Completing the square: Difference between revisions
imported>Michael Hardy |
imported>Michael Hardy No edit summary |
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Thus we have the equality | Thus we have the equality | ||
:<math> 3x^2 + 42x - 5 = 3(x + 7)^2 - 152\, </math> | :<math> 3x^2 + 42x - 5 = 3(x + 7)^2 - 152.\, </math> | ||
== More abstracly == | == More abstracly == | ||
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The last expression inside parentheses above corresponds to ''u''<sup>2</sup> + 2''uv'' in the identity labeled (*) above. We need to add the third term, ''v''<sup>2</sup>. | The last expression inside parentheses above corresponds to ''u''<sup>2</sup> + 2''uv'' in the identity labeled (*) above. We need to add the third term, ''v''<sup>2</sup>. | ||
[''To be continued...''] | |||
[[Category:Mathematics Workgroup]] | [[Category:Mathematics Workgroup]] |
Revision as of 20:07, 25 August 2007
In algebra, completing the square is a way of rewriting a quadratic polynomial as the sum of a constant and a constant multiple of the square of a first-degree polynomial. Thus one has
and completing the square is the way of filing in the blank between the brackets. Completing the square is used for solving quadratic equations (the proof of the well-known quadratic formula consists of completing the square. The technique is also used to find the maximum or minimum value of a quadratic function, or in other words, the vertex of a parabola.
The technique relies on the elementary algebraic identity
Concrete examples
We want to fill in this blank:
We write
Now the expression (x2 + 2x·7) corresponds to u2 + 2uv in the elementary identity labeled (*) above. If x2 is u2 and 2x·7 is 2uv, then v must be 7. Therefore (u + v)2 must be (x + 7). So we continue:
Now we have added 72 inside the parentheses, and compensated (thus justifying the "=") by subtracting 3(72) outside the parentheses. The expression inside the parentheses is now u2 + 2uv + v2, and by the elementary identity labeled (*) above, it is therefore equal to (u + v)2, i.e. to (x + 7)2. So now we have
Thus we have the equality
More abstracly
We have
The last expression inside parentheses above corresponds to u2 + 2uv in the identity labeled (*) above. We need to add the third term, v2.
[To be continued...]