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In geometry, Apollonius's theorem is a theorem relating the length of a median of a triangle to the lengths of its sides. It states that the sum of the squares of any two sides of any triangle equals twice the square on half the third side, together with twice the square on the median bisecting the third side.

The theorem is found as proposition VII.122 of Pappus of Alexandria's Collection (c. 340 AD). It may have been in Apollonius of Perga's lost treatise Plane Loci (c. 200 BC), and was included in Robert Simson's 1749 reconstruction of that work.^[1]

Statement and relation to other theorem

In any triangle $ABC,$ if $AD$ is a median ( $|BD|=|CD|$ ), then $|AB|^{2}+|AC|^{2}=2(|BD|^{2}+|AD|^{2}).$ It is a special case of Stewart's theorem. For an isosceles triangle with $|AB|=|AC|,$ the median $AD$ is perpendicular to $BC$ and the theorem reduces to the Pythagorean theorem for triangle $ADB$ (or triangle $ADC$ ). From the fact that the diagonals of a parallelogram bisect each other, the theorem is equivalent to the parallelogram law.

Proof

The theorem can be proved as a special case of Stewart's theorem, or can be proved using vectors (see parallelogram law). The following is an independent proof using the law of cosines.^[2]

Let the triangle have sides $a,b,c$ with a median $d$ drawn to side $a.$ Let $m$ be the length of the segments of $a$ formed by the median, so $m$ is half of $a.$ Let the angles formed between $a$ and $d$ be $\theta$ and $\theta ^{\prime },$ where $\theta$ includes $b$ and $\theta ^{\prime }$ includes $c.$ Then $\theta ^{\prime }$ is the supplement of $\theta$ and $\cos \theta ^{\prime }=-\cos \theta .$ The law of cosines for $\theta$ and $\theta ^{\prime }$ states that ${\begin{aligned}b^{2}&=m^{2}+d^{2}-2dm\cos \theta \\c^{2}&=m^{2}+d^{2}-2dm\cos \theta '\\&=m^{2}+d^{2}+2dm\cos \theta .\,\end{aligned}}$

Add the first and third equations to obtain $b^{2}+c^{2}=2(m^{2}+d^{2})$ as required.

References

^ Ostermann, Alexander; Wanner, Gerhard (2012). "The Theorems of Apollonius–Pappus–Stewart". Geometry by Its History. Springer. § 4.5, pp. 89–91. doi:10.1007/978-3-642-29163-0_4.
^ Godfrey, Charles; Siddons, Arthur Warry (1908). Modern Geometry. University Press. p. 20.

Allen, Frank B. (1950). "Teaching for Generalization in Geometry". The Mathematics Teacher. 43: 245–251. JSTOR 27953576.
Bunt, Lucas N. H.; Jones, Phillip S.; Bedient, Jack D. (1976). The Historical Roots of Elementary Mathematics. Englewood Cliffs, New Jersey: Prentice-Hall. pp. 198–199. ISBN 0133890155. Dover reprint, 1988.
Dlab, Vlastimil; Williams, Kenneth S. (2019). "The Many Sides of the Pythagorean Theorem". The College Mathematics Journal. 50 (3): 162–172. JSTOR 48661800.
Godfrey, Charles; Siddons, Arthur W. (1908). Modern Geometry. Cambridge University Press. pp. 20–21.
Hajja, Mowaffaq; Krasopoulos, Panagiotis T.; Martini, Horst (2022). "The median triangle theorem as an entrance to certain issues in higher-dimensional geometry". Mathematische Semesterberichte. 69: 19–40. doi:10.1007/s00591-021-00308-5.
Lawes, C. Peter (2013). "Proof Without Words: The Length of a Triangle Median via the Parallelogram". Mathematics Magazine. 86 (2): 146. doi:10.4169/math.mag.86.2.146.
Lopes, André Von Borries (2024). "Apollonius's Theorem via Heron's Formula". Mathematics Magazine. 97 (3): 272–273. doi:10.1080/0025570X.2024.2336425.
Nelsen, Roger B. (2024). "Apollonius's Theorem via Ptolemy's Theorem". Mathematics Magazine. doi:10.1080/0025570X.2024.2385255.
Rose, Mike (2007). "27. Reflections on Apollonius' Theorem". Resource Notes. Mathematics in School. 36 (5): 24–25. JSTOR 30216074.
Stokes, G. D. C. (1929). "The theorem of Apollonius by dissection". Mathematical Notes. 24: xviii. doi:10.1017/S1757748900001973.
Surowski, David B. (2010) [2007]. Advanced High-School Mathematics (lecture notes) (9th draft ed.). Shanghai American School. p. 27.

[1] Ostermann, Alexander; Wanner, Gerhard (2012). "The Theorems of Apollonius–Pappus–Stewart". Geometry by Its History. Springer. § 4.5, pp. 89–91. doi:10.1007/978-3-642-29163-0_4.

[2] Godfrey, Charles; Siddons, Arthur Warry (1908). Modern Geometry. University Press. p. 20.

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