unit 7: 3d figures name 10.1 & 10.2 2d formulas & area of ......11.1 solid geometry...
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Unit 7: 3D Figures NAME _______________________
10.1 & 10.2 2D formulas & Area of Regular Polygon
Name the polygon with the given number of sides:
3-sided:_______________________ 4-sided: ______________________ 5-sided: ______________________
6-sided:_______________________ 7-sided:_______________________ 8-sided:_______________________
9-sided:_______________________ 10-sided: ______________________
Find the indicated value for each figure.
1. Parallelogram. A=_____________ 2. Trapezoid.
3. Kite. Diagonals 12in and 18 in. 4. Cirlce. A=_______________________
A=______________________
5. Find the area of a 30◦-60◦-90◦ right triangle with 6. Regular polygon.
height of 4 inches.
A=______________________ A=________________________
17 ft
11 ft
7 ft
7. Rhombus. Diagonals 27 ft. and 56 ft. 8. Regular Octagon. Find the area if the apothem
A = ______________________ is 6 meters and side length of 5 meters.
A = ________________________
9. Trapezoid. A = 231 mm2, b2=_____________ 10. Kite. A = _________________________
11. Circle. C = 22π 12. Regular Pentagon. Find the area if side length
A = __________________ is 8 cm. A = __________________________
10.1 and 10.2 Homework: homework worksheet
11.1 Solid Geometry
Three-dimensional figures, or solids, can be made up of flat or curved surfaces. Each flat surface
is called a __________. An __________ is the segment that is the intersection of two faces. A __________ is the point that is the intersection of three or more faces.
Label the picture with the correct term!
A ___________ is a prism with six square faces. Other prisms and pyramids are named for the shape of their bases.
Sketch each of the following solids.
Triangular Prism Rectangular Prism Pentagonal Prism
Hexagonal Prism Triangular Pyramid Rectangular Pyramid
Pentagonal Pyramid Hexagonal Pyramid
Example 1: Classify the figure. Name the vertices, edges, and bases.
A ________ is a diagram of the surfaces of a three-dimensional figure that can be
folded to form the three-dimensional figure. To identify a three-dimensional figure from a net, look at the number of faces and the shape of each face. Example 2: Describe the three-dimensional figure that can be made from the given nets.
a. b.
A ___________________ is the intersection of a three-dimensional figure and a
plane.
Example 3: Describe each cross-section.
a. b. c.
Homework 11.1: homework worksheet
11.2 Volume of Prisms and Cylinders
Objectives:
Learn and apply the formula for the volume of a prism
Learn and apply the formula for the volume of a cylinder.
The volume of a three-dimensional figure is the number of nonoverlapping unit
cubes of a given size that will exactly fill the interior.
Cavalieri’s principle says that if two three-dimensional figures have the same height and
have the same cross-sectional area at every level, they have the same volume.
Example 1: Finding Volumes of Prisms
Find the volume of the prism. Round to the nearest tenth, if necessary.
B = ______________
h = _____________
Example 2: Finding Volumes of Prisms
Find the volume of a cube with edge length 15 in. Round to the nearest tenth, if necessary.
B = ______________
h = ______________
Example 3: Finding Volumes of Prisms
Find the volume of the right regular hexagonal prism. Round to the nearest tenth, if necessary.
B = ___________
h = ___________
Cavalieri’s principle also relates to cylinders. The two stacks have the same number of
CDs, so they have the same volume.
Example 4: Finding Volumes of Cylinders
Find the volume of the cylinder. Give your answers in terms of and rounded to the
nearest tenth.
B = _____________
h = _____________
Example 5: Finding Volumes of Cylinders
Find the volume of a cylinder with base area 121 cm2 and a height equal to twice the
radius. Give your answer in terms of and rounded to the nearest tenth.
B = ____________
h = ____________
Example 6: Finding Volumes of Composite Three-Dimensional Figures.
The volume of a composite three-dimensional figure is the sum of the volumes of the individual figures.
Find the volume of the composite figure. Round to the nearest tenth.
Find the volume of each figure. Round to the nearest tenth, if necessary.
1. a right rectangular prism with length 14 cm, width 11 cm, and height 18 cm
2. a cube with edge length 22 ft
3. a regular hexagonal prism with base edge length 10 ft and height 10 ft
4. a cylinder with diameter 16 in. and height 7 in.
HOMEWORK: 11.2 homework worksheet
11.3 & 11.4 – Volume of Pyramids, Cones & Spheres
Example 1: Find the volume of each pyramid. Round to the nearest hundredth if necessary.
B = __________________ B = _______________
h = __________________ h = _______________
10 ft 9 cm
Example 2: Find the volume of each cone. Leave answer in terms of pi and rounded to the nearest hundredth. (HINT:
slant height = 34 cm)
B = __________________
h = __________________
B = _________________
h = _________________
A ______________ is the locus of points in space that are a fixed distance from a
given point called the ____________________. A ________________ connects the center of the sphere to any point on the sphere. A ____________ is half of a
sphere. A ______________ divides a sphere into two hemispheres.
What is the length of the diameter and radius of the two circles shown below?
Example 3: Find the volume of each sphere. Round to the nearest tenth.
.
Find the volume of each figure. Round to the nearest tenth, if necessary. 1. a rectangular pyramid with length 25 cm, width 17 cm, and height 21 cm.
2. a cone with diameter 22 cm and height 30 cm.
HOMEWORK: 11.3 and 11.4 homework worksheet
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