Use the following Media4Math resources with this Illustrative Math lesson.
Thumbnail Image | Title | Body | Curriculum Nodes |
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Definition--Circle Concepts--Circular Composite Figures |
Circular Composite FiguresTopicCircles DefinitionCircular composite figures are shapes that include circles or parts of circles combined with other geometric figures. |
Definition of a Circle | |
Definition--Polygon Concepts--Composite Figure |
Compound FigureTopicPolygons DefinitionA compound figure is a geometric shape that is composed of two or more simple polygons combined to form a more complex figure. DescriptionIn geometry, a compound figure is a shape that is formed by combining two or more polygons. These figures are significant because they allow for the exploration of more complex shapes and their properties, which can be broken down into simpler, more manageable components. Understanding compound figures is essential for solving problems related to area, perimeter, and other geometric properties. |
Definition of a Polygon | |
Definition--Polygon Concepts--Compound Figure |
Compound FigureTopicPolygons DefinitionA polygon is a closed two-dimensional shape with straight line segments, while a compound figure is a shape formed by combining two or more geometric figures. |
Definition of a Polygon | |
Definition--Polygon Concepts--Compound Figure from Pattern Blocks |
Compound Figure from Pattern BlocksTopicPolygons DefinitionA compound figure, also known as a composite figure, is a shape that is made up of two or more simple geometric figures such as triangles, rectangles, squares, parallelograms, trapezoids, and circles. |
Definition of a Polygon | |
Holiday Math Clip Art--Candy Box |
Holiday Math Clip Art--Candy BoxTopicGeometry DescriptionThis holiday-themed math clip art features a festive candy box, offering a delightful blend of seasonal cheer and geometric concepts. The image can be broken down into its fundamental geometric components, showcasing both 2D and 3D elements. In 2D, the candy box presents a cardioid shape, resembling a heart or rounded triangle. This unique curve can be explored in terms of its properties and equations. The box's decorative elements, such as bows or patterns, may incorporate additional 2D shapes like circles, ovals, or polygons. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Candy Cane |
Holiday Math Clip Art--Candy CaneTopicGeometry Description
This holiday-themed math clip art showcases a classic candy cane, a perfect subject for exploring various geometric concepts. The candy cane's distinctive shape offers rich opportunities for analyzing both 2D and 3D geometric elements. In 2D, the candy cane can be broken down into rectangles and semicircles. The straight part of the cane forms a rectangle, while the curved hook at the top creates a semicircle. This allows for discussions about properties of these shapes, such as area calculations and the relationship between a semicircle's diameter and its arc length. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Candy Mint |
Holiday Math Clip Art--Candy Mint
This is part of a collection of math clip art images that take holiday images and render them as two- and three-dimensional geometric objects. To see the complete collection of these images, click on this link. Note: The download is a PNG file.Math Clip Art LibraryTo see the complete Math Clip Art Library, click on this link. Related ResourcesTo see resources related to this topic click on the Related Resources tab above. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Chocolate Bar |
Holiday Math Clip Art--Chocolate Bar
This is part of a collection of math clip art images that take holiday images and render them as two- and three-dimensional geometric objects. To see the complete collection of these images, click on this link. Note: The download is a PNG file.Math Clip Art LibraryTo see the complete Math Clip Art Library, click on this link. Related ResourcesTo see resources related to this topic click on the Related Resources tab above. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Chocolate Candy |
Holiday Math Clip Art--Chocolate CandyTopicGeometry DescriptionThis holiday-themed math clip art features chocolate candy, providing an excellent opportunity to explore geometric concepts in both 2D and 3D contexts. The simplicity of the candy's shape belies the rich mathematical discussions it can inspire. In 2D, the chocolate candy presents as a perfect circle. This allows for exploration of circular properties such as diameter, radius, circumference, and area. The candy's surface design, which may include patterns or decorations, can introduce concepts like symmetry, geometric transformations, or even basic trigonometry if the designs include angular elements. |
Size, 3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Christmas Tree |
Holiday Math Clip Art--Christmas TreeTopicGeometry DescriptionThis holiday-themed math clip art showcases a Christmas tree, offering a festive way to explore various geometric concepts in both 2D and 3D contexts. The tree's distinctive shape provides rich opportunities for mathematical analysis and discussion. In 2D, the Christmas tree can be broken down into a triangle for the main body and a rectangle for the trunk. This allows for exploration of properties such as angles, base, height, area, and perimeter. The decorations on the tree can introduce concepts of symmetry, patterns, and even coordinate geometry if we imagine the ornaments as points on a plane. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Dreidel |
