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In non-Euclidean geometry, squares are more generally polygons with 4 equal sides and equal angles.In spherical geometry, a square is a polygon whose edges are great circle arcs of equal distance, which meet at equal angles. Unlike the square of plane geometry, the angles of such a square are larger than a right angle. Larger spherical squares have larger angles. In hyperbolic geometry, squares with right angles do not exist. Rather, squares in hyperbolic geometry have angles of less than right angles. Larger hyperbolic squares have smaller angles. Squares can tile the hyperbolic plane with 5 around each vertex, with each square having 72-degree internal angles. Six squares can tile the sphere with 3 squares around each vertex and 120-degree internal angles. This is called a spherical cube.

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In non-Euclidean geometry, squares are more generally polygons with 4 equal sides and equal angles.In spherical geometry, a square is a polygon whose edges are great circle arcs of equal distance, which meet at equal angles. Unlike the square of plane geometry, the angles of such a square are larger than a right angle. Larger spherical squares have larger angles. In hyperbolic geometry, squares with right angles do not exist. Rather, squares in hyperbolic geometry have angles of less than right angles. Larger hyperbolic squares have smaller angles. Squares can tile the hyperbolic plane with 5 around each vertex, with each square having 72-degree internal angles. Six squares can tile the sphere with 3 squares around each vertex and 120-degree internal angles. This is called a spherical cube.

Interesse in schietsport? Meld je dan bij ons aan.

In non-Euclidean geometry, squares are more generally polygons with 4 equal sides and equal angles.In spherical geometry, a square is a polygon whose edges are great circle arcs of equal distance, which meet at equal angles. Unlike the square of plane geometry, the angles of such a square are larger than a right angle. Larger spherical squares have larger angles. In hyperbolic geometry, squares with right angles do not exist. Rather, squares in hyperbolic geometry have angles of less than right angles. Larger hyperbolic squares have smaller angles. Squares can tile the hyperbolic plane with 5 around each vertex, with each square having 72-degree internal angles. Six squares can tile the sphere with 3 squares around each vertex and 120-degree internal angles. This is called a spherical cube.

Interesse in schietsport? Meld je dan bij ons aan.