, no”, he said. “You can’t do that … cause infinity is the biggest number.”

Another of the boys chimed in with: “Infinity plus two!”

No, no!” said the first boy. “You can’t do that…”

Then the last boy in the group looked at us all and said:

“Infinity plus infinity!”

All the boys looked at each other, and at me, apparently wondering if this might make some sense.

The teacher in this grade 1 class was wonderful. Friendly, supportive, with as challenging activities for each group as she could find or devise. She taught them reading, writing, arithmetic, geography, social studies, science and who knows what else.

Yet how could this excellent teacher deal individually in mathematics – grade 1 mathematics – with Tom who could not yet confidently and reliably count to 10, and the top set boys who were pondering infinities?

Corina and I found 4 and 5 year olds who knew confidently that there would be no house in their street numbered 1024 because they lived in a very short street, or who knew that 2,500 was a large number because that’s what someone’s mother paid for her car. We also found children who knew that the number on their house was the same as the number on their trash bin, but did not know why.

Kids learn about numbers by learning to count. They also learn about them as artifacts in the adult world. In the early years of schooling teachers generally stick to counting up to small numbers. But the children have another sense of number and magnitude and meaning that comes from the way numbers are used in the world outside of school.

Only by listening to their stories will we know what they know, and how we can help advance their knowledge and thinking. Kids need listening to as much as they need teaching.

2 | John

March 25, 2010 at 7:21 pm

. Their wonder, if trampled by too much abstraction, might make them numb(er).-)

. I too remember seeing some surprising extrapolations by children from their occasionally out-of-context numerical experiences out-of-school. How often do teachers try to use those experiences as the basis for allegory that they can then build a more coherent context around: ie. a picture of numbered houses on a street, and numbered trash-can cut-outs to be aligned on the picture. (numbers used for naming vs counting?)

. Is it fair (& does it matter) to add the ‘1’ at the beginning of infinity?