3D TessellationsĬreate a 3D tessellation using cubes or other 3D shapes. This activity promotes symmetry and pattern recognition skills as kids experiment with different ways to combine shapes to create identical shapes that are symmetrical from a central point. Symmetrical TessellationsĬreate a symmetrical tessellation using one shape. This activity promotes creativity and experimentation as kids explore different ways to combine materials to create varied figures. Use a combination of materials such as paper, stickers, and foam shapes to create a mixed media tessellation. Try using stickers to create a captivating motif! This activity promotes creativity and fine motor skills as kids carefully arrange their stickers to create a pattern of irregular shapes. This activity is a fun and tactile way to explore geometry and patterns using soft, colorful foam shapes that can be easily arranged and rearranged to create different visual stimuli. Use foam shapes to create a tessellation. Pattern blocks are a set of geometric shapes that can be used to create a variety of designs. Use pattern blocks to create tessellations. Learn More: Fun Easy Learning Videos For Kids 7. This activity promotes creativity and problem-solving skills as kids experiment with different ways to fit the shapes together to create a repeating pattern. Tangrams are traditional Chinese puzzles made using seven geometric shapes that can be combined to form a square. Use tangram pieces to create a tessellation. This activity promotes creativity and spatial reasoning by encouraging kids to experiment with different Lego shapes and colors to create a striking pattern. Use Lego blocks to create unique tessellations. This activity promotes observation and critical thinking skills as kids look for shapes in their surroundings that can be combined to create repeating patterns. Go on a shape hunt and identify shapes that can be used to create a tessellation. Mosaic tessellations can be made in a variety of shapes and colors making them a great way to explore color theory and design! This activity requires patience and precision as kids carefully arrange the pieces to create a repeating pattern. Use small pieces of paper or tiles to create a mosaic-style tessellation. This activity promotes creativity and spatial reasoning skills by encouraging kids to explore different shapes and patterns. These tessellations are made by repeating animal shapes that fit seamlessly together. Geometric Animal TessellationsĬombine art and math by creating animal-shaped tessellations. This activity is a fun way to explore geometry and patterns using simple materials like paper and scissors. Turtle.A post shared by intricate and beautiful designs by folding and cutting paper into repeated shapes that fit together without any gaps or overlaps. Turtle.goto(OUTER_RADIUS / 4, -3 * INNER_RADIUS / 2) Turtle.goto(-OUTER_RADIUS / 2, -2 * INNER_RADIUS / 2) Turtle.goto(OUTER_RADIUS / 4, -1 * INNER_RADIUS / 2) Keeping our initial code the same: screen = Screen() (Increase the depth argument to fill the window.) The tessellation you really want is four (not thirds) of these patterns overlaid atop each other. Turtle.goto(-OUTER_RADIUS / 2, -INNER_RADIUS) Rt_row_2(x-size/2,y+size*math.sqrt(3)/2,size,800//(size*3))įirst, let's simplify your three turtle, three function hexagonal tessellation to a single turtle, single recursive function solution: from turtle import Screen, Turtle Here is code: def draw_rhombus(x,y,degree,size,tilt,color):įor i in range(800//int(round(size*math.sqrt(3)))): After that it is repetition of the first and second row. The figure contains three different rhombus shapes (they are the same rhombus in different orientation). To be able to fill each rhombus, it needs to be drawn individually. I would draw based the rhombus shape because it will allow you to fill them with different colors. However, when I loop the program, the turtles trace back the same path as before and it takes a while for it to draw the others. So far, I created 3 hexagons in the center with 3 turtles and used for loops to draw the hexagons around the 3 hexagons. So far, I'm only alternating the angles of the turtles as I run the program and I don't have a definite strategy. I'm not sure how I can create the hexagon pattern recursively. I thought about creating a hexagon pattern first and then dividing the hexagons into thirds. I'm trying to create a rhombus tessellation pattern with the turtle graphics on python that looks like this image:
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