Re: [xmca] a minus times a plus

[Andy Blunden <ablunden@mira.net>]

From the worst ex-maths teacher in the world ...

Certainly I think Ed's explanation of "why" minus numbers 
behave the way they do when included in operations that make 
intuitive explanation impossible is right. I.e., you ask 
that regularities that applied in the domain so far ought to 
be retained when the domain is extended by adding a new 
group of numbers. There is no meaning for "multiplying by a 
negative number" that can be reliably deduced from intuitive 
definitions of "multiply" and "negative". So the rule is 
that you can grasp the idea of "multiply" intuitively 
through the idea of repeated addition, just as you grasped 
the idea of addition by repeated counting. And you can grasp 
the idea of negative numbers in some equally intuitive way 
(there are several options), but not a way which can be 
fitted into the idea of "repeated addition".

So you take Ed's advice and rely on some general rule or 
visual image that worked before and require that it still 
work for negative numbers. In that way you move out of the 
bounds of intuition into mathematical thinking, guided no 
longer by plausible intuition, but by a mathematical rule.

That still leaves open the question as to whether you can 
teach general rules and mathematical reasoning to someone 
who has had no practice in applying the rules whose 
jutification you claim to achieve by this "rule extension" 
rationale that Ed exlained.

I was of a generation that learnt my times-tables by rote 
and had my first lesson on real mathematics in my last years 
as an undergrad. 15 years later, and then 6 years later was 
asked to teach "modern mathematics" to 13 year old kids who 
couldn't count and had no idea of what "1/2" meant except a 
1 a stroke and a 2. I was not a happy chappy at the time. I 
blame Piaget and his "Genetic Epistemology" and a whole lot 
of absurdity that went down in the early 1970s.

I say: learn to ride your bike, and then learn dynamics to 
make sense of it afterwards.

Andy

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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--
------------------------------------------------------------------------
Andy Blunden http://home.mira.net/~andy/
Hegel's Logic with a Foreword by Andy Blunden:
From Erythrós Press and Media <http://www.erythrospress.com/>.

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