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Post date: Feb 08, 2012 11:58:40 PM
PARAB SINGS 01
(y-k)2 - 4p(x-h) presents....
"Y-Squared Tiles"
(*aka "Smile", Avril Lavigne)
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Algebra Tiles Reference Here
You know that we like using 'x'
(To do algebra is not that complex)
Physical models can help you out (oh oh)
A small square will be one by one
(The area, the area is how it's done)
Unknown length shows 'x' without a doubt
You said, "Wait. What's x squared?"
Check length and width and now you are prepared
Then, you said, "Wait. This can't equate.
This side won't match that 'x' length we did state."
Yeah...
There's a yyyyy squared tile
Similar style
If areas are varying it's more worthwhiiiiiile that we
We work consistently
With more unknowns you'll find the zones
That give us y-y-y-y squared ti-i-i-iles
Colours will give tiles a sign
(Zero pair, zero pair we define)
To add or subtract we match and go (oh oh)
x2 +6x + ???
You can also multiply
(Keep track of each term, and we won't go awry)
Completing the square's soon status quo.
You said, "Wait. What's like terms?" (What's like terms?)
Just take a look, each tile type now confirms
Then, you said, "Wait. x is not great." (x is not great.)
As you gain skill, we'll vary and update.
Yeah...
There's a yyyyy squared tile
Similar style
If areas are varying it's more worthwhiiiiiile that we
We work consistently
With more unknowns you'll find the zones
That give us y-y-y-y squared ti-i-i-iles
That give us y-y-y-y squared ti-i-i-iles
You know that we like using 'x'
To do algebra is not that complex
Physical models can help you oooout!
You know that we like using 'x'
To do algebra is not that complex
Physical models can help you out.
There's a yyyyy squared tile
Similar style
If areas are varying it's more worthwhiiiiiile that we
We work consistently
With more unknowns you'll find the zones
That give us y-y-y-y squared ti-i-i-iles
(That give us, that get to) y-y-y-y squared ti-i-i-iles
That give us y-y-y-y squared ti-i-i-iles
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