unit 3: volume and optimization. mfm1p learning goals: i can determine the volume of prisms i can...
TRANSCRIPT
Unit 3: Volume and
Optimization
MFM1P
Learning Goals:
I can determine the volume of prisms I can determine the volume of
cylinders I can use Pythagorean Theorem to
find missing measurements required for calculating volume
Lesson 1: Volume of Prisms and Cylinders
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Lesson 1: Volume of Prisms and Cylinders
Prism: Has two identical ends and two flat sides
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Lesson 1: Volume of Prisms and Cylinders
Pyramid: Has a polygon base and triangular sides that meet at a point
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Lesson 1: Volume of Prisms and Cylinders
To calculate the volume of a prism or cylinder, imagine repeatedly adding the base area of the shape.
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Lesson 1: Volume of Prisms and Cylinders
Volume of a prism or a cylinder = area of base height
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Lesson 1: Volume of Prisms and Cylinders
Step one: Calculate the area of the baseStep two: Multiply the base area by the height
4 cm
5 cm
6 cm
MFM1PLesson 1: Volume of Prisms and Cylinders
EQAO Formula Sheet
MFM1P
Lesson 1: Volume of Prisms and Cylinders
EQAO Formula Sheet
MFM1P
Lesson 1: Volume of Prisms and Cylinders
MFM1P
Lesson 1: Volume of Prisms and Cylinders
MFM1P
Lesson 1: Volume of Prisms and Cylinders
MFM1P
Lesson 1: Volume of Prisms and Cylinders
MFM1P
Lesson 1: Volume of Prisms and Cylinders
How do you calculate the area of a triangle? (This is important to know if you have a triangular based prism)
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Lesson 1: Volume of Prisms and Cylinders
Determine the area of this triangle
6 cm
10 cm
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Lesson 1: Volume of Prisms and Cylinders
Determine the volume of this triangular prism
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Lesson 1: Volume of Prisms and Cylinders
Determine the volume of this cylinder
MFM1P
Lesson 1: Volume of Prisms and Cylinders
Homework
Pg. 23 # 1- 8