#TESSELLATION ART PROJECT FOR HIGH SCHOOL HOW TO#
Have your students teach another class how to tessellate.(For example, ask them to tell you who is adjacent to them or ask them to label the top right vertex of a shape you provide.) To assess an understanding of the vocabulary, create a quiz, or ask them to perform another project that requires an understanding of the terms.Note how the students follow multi-step directions as well as how they cut and trace (manual dexterity).(These were chosen because each tessellates.) Using the Student Directions worksheet, demonstrate how to transform a shape into something that will also tessellate. Provide students with the Shapes worksheet within the Tessellations packet, which has a copy of a square, a rectangle,a rhombus, and a hexagon on it. Define plane (use a concrete example in the room) and show students how the pattern could continue on that plane if it were to go on beyond the confines of the building (e.g., it could continue as a pattern on the ceiling without any gaps or overlaps even if the ceiling were to continue forever, far beyond the walls of your school).Ģ. Third, tessellations can continue on a plane forever.If students have pointed to a pattern in the room that has a gap or an overlap in it, point out that it does not fit the definition of a tessellation. Second, tessellations do not have gaps or overlaps.Tell students that while those are repeated patterns, only some are tessellations because tessellations are a very specific kind of pattern.
Generate a list of the words one could use to describe these patterns. Ask students to find examples of repeated patterns in the room. Discuss the three basic attributes of tessellations: Ask students to tell you what they know about the word tessellation. Introduce key vocabulary words: tessellation, polygon, angle, plane, vertex and adjacent. Scissors, tape, 11" x 14" paper, crayons, black fine-tip penġ.create a concrete model of a tessellation.be able to understand and define the following terms: tessellation, polygon, angle, plane, vertex, and adjacent.Escher, his art, or the contributions he made to mathematics. have the opportunity to go beyond the immediate lesson and apply artistic creativity, or learn more about M.This geometry lesson is integrated with history and art to engage even the most math resistant of your students and to enlighten everyone about M. The connections between art and math are strong and frequent, yet few students are aware of them.
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