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Surface Area and Volume of Pyramids

Surface area and volume of solids with a base and lateral faces that meet at a common vertex.

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Practice Surface Area and Volume of Pyramids
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Pyramids

What if you were given a solid three-dimensional figure with one base and lateral faces that meet at a common vertex? How could you determine how much two-dimensional and three-dimensional space that figure occupies? After completing this Concept, you'll be able to find the surface area and volume of a pyramid.

Guidance

A pyramid is a solid with one base and lateral faces that meet at a common vertex. The edges between the lateral faces are lateral edges. The edges between the base and the lateral faces are base edges.

A regular pyramid is a pyramid where the base is a regular polygon. All regular pyramids also have a slant height , which is the height of a lateral face. A non-regular pyramid does not have a slant height.

Surface Area

Surface area is a two-dimensional measurement that is the total area of all surfaces that bound a solid. The basic unit of area is the square unit. For pyramids, we will need to use the slant height, which is labeled $l$ , to find the area of each triangular face.

Surface Area of a Regular Pyramid: If $B$ is the area of the base, and $n$ is the number of triangles, then $SA=B+\frac{1}{2} nbl$ .

The net shows the surface area of a pyramid. If you ever forget the formula, use the net.

Volume

To find the volume of any solid you must figure out how much space it occupies. The basic unit of volume is the cubic unit.

Volume of a Pyramid: $V=\frac{1}{3} Bh$ where $B$ is the area of the base.

Example A

Find the slant height of the square pyramid.

The slant height is the hypotenuse of the right triangle formed by the height and half the base length. Use the Pythagorean Theorem.

$8^2+24^2 &= l^2\\640 &= l^2\\ l = \sqrt{640} & = 8\sqrt{10}$

Example B

Find the surface area of the pyramid from Example A.

The total surface area of the four triangular faces is $4 \left(\frac{1}{2} bl \right)=2(16)\left(8\sqrt{10}\right)=256 \sqrt{10}$ . To find the total surface area, we also need the area of the base, which is $16^2 = 256$ . The total surface area is $256 \sqrt{10}+256 \approx 1065.54 \ units^2$ .

Example C

Find the volume of the pyramid.

$V=\frac{1}{3} (12^2 )12=576 \ units^3$

Guided Practice

1. Find the surface area of the regular triangular pyramid.

2. If the lateral surface area of a regular square pyramid is $72 \ ft^2$ and the base edge is equal to the slant height. What is the length of the base edge?

3. Find the height and then volume of the pyramid.

4. Find the volume of the pyramid with a right triangle as its base.

5. A rectangular pyramid has a base area of $56 \ cm^2$ and a volume of $224 \ cm^3$ . What is the height of the pyramid?

1. “Regular” tells us the base is an equilateral triangle. Let’s draw it and find its area.

$B=\frac{1}{2} \cdot 8 \cdot 4\sqrt{3}=16\sqrt{3}$

The surface area is:

$SA=16\sqrt{3}+\frac{1}{2} \cdot 3 \cdot 8 \cdot 18=16\sqrt{3}+216 \approx 243.71$

2. In the formula for surface area, the lateral surface area is $\frac{1}{2} nbl$ . We know that $n = 4$ and $b = l$ . Let’s solve for $b$ .

$\frac{1}{2} nbl &= 72 \ ft^2\\\frac{1}{2} (4) b^2 &= 72\\2b^2 &= 72\\b^2 &= 36\\b &= 6 feet$

3. In this example, we are given the slant height. Use the Pythagorean Theorem.

$7^2+h^2 &=25^2\\h^2 &= 576\\h &= 24$

$V=\frac{1}{3} (14^2)(24)=1568 \ units^3$ .

4. The base of the pyramid is a right triangle. The area of the base is $\frac{1}{2} (14)(8)=56 \ units^2$ .

$V=\frac{1}{3} (56)(17) \approx 317.33 \ units^3$

5. Use the formula for volume and plug in the information we were given. Then solve for the height.

$V &= \frac{1}{3} Bh\\224 &= \frac{1}{3} \cdot 56h\\12 &= h$

Practice

Fill in the blanks about the diagram to the left.

1. $x$ is the ___________.
2. The slant height is ________.
3. $y$ is the ___________.
4. The height is ________.
5. The base is _______.
6. The base edge is ________.

For questions 7-8, sketch each of the following solids and answer the question. Your drawings should be to scale, but not one-to-one. Leave your answer in simplest radical form.

1. Draw a square pyramid with an edge length of 9 in and a 12 in height. Find the slant height.
2. Draw an equilateral triangle pyramid with an edge length of 6 cm and a height of 6 cm. What is the height of the base?

Find the slant height, $l$ , of one lateral face in each pyramid. Round your answer to the nearest hundredth.

Find the surface area and volume of the regular pyramid. Round your answers to the nearest hundredth.

1. A regular tetrahedron has four equilateral triangles as its faces.
1. Find the height of one of the faces if the edge length is 6 units.
2. Find the area of one face.
3. Find the total surface area of the regular tetrahedron.
2. If the surface area of a square pyramid is $40 \ ft^2$ and the base edge is 4 ft, what is the slant height?
3. If the lateral area of a square pyramid is $800 \ in^2$ and the slant height is 16 in, what is the length of the base edge?
4. If the lateral area of a regular triangle pyramid is $252 \ in^2$ and the base edge is 8 in, what is the slant height?
5. The volume of a square pyramid is 72 square inches and the base edge is 4 inches. What is the height?
6. The volume of a triangle pyramid is $170 \ in^3$ and the base area is $34 \ in^2$ . What is the height of the pyramid?

Vocabulary Language: English Spanish

lateral edges

lateral edges

Edges between the lateral faces of a prism.
lateral faces

lateral faces

The non-base faces of a prism.
Pyramid

Pyramid

A pyramid is a three-dimensional object with a base that is a polygon and triangular faces that meet at one vertex.
regular pyramid

regular pyramid

is a pyramid where the base is a regular polygon. All regular pyramids also have a slant height, which is the height of a lateral face.
Cone

Cone

A cone is a solid three-dimensional figure with a circular base and one vertex.
Vertex

Vertex

A vertex is a point of intersection of the lines or rays that form an angle.
Volume

Volume

Volume is the amount of space inside the bounds of a three-dimensional object.
Cavalieri's Principle

Cavalieri's Principle

States that if two solids have the same height and the same cross-sectional area at every level, then they will have the same volume.
Base Edge

Base Edge

The base edge is the edge between the base and the lateral faces of a prism.
Slant Height

Slant Height

The slant height is the height of a lateral face of a pyramid.
Apothem

Apothem

The apothem of a regular polygon is a perpendicular segment from the center point of the polygon to the midpoint of one of its sides.