Sum of two cubes: Difference between revisions
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Starting from the [[Sides of an equation|left-hand side]], [[distributive law|distribute]] <math>a^2-ab+b^2</math> to <math>a+b</math> to get |
Starting from the [[Sides of an equation|left-hand side]], [[distributive law|distribute]] <math>a^2-ab+b^2</math> to <math>a+b</math> to get |
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:<math>(a+b)(a^2-ab+b^2)=a(a^2-ab+b^2)+b(a^2-ab+b^2)</math> |
:<math>(a+b)(a^2-ab+b^2)=a(a^2-ab+b^2)+b(a^2-ab+b^2)</math> |
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Using the distributive law, distribute |
Using the distributive law, distribute ''a'' to <math>a^2-ab+b^2</math> and ''b'' to <math>a^2-ab+b^2</math> to get |
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:<math>a^3-a^2b+ab^2+ba^2-b^2a+b^3</math> |
:<math>a^3-a^2b+ab^2+ba^2-b^2a+b^3</math> |
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By combining, both middle terms cancel: |
By combining, both middle terms [[Cancelling out|cancel]]: |
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:<math>-a^2b+ba^2+ab^2-b^2a=0</math> |
:<math>-a^2b+ba^2+ab^2-b^2a=0</math> |
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leaving |
leaving |
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<math>a^3+b^3</math> |
<math>a^3+b^3</math> |
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The identity does not actually equal a cube.<ref>{{Cite journal |last=Dickson |first=L. E. |date=1917 |title=Fermat's Last Theorem and the Origin and Nature of the Theory of Algebraic Numbers |url=https://www.jstor.org/stable/2007234 |journal=Annals of Mathematics |volume=18 |issue=4 |pages=161–187 |doi=10.2307/2007234 |issn=0003-486X}}</ref> In order to prove this, ''a'' and ''b'' must be a non-zero [[rational number]]. We will make <math>a=1</math> and <math>b=2</math>. Plugging in ''a'' and ''b'' shows that |
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:<math>(1+2)=(1^2-1(2)+2^2)</math> |
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Which if simplified shows that |
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:<math>3=1-2+4</math> |
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And simplifying the equation using the order of operations gets |
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:<math>3=3</math> |
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3 is the resulting answer, although it is not a cube. |
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== References == |
== References == |
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Revision as of 05:14, 3 November 2022
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In mathematics, the sum of two cubes is a cubed number added to another cubed number. Every sum of cubes may be factored according to the identity
in elementary algebra. The end term of the identity, , for the sum or difference of two cubes will always end in the addition of .[1]
Proof
Starting from the left-hand side, distribute to to get
Using the distributive law, distribute a to and b to to get
By combining, both middle terms cancel:
leaving
The identity does not actually equal a cube.[2] In order to prove this, a and b must be a non-zero rational number. We will make and . Plugging in a and b shows that
Which if simplified shows that
And simplifying the equation using the order of operations gets
3 is the resulting answer, although it is not a cube.
References
- ^ "GS_MTH110_SumDifferenceCubes" (PDF). warriorweb.dinecollge.edu. Retrieved 2022-10-24.
{{cite web}}: CS1 maint: url-status (link) - ^ Dickson, L. E. (1917). "Fermat's Last Theorem and the Origin and Nature of the Theory of Algebraic Numbers". Annals of Mathematics. 18 (4): 161–187. doi:10.2307/2007234. ISSN 0003-486X.