Holiday Math Clip Art--DreidelTopicGeometry DescriptionThis holiday-themed math clip art features a dreidel, a traditional Hanukkah toy that offers a unique opportunity to explore geometric concepts in both 2D and 3D contexts. The dreidel's distinctive shape provides a rich foundation for various mathematical discussions. In 2D, the dreidel can be broken down into several shapes. The body presents as a square or rectangle, the top as a smaller rectangle, and the point at the bottom as a triangle. This allows for exploration of properties such as angles, sides, area, and perimeter. The Hebrew letters on each face introduce concepts of symmetry and rotational transformations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Drum |
Holiday Math Clip Art--DrumTopicGeometry DescriptionThis holiday-themed math clip art features a festive drum, offering an excellent opportunity to explore geometric concepts in both 2D and 3D contexts. The drum's simple yet distinctive shape provides a rich foundation for various mathematical discussions. In 2D, the drum can be broken down into basic shapes. The top and bottom of the drum present as circles, while the side forms a rectangle. This allows for exploration of properties such as diameter, radius, circumference, and area for circles, as well as length, width, and perimeter for rectangles. The decorative elements on the drum's surface can introduce concepts of symmetry and patterns. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Gift Box |
Holiday Math Clip Art--Gift Box
This is part of a collection of math clip art images that take holiday images and render them as two- and three-dimensional geometric objects. To see the complete collection of these images, click on this link. Note: The download is a PNG file.Math Clip Art LibraryTo see the complete Math Clip Art Library, click on this link. Related ResourcesTo see resources related to this topic click on the Related Resources tab above. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Gingerbread House |
Holiday Math Clip Art--Gingerbread HouseTopicGeometry DescriptionThis holiday-themed math clip art features a gingerbread house, offering a delightful way to explore geometric concepts in both 2D and 3D contexts. The gingerbread house's structure provides a rich foundation for various mathematical discussions, combining architectural elements with festive design. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Gingerbread Man |
Holiday Math Clip Art--Gingerbread ManTopicGeometry DescriptionThis holiday-themed math clip art showcases a gingerbread man, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The gingerbread man's shape provides a unique opportunity to discuss various geometric forms and their combinations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Candy Corn |
Holiday Math Clip Art--Halloween--Candy CornTopicGeometry DescriptionThis Halloween-themed math clip art features candy corn, offering a seasonal way to explore geometric concepts in both 2D and 3D contexts. The distinctive shape of candy corn provides an excellent opportunity to discuss various geometric forms and their properties. In 2D, candy corn is typically represented as a triangle. This allows for exploration of properties such as angles, base, height, area, and perimeter. The three-color design of candy corn also introduces the concept of dividing a triangle into smaller triangles, which can lead to discussions about similarity and proportions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Chocolate Bar |
Holiday Math Clip Art--Chocolate BarTopicGeometry DescriptionThis holiday-themed math clip art showcases a chocolate bar, offering a delightful way to explore geometric concepts in both 2D and 3D contexts. The chocolate bar's simple yet structured shape provides an excellent foundation for various mathematical discussions. In 2D, the chocolate bar presents as a rectangle. This allows for exploration of properties such as length, width, perimeter, and area. The individual chocolate squares within the bar create a grid, introducing concepts of arrays, rows, and columns. This grid structure can also be used to discuss fractions and ratios. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Lollipop |
Holiday Math Clip Art--Halloween--LollipopTopicGeometry DescriptionThis Halloween-themed math clip art features a lollipop, offering a sweet way to explore geometric concepts in both 2D and 3D contexts. The lollipop's simple yet distinctive shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Mint |
Holiday Math Clip Art--Candy MintTopicGeometry DescriptionThis holiday-themed math clip art features a festive candy mint, providing an excellent opportunity to explore geometric concepts in both 2D and 3D contexts. The simplicity of the mint's shape belies the rich mathematical discussions it can inspire. In 2D, the candy mint presents as a perfect circle. This allows for exploration of circular properties such as diameter, radius, circumference, and area. The mint's surface design, often featuring spirals or radial patterns, can introduce concepts like rotational symmetry and geometric transformations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Moon |
