Re: [xmca] a minus times a plus

[Ed Wall <ewall@umich.edu>]

Mike

      I'm not using x and y to indicate co-ordinates, by the way so  
there really isn't, in how I'm thinking about the situation, a number  
line connection.

      This for me, at least, is a very complicated question and while  
I have some beginnings on a sort of answer, I may not be able to get  
to that in any detail for awhile. Let begin though with your mention  
of multiplication facts. In a sense the important single digit  
multiplication facts are:

                                          0 x a = 0
                                          1 x a = a
                                           a x b = b x a
                                           a x (b x c)  = (a x b) x c
                                           a x (b + c ) = a x b + a x c
                                           (a + 1) x b = ab + a				 
(an important instance of the just above)
\

and then
                                           2 x a = a + a (skip  
counting)
                                           3 x a = 2 x a + 1 x a
                                           4 x a = 2 x (2 x a)
                                           5 x a = a + a + a + a +  
(money)
                                           8 x a = 2 x ( 2 x (2 x a)))

7 x
6 x
9 x

are a little less obvious although I'm sure there are things one could  
remember and, of course, if you wish

                                           9 x a = [a-1][9- 
(a-1)]       (where [][] indicates a two digit number)

and 10 x a which results in a shift one place to the left - the  
paramount fact in our Western base-ten system.

Ed


The multiplication fact I somewhat cringe about (not because I don't  
respect the children that can do such, but because of the amount a  
garbage that mounts up in the brain) are illustrated by the following  
once proudly said by a child who was struggling with his tables:

                                       Goin' fishing, got my bait.  
Six times eight is forty-eight.


Anyway, my answer in part is, children need to be given some time  
exploring and playing with the structure of the number system. There  
is a quite old game called equations by Allen (there is a sort of new  
version which I don't like) and there is the game called the Broken  
Calculator. These with some thoughtful teaching have been helpful.

Ed

On Apr 27, 2009, at 8:06 PM, Mike Cole wrote:

> Great!! Thanks Ed and Eric and please, anyone else with other ways of
> explaining the underlying concepts.
> Now, we appear to have x and y coordinates here. If I am using a  
> number line
> that ranges along both x and y axes from (say) -10 to +10 its pretty
> easy of visualize the relations involved. And there are games that  
> kids can
> play that provide them with a lot of practice in getting a strong  
> sense
> of how positive and negative positions along these lines work.
>
> What might there be of a similar nature that would help kids and old  
> college
> professors understand why -8*8=64 while -8*-8=64?
>
> Might the problem of my grand daughter, doing geometry, saying,  
> "Well, duh,
> grandpa, its just a fact!) arise from the fact (is it a fact?) that
> they learn multiplication "facts" before they learn about algebra  and
> grokable explanations that involve even simple equations such as
> y+a=0 are unintelligible have become so fossilized that the required
> reorganization of understanding is blocked?
>
> mike
>
> On Mon, Apr 27, 2009 at 4:16 PM, Ed Wall <ewall@umich.edu> wrote:
>
> > Mike
> >
> >    It is simply (of course, it isn't simple by the way) because, the
> > negative integers (and, if you wish, zero) were added to the  
> > natural numbers
> > in a way that preserves (in a sense) their (the natural numbers)  
> > usual
> > arithmetical regularities. It would be unfortunate if something  
> > that was
> > true in the natural numbers was no longer true in the integers,  
> > which is a
> > extension that includes them.  Perhaps the easiest way to the  
> > negative x
> > positive business is as follows (and, of course, this can be made  
> > opaquely
> > precise - smile):
> >
> > 3 x 1 = 3
> > 2 x 1 = 2
> > 1 x 1 = 1
> > 0 x 1 = 0
> >
> > so what, given regularity in the naturals + zero) do you think  
> > happens
> > next? This thinking works for, of course, for negative times  
> > negative. The
> > opaque proof is more or less as follows.
> >
> > Negative numbers are solutions to natural number equations of the  
> > form (I'm
> > simplifying all this a little)
> >
> >                     x + a = 0    ('a' a natural number)
> >
> > and likewise positive numbers  are solutions to natural number  
> > equations of
> > the form
> >
> >                    y = b          ('b' a natural number)
> >
> >
> > Multiplying these two equations in the usual fashion within the  
> > natural
> > numbers gives
> >
> >
> >            xy + ay = 0
> >
> > or substituting for y
> >
> >
> >      xy + ab = 0
> >
> > so, by definition, xy is a negative number.
> >
> > Notice how all this hinges on the structure of the natural numbers  
> > (which
> > I've somewhat assumed in all this).
> >
> > Ed
> >
> >
> >
> >
> > On Apr 27, 2009, at 6:47 PM, Mike Cole wrote:
> >
> > Since we have some mathematically literate folks on xmca, could  
> > someone
> > > please post an explanation of why
> > >
> > > multiplying a negative number by a positive numbers yields a  
> > > negative
> > > number? What I would really love is an explanation
> > > that is representable in a manner understandable to old college  
> > > professors
> > > and young high school students alike.
> > >
> > > mike
> > > _______________________________________________
> > > xmca mailing list
> > > xmca@weber.ucsd.edu
> > > http://dss.ucsd.edu/mailman/listinfo/xmca
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