Bang's theorem on tetrahedra

In geometry, Bang's theorem on tetrahedra states that, if a sphere is inscribed within a tetrahedron, and segments are drawn from the points of tangency to each vertex on the same face of the tetrahedron, then all four points of tangency have the same triple of angles. In particular, it follows that the 12 triangles into which the segments subdivide the faces of the tetrahedron form congruent pairs across each edge of the tetrahedron.^[1] It is named after A. S. Bang, who posed it as a problem in 1897.^[2]

References edit

^ Brown, B. H. (April 1926), "Theorem of Bang. Isosceles tetrahedra", Undergraduate Mathematics Clubs: Club Topics, American Mathematical Monthly, 33 (4): 224–226, doi:10.1080/00029890.1926.11986564, JSTOR 2299548.
^ "Opgaver til Løsning", Nyt Tidsskrift for Matematik (in Danish), 8 (A): 48, 1897, JSTOR 24528123, problem 266.

[brown-1] Brown, B. H. (April 1926), "Theorem of Bang. Isosceles tetrahedra", Undergraduate Mathematics Clubs: Club Topics, American Mathematical Monthly, 33 (4): 224–226, doi:10.1080/00029890.1926.11986564, JSTOR 2299548.

[2] "Opgaver til Løsning", Nyt Tidsskrift for Matematik (in Danish), 8 (A): 48, 1897, JSTOR 24528123, problem 266.

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