Chapter 11 Vocab Review
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Last updated over 3 years ago
21 questions
1
Match the term with its definition.
Match the term with its definition.
- Icosahedron
- Platonic Solids
- Octahedron
- Dodecahedron
- Tetrahedron
- Cross Section
- Convex Polyhedron
- Concave Polyhedron
- Cube
- Edge
- Vertex
- Face
- Lateral Area
- Prism
- Pyramid
- Cylnder
- Euler
- Sphere
- A polyhedron with two polygon bases and rectangular lateral faces
- A polyhedron made up of four equilateral triangles
- A segment at which two faces of a polyhedron intersect
- The intersection of three or more edges
- A polyhedron made up of six squares
- A polyhedron made up of one polygon base and triangular lateral faces that meet at one vertex
- The intersection of a plane and a solid
- The area of the sides of a polyhedron (Surface Area not including the base(s))
- A polyhedron made up of twenty equilateral triangles
- The polygon that makes up a side of a polyhedron
- A polyhedron made up of twelve regular pentagons
- A polyhedron made up of eight equilateral triangles
- A solid with two circular bases
- The person that discovered the formula F + V = E + 2
- A solid in which all points on its surface are equidistant from its center
- The five regular polyhedra
1
What is the mathematical name of the solid below?
What is the mathematical name of the solid below?
1
How many faces does the solid have?
How many faces does the solid have?
1
How many edges does the solid have?
How many edges does the solid have?
1
How many vertices does the solid have?
How many vertices does the solid have?
1
What is the mathematical name of the solid below?
What is the mathematical name of the solid below?
1
How many faces does the solid have?
How many faces does the solid have?
1
How many edges does the solid have?
How many edges does the solid have?
1
How many vertices does the solid have?
How many vertices does the solid have?
1
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
1
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
1
A polyhedron has 29 faces and 81 edges. Using Euler's Theorem, determine how many vertices it has.
A polyhedron has 29 faces and 81 edges. Using Euler's Theorem, determine how many vertices it has.
1
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of edges.
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of edges.
1
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of vertices.
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of vertices.
1
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of edges.
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of edges.
1
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of vertices.
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of vertices.
1
Describe the cross section formed by the intersection of the plane and the solid below.
Describe the cross section formed by the intersection of the plane and the solid below.
1
Describe the cross section formed by the intersection of the plane and the solid below.
Describe the cross section formed by the intersection of the plane and the solid below.
1
Name the solid that can be formed by the net shown below.
Name the solid that can be formed by the net shown below.
1
Name the solid that can be formed by the net shown below.
Name the solid that can be formed by the net shown below.
1
Name the solid that can be formed by the net shown below.
Name the solid that can be formed by the net shown below.