Geometry, Plane Geometry
Plane Geometry concerns figures and shapes on a flat, two-dimensional surface. It covers properties of points, lines, angles, polygons (like triangles and quadrilaterals), and circles. Questions typically involve proofs, constructions, and calculations related to these elements.
Area Calculation Triangles Circles Symmetry Angle Calculation Pythagorean Theorem Triangle Inequality-
Question
In space, there are 30 non-degenerate vectors. Prove that there are at least 2 such that the angle between them is no greater than 45 degrees.
A. TulpigoSources:Topics:Geometry -> Trigonometry Geometry -> Spherical Geometry Combinatorics -> Pigeonhole Principle Combinatorics -> Combinatorial Geometry Geometry -> Plane Geometry -> Angle Calculation Geometry -> Vectors- Tournament of Towns, 1979-1980, Main, Spring Question 4
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5 Degrees on a Clock
At what time is there a 5-degree angle between the clock hands?
Sources:Topics:Geometry -> Plane Geometry -> Angle Calculation- Beno Arbel Olympiad, 2013, Grade 7 Question 5
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Question
Does there exist a convex quadrilateral such that each of its diagonals divides it into two acute triangles?
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Perpendicular Hands
How many times a day do the hour and minute hands lie on the same line, forming an angle of `180^@`? Are any of these lines perpendicular to each other?
Topics:Logic Proof and Example -> Proof by Contradiction Geometry -> Plane Geometry -> Angle Calculation -
Question
In the plane, a point and `12` lines passing through it are given. Prove that there are two of these lines such that the angle between them is less than `17^@`.
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Question
Given `12` intersecting lines in the plane. Prove that there exist two of these lines such that the angle between them is less than `17^@`.
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Pentagon
In a convex pentagon `ABCDE`, the following holds: `AE=AD`, `AB=AC`, and `angle CAD=angle ABE + angle AEB`.
Let `AM` be the median to the side `BE` in the triangle `ABE`. Prove that `AM` is half the length of the segment `CD`.
Sources:Topics:Geometry -> Plane Geometry -> Angle Calculation Geometry -> Plane Geometry -> Triangles -> Triangle Congruence Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -> Rotation- Tournament of Towns, 1983-1984, Fall, Practice Version, Grades 9-10 Question 2 Points 3
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Question
Given a regular polygon with n vertices. Calculate the number of distinct (non-congruent) triangles whose vertices coincide with the vertices of the polygon.
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Clock Angle
How many minutes after 7:00 will the angle between the hour and minute hands be exactly one degree for the first time?
Note: The clock hands move continuously at a constant speed.Sources:Topics:Arithmetic Algebra -> Word Problems -> Motion Problems Geometry -> Plane Geometry -> Angle Calculation -
Triangles on Lines
Six congruent isosceles triangles are arranged as shown in the figure.
Show that points C, F, and M are collinear.
Sources:Topics:Geometry -> Plane Geometry -> Angle Calculation Geometry -> Plane Geometry -> Triangles -> Triangle Congruence Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -> Parallel Translation / Translation- Gillis Mathematical Olympiad, 2018-2019 Question 3