[math4] FourthGradeMath Digest, Vol 2, Issue 15

[Caroline Meeks]

I searched for math demonstration repeated addition

I got quite a few results.  Mostly they are listen/look at the demonstration
and do the worksheet. The challenge is how to make the task the student is
actually doing more interesting and have it involve more creation and higher
level and thinking.  But looking at these lessons might help you with your
brainstorming.

On Sat, Mar 14, 2009 at 8:33 PM, Jason Rock <rockj at rpi.edu> wrote:

> Without trying to sound like too different a person, I understand why we
> need to simplify this and a working set of tools is very important.
>  However, take my example from above.  I can't think of a way to make that
> into an application that would actually teach the repeated addition concept.
>  I would really like to hear from an educator as to how they show that
> multiplication is really just repeated addition.  If there are any in this
> mailing list I'd love to hear your ideas on this topic so I can get writing
> some code.
> Jason
>
> On Sat, Mar 14, 2009 at 4:26 PM, Greg Dekoenigsberg <gdk at redhat.com>wrote:
>
>>
>> On Sat, 14 Mar 2009, Jason Rock wrote:
>>
>>  My personal opinion on this is that you might be simplifying it too
>>> much.
>>>
>>
>> Oh, I'm absolutely simplifying it too much.  Very deliberately so.
>>
>>  It is exceptionally easy to create a "flash card" system for learning
>>> multiplication tables, but I know for sure that that didn't work for me
>>> and
>>> it doesn't really teach multiplication.  What worked for me was thinking
>>> about repeated addition (at least to start off, then I memorized by
>>> use).  I
>>> think most people would say that the best way for children to learn
>>> single
>>> digit multiplication *is* memorization, and that may well be true, but I
>>> think it is important that we don't overlook some better way of doing it.
>>>
>>
>> You are absolutely right.
>>
>>  And these discussions need not slow down work.  I am all for a "flash
>>> card"
>>> set of multiplication tables.  I just think it is also important to show
>>> that 3*2 = 3+3 = 2+2+2 so the student can appreciate how addition and
>>> multiplication connect.
>>>
>>> Jason
>>>
>>
>> Understand that the precise nature of the activities *themselves* can be
>> somewhat arbitrary to start, so long as they align with a curriculum
>> objective.  I start with "flash cards", which in truth is what the first
>> iteration of Mongo will be, only because it's the simplest place for me,
>> myself, to start creating a reference activity.  That's all.
>>
>> What is *crucial*, however, is the notion that activities -- regardless of
>> how they are built and how they teach -- must be (a) aligned to
>> *quantifiable learning objectives*, (b) modular (ergo SWAPPABLE), and (c)
>> able to measure mastery of the objective.
>>
>> Why is this important?  For precisely the reason you cite!
>>
>> Let us say that the goal is to learn the following module:
>>
>> "4.N.11.  Know multiplication facts through 12 x 12 and related division
>> facts. Use these facts to solve related multiplication problems and compute
>> related problems, e.g., 3 x 5 is related to 30 x 50, 300 x 5, and 30 x 500."
>>
>> We can have two activities aligned to this objective.  One for the kids
>> who are better at memorizing facts, and one for the kids who are better at
>> treating multiplication like rapid repeated addition.
>>
>> There must be a half-dozen effective ways to teach this concept.  But if
>> we are going to build an ecosystem of activities in Sugar that are *useful*,
>> we *must* be able to map activities *directly* to these concepts -- and
>> ultimately, we should provide *multiple activites* for learning each
>> concept, each geared to different learning styles.
>>
>> First, though, we must get coverage.  Until we can say "we have a complete
>> set of activities to teach fourth grade math," we don't really have much
>> that's useful for the likely targets: charter schools, homeschool
>> associations, poor rural schools -- i.e. underserved markets who are willing
>> to try to use computers to teach kids in nontraditional ways.
>>
>> Sorry for the length.  :)
>>
>> --g
>>
>
>


-- 
Caroline Meeks
Solution Grove
Caroline at SolutionGrove.com

617-500-3488 - Office
505-213-3268 - Fax
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