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Factorise polynomial (1 Viewer)
- Thread starter QZP
- Start date
This method works (without complex numbers)
Just wondering what made you think of using it (seems very useful)
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To be fair I've seen this question several times before and the answer sorta gives it away (notice it can expand as a difference of two squares)
But yeah the trick is looking ahead and realising that doing such a thing leads to a nice factorisation giving the difference of two squares
anomalousdecay
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Its extension 1. OP has to understand Trebla's method, unless OP is doing ext.2
RealiseNothing
what is that?It is Cowpea
It's very similar to the method of completing the square. You can think of it as:
Now you know that
So you can use either of these, and it just happens the latter is the easiest to manipulate.
found an alternative method that also works (same thing but i thought it was easier to see)
x^4 + 2x^2 + 4
= x^2(x^2)+2(x^2+2)
= x^2(x^2+2)+2(x^2+2) - 2x^2
= (x^2+2)(x^2+2) - 2x^2
= (x^2+2)^2 - 2x^2
= (x^2-sqrt(2)x+2)(x^2+sqrt(2)+2)
x^4 + 2x^2 + 4
= x^2(x^2)+2(x^2+2)
= x^2(x^2+2)+2(x^2+2) - 2x^2
= (x^2+2)(x^2+2) - 2x^2
= (x^2+2)^2 - 2x^2
= (x^2-sqrt(2)x+2)(x^2+sqrt(2)+2)
It IS completing the square - the original expression has been written as the sum/difference of two terms that can be interpreted as perfect squares - exactly what completing the square involves. Its just that most people are used to seeing only the standard question types.