Holiday Math Clip Art--Halloween--MoonTopicGeometry DescriptionThis Halloween-themed math clip art features a moon, offering a celestial way to explore geometric concepts in both 2D and 3D contexts. The moon's simple yet evocative shape provides a rich foundation for various mathematical discussions, particularly fitting for the spooky atmosphere of Halloween. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Pumpkin |
Holiday Math Clip Art--Halloween--PumpkinTopicGeometry DescriptionThis Halloween-themed math clip art showcases a pumpkin, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The pumpkin's distinctive shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Title Page |
Holiday Math Clip Art--Halloween--Title PageTopicGeometry DescriptionThis Halloween-themed math clip art features a title page, offering a spooky introduction to explore geometric concepts in both 2D and 3D contexts. While a title page might not immediately suggest geometric analysis, it provides an opportunity to discuss layout, design, and the geometric principles underlying visual communication. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Vampire Coffin |
Holiday Math Clip Art--Halloween--Vampire CoffinTopicGeometry DescriptionThis Halloween-themed math clip art features a vampire coffin, offering a spooky way to explore geometric concepts in both 2D and 3D contexts. The coffin's unique shape provides an excellent opportunity to discuss various geometric forms and their properties. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Halloween--Witch's Hat |
Holiday Math Clip Art--Halloween--Witch's HatTopicGeometry DescriptionThis Halloween-themed math clip art features a witch's hat, offering a spooky way to explore geometric concepts in both 2D and 3D contexts. The distinctive shape of the witch's hat provides an excellent opportunity to discuss various geometric forms and their properties. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Holiday Lights |
Holiday Math Clip Art--Holiday LightsTopicGeometry DescriptionThis holiday-themed math clip art features festive lights, offering a bright way to explore geometric concepts in both 2D and 3D contexts. The string of lights provides a unique opportunity to discuss various geometric forms and their combinations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Lollipop |
Holiday Math Clip Art--Lollipop
This is part of a collection of math clip art images that take holiday images and render them as two- and three-dimensional geometric objects. To see the complete collection of these images, click on this link. Note: The download is a PNG file.Math Clip Art LibraryTo see the complete Math Clip Art Library, click on this link. Related ResourcesTo see resources related to this topic click on the Related Resources tab above. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Lollipop 2 |
Holiday Math Clip Art--Lollipop 2TopicGeometry DescriptionThis holiday-themed math clip art features another representation of a lollipop, offering a different perspective on blending sweet imagery with mathematical precision. The image demonstrates how basic geometric shapes can be combined in various ways to create recognizable objects, reinforcing the connection between abstract geometry and everyday items. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--North Pole |
Holiday Math Clip Art--North PoleTopicGeometry DescriptionThis holiday-themed math clip art features a North Pole sign, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The North Pole sign provides a unique opportunity to discuss various geometric forms and their combinations. In 2D, the North Pole sign can be broken down into basic shapes. The pole itself is represented by a rectangle, while the the top is represented by a circle. This composition allows for exploration of properties such as length, width, area, and perimeter for rectangles, as well as diameter and circumference for circles. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Ornament |
Holiday Math Clip Art--OrnamentTopicGeometry DescriptionThis holiday-themed math clip art features a Christmas ornament, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The ornament's simple yet distinctive shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Present |
Holiday Math Clip Art--Gift BoxTopicGeometry DescriptionThis holiday-themed math clip art showcases a gift box, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The gift box's simple yet distinctive shape provides a rich foundation for various mathematical discussions. In 2D, the gift box can be broken down into basic shapes. The main body of the box is likely represented by a square or rectangle, while the ribbon and bow might be depicted using additional rectangles or curved shapes. This allows for exploration of properties such as length, width, area, and perimeter. The symmetry of the gift box design can also be a point of discussion. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Snow Globe |
