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- CONGRUENCE Definition Meaning - Merriam-Webster
The meaning of CONGRUENCE is the quality or state of agreeing, coinciding, or being congruent How to use congruence in a sentence
- Congruence (geometry) - Wikipedia
In geometry, two figures or objects are congruent if they have the same shape and size, or if one has the same shape and size as the mirror image of the other [1]
- CONGRUENCE | English meaning - Cambridge Dictionary
CONGRUENCE definition: 1 the quality of being similar to or in agreement with something: 2 the quality of being similar… Learn more
- Congruence | Geometry, Transformations Symmetry | Britannica
Two geometric figures are said to be congruent, or to be in the relation of congruence, if it is possible to superpose one of them on the other so that they coincide
- Congruent (Congruence) - Meaning, Definition, Examples
In geometry, congruent means identical in shape and size Congruence can be applied to line segments, angles, and figures Any two line segments are said to be congruent if they are equal in length Two angles are said to be congruent if they are of equal measure
- congruence noun - Definition, pictures, pronunciation and usage notes . . .
Definition of congruence noun from the Oxford Advanced Learner's Dictionary (formal) agreement with something; the state of being similar to something and not in conflict with it synonym compatibility congruence (with something) The results show quite good congruence with recent studies
- Congruent - Math is Fun
When one shape can become another using Turns, Flips and or Slides, then the shapes are Congruent: Turn! Flip! Slide! After any of those transformations (turn, flip or slide), the shape still has the same size, area, angles and line lengths Here are 3 examples of shapes that are Congruent: Congruent or Similar?
- Congruence | Geometry (all content) | Math | Khan Academy
Learn what it means for two figures to be congruent, and how to determine whether two figures are congruent or not Use this immensely important concept to prove various geometric theorems about triangles and parallelograms
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