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Chapter 11 Vocab Review
By Amber Nicholson
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21 questions
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Throughout this review, round all answers to the nearest hundredth, if necessary. Use 3.14 for pi.
Question 1
1.
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
Question 2
2.
What is the mathematical name of the solid below?
Question 3
3.
How many faces does the solid have?
Question 4
4.
How many edges does the solid have?
Question 5
5.
How many vertices does the solid have?
Question 6
6.
What is the mathematical name of the solid below?
Question 7
7.
How many faces does the solid have?
Question 8
8.
How many edges does the solid have?
Question 9
9.
How many vertices does the solid have?
Question 10
10.
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
visibility
View drawing
Question 11
11.
A polyhedron has 12 vertices and 16 edges. Using Euler's Theorem, determine how many faces it has.
visibility
View drawing
Question 12
12.
A polyhedron has 29 faces and 81 edges. Using Euler's Theorem, determine how many vertices it has.
visibility
View drawing
Question 13
13.
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of edges.
visibility
View drawing
Question 14
14.
A solid with 10 faces is formed by 2 rectangles, 3 hexagons, and 5 octagons. Find the number of vertices.
visibility
View drawing
Question 15
15.
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of edges.
visibility
View drawing
Question 16
16.
A solid with 18 faces is formed by 6 triangles, 8 pentagons, and 4 hexagons. Find the number of vertices.
visibility
View drawing
Question 17
17.
Describe the cross section formed by the intersection of the plane and the solid below.
Question 18
18.
Describe the cross section formed by the intersection of the plane and the solid below.
Question 19
19.
Name the solid that can be formed by the net shown below.
Question 20
20.
Name the solid that can be formed by the net shown below.
Question 21
21.
Name the solid that can be formed by the net shown below.