Holiday Math Clip Art--Snow GlobeTopicGeometry DescriptionThis holiday-themed math clip art features a snow globe, offering a magical way to explore geometric concepts in both 2D and 3D contexts. The snow globe's unique shape provides an excellent opportunity to discuss various geometric forms and their combinations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Snow Man |
Holiday Math Clip Art--Snow ManTopicGeometry DescriptionThis holiday-themed math clip art showcases a snowman, offering a delightful way to explore geometric concepts in both 2D and 3D contexts. The snowman's simple yet distinctive shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Snowflake |
Holiday Math Clip Art--SnowflakeTopicGeometry DescriptionThis holiday-themed math clip art features a snowflake, offering a beautiful way to explore geometric concepts primarily in 2D contexts. The snowflake's intricate and symmetrical shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Star |
Holiday Math Clip Art--StarTopicGeometry DescriptionThis holiday-themed math clip art showcases a star, offering a brilliant way to explore geometric concepts primarily in 2D contexts, with some interesting 3D applications. The star's distinctive shape provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Stocking |
Holiday Math Clip Art--StockingTopicGeometry DescriptionThis holiday-themed math clip art features a Christmas stocking, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The stocking's unique shape provides an excellent opportunity to discuss various geometric forms and their combinations. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Toy Soldier |
Holiday Math Clip Art--Toy SoldierTopicGeometry Description
This holiday-themed math clip art showcases a toy soldier, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The toy soldier's complex shape provides a rich foundation for various mathematical discussions, combining multiple geometric forms. |
3-Dimensional Figures and Applications of 3D Geometry | |
Holiday Math Clip Art--Wreath |
Holiday Math Clip Art--WreathTopicGeometry DescriptionThis holiday-themed math clip art features a wreath, offering a festive way to explore geometric concepts in both 2D and 3D contexts. The wreath's circular shape with its intricate details provides a rich foundation for various mathematical discussions. |
3-Dimensional Figures and Applications of 3D Geometry | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 1 |
Math Clip Art--Composite Figures--Composite Figure 1TopicGeometry Concepts DescriptionThis image depicts a composite figure consisting of a square and a triangle. Composite figures are essential in geometry as they allow students to apply area and perimeter formulas to more complex shapes. To calculate the total area of this figure, we would add the area of the square (s²) to the area of the triangle (½bh). The perimeter would involve adding the lengths of all outer sides. This combination of shapes is common in architecture and design, demonstrating how basic geometric shapes can be combined to create more complex structures. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 1 |
Math Clip Art--Composite Figures--Composite Figure 1TopicGeometry Concepts DescriptionThis image depicts a composite figure consisting of a square and a triangle. Composite figures are essential in geometry as they allow students to apply area and perimeter formulas to more complex shapes. To calculate the total area of this figure, we would add the area of the square (s²) to the area of the triangle (½bh). The perimeter would involve adding the lengths of all outer sides. This combination of shapes is common in architecture and design, demonstrating how basic geometric shapes can be combined to create more complex structures. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 2 |
TopicGeometry Concepts DescriptionThis image illustrates a composite figure composed of one rectangle and one semicircle. This combination of shapes is often seen in architectural designs and mechanical parts. To calculate the total area, we would add the areas of the rectangle (l * w) and the semicircle (πr² / 2, where r is half the width of the rectangle). The perimeter calculation would involve the straight edges of the rectangle and the curved edge of the semicircle. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 2 |
TopicGeometry Concepts DescriptionThis image illustrates a composite figure composed of one rectangle and one semicircle. This combination of shapes is often seen in architectural designs and mechanical parts. To calculate the total area, we would add the areas of the rectangle (l * w) and the semicircle (πr² / 2, where r is half the width of the rectangle). The perimeter calculation would involve the straight edges of the rectangle and the curved edge of the semicircle. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 3 |
Math Clip Art--Composite Figures--Composite Figure 3TopicGeometry Concepts DescriptionThis image illustrates a composite figure consisting of a semicircle and a triangle. Each of these shapes is a unique component, combining to create a more complex geometric form. To calculate the total area of this composite figure, we would add the area of the semicircle (πr²/2) to the area of the triangle (½bh). The perimeter calculation would involve the circumference of the semicircle plus the lengths of the triangle's sides that are not overlapping with the semicircle. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 3 |
Math Clip Art--Composite Figures--Composite Figure 3TopicGeometry Concepts DescriptionThis image illustrates a composite figure consisting of a semicircle and a triangle. Each of these shapes is a unique component, combining to create a more complex geometric form. To calculate the total area of this composite figure, we would add the area of the semicircle (πr²/2) to the area of the triangle (½bh). The perimeter calculation would involve the circumference of the semicircle plus the lengths of the triangle's sides that are not overlapping with the semicircle. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 4 |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 4TopicGeometry Concepts DescriptionThis image depicts a composite figure consisting of a regular pentagon and a square. This combination of shapes demonstrates how different polygons can be combined to create more complex geometric figures. To calculate the total area of this composite figure, we would add the area of the pentagon (given by the formula A = ¼√(25+10√5)s², where s is the side length) to the area of the square (s²). The perimeter would involve summing the lengths of all outer sides of both shapes that are not shared. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 4 |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 4TopicGeometry Concepts DescriptionThis image depicts a composite figure consisting of a regular pentagon and a square. This combination of shapes demonstrates how different polygons can be combined to create more complex geometric figures. To calculate the total area of this composite figure, we would add the area of the pentagon (given by the formula A = ¼√(25+10√5)s², where s is the side length) to the area of the square (s²). The perimeter would involve summing the lengths of all outer sides of both shapes that are not shared. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 5 |
Math Clip Art--Composite Figures--Composite Figure 5TopicGeometry Concepts DescriptionThis image illustrates a composite figure composed of two rectangles that form an L-shape. This configuration is commonly seen in floor plans, furniture design, and architectural layouts. To calculate the total area of this L-shaped figure, we would add the areas of the two rectangles (l * w for each). The perimeter would involve summing the lengths of all outer sides, being careful not to double-count the shared edge. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 5 |
Math Clip Art--Composite Figures--Composite Figure 5TopicGeometry Concepts DescriptionThis image illustrates a composite figure composed of two rectangles that form an L-shape. This configuration is commonly seen in floor plans, furniture design, and architectural layouts. To calculate the total area of this L-shaped figure, we would add the areas of the two rectangles (l * w for each). The perimeter would involve summing the lengths of all outer sides, being careful not to double-count the shared edge. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 6 |
Math Clip Art--Composite Figures--Composite Figure 6TopicGeometry Concepts DescriptionThis image shows a composite figure made up of two overlapping rectangles that form a cross shape. This type of configuration is often seen in architectural designs, religious symbols, and logo designs. To find the total area of this cross-shaped figure, we would add the areas of the two rectangles (l * w for each) and then subtract the area of the overlapping region to avoid double-counting. The perimeter calculation would involve summing the lengths of all outer edges of the cross shape. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 6 |
Math Clip Art--Composite Figures--Composite Figure 6TopicGeometry Concepts DescriptionThis image shows a composite figure made up of two overlapping rectangles that form a cross shape. This type of configuration is often seen in architectural designs, religious symbols, and logo designs. To find the total area of this cross-shaped figure, we would add the areas of the two rectangles (l * w for each) and then subtract the area of the overlapping region to avoid double-counting. The perimeter calculation would involve summing the lengths of all outer edges of the cross shape. |
Applications of Polygons | |
Math Clip Art--Geometry Concepts--Composite Figures--Composite Figure 7 |
Math Clip Art--Composite Figures--Composite Figure 7TopicGeometry Concepts DescriptionThis image depicts a composite figure consisting of two adjacent regular hexagons. This configuration is often found in nature, such as in honeycomb structures, and is used in various design and engineering applications. To calculate the total area of this figure, we would add the areas of the two hexagons (given by the formula A = (3√3 * s²) / 2, where s is the side length). The perimeter would involve summing the lengths of all outer sides, excluding the shared edge between the hexagons. |
Applications of Polygons |