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Curriculum Tie:
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Summary:
This activity will help students to learn the concept of volume through hands-on activities.
Main Curriculum Tie:
Mathematics - 5th Grade
Standard 4 Objective 2
Recognize, describe, and determine surface area and volume of three-dimensional shapes. Materials:
Invitation to Learn
- Various containers (size
& shape)
Instructional Procedures
- How Much Will
It Hold? (pdf)
- Clear geometric solids
- Rice
- Lentils
- Water
- Funnels
- 50ml graduated
cylinders
- Paper towels
Additional Resources
Books
Math On Call, ISBN 0669457701
Attachments
Background For Teachers:
Volume of a three-dimensional figure is the amount of space inside
the figure. While students can be shown and taught the formula to
determine a volume measurement, they often need an exploration
activity to actually comprehend the more abstract concept. This lesson
may serve as an introduction to the concept of volume by providing a
hands-on experience to develop an understanding of volume and one
way in which it can be measured without the use of a formula.
As students measure the volume of the shapes several relationships
should come to light. The volume of the cube is three times the
volume of the square pyramid. The volume of a pyramid is 1/3 the
volume of a prism with the same base area and height. The volume
of a cone is 1/3 the volume of a cylinder with the same base area and
height. The sphere is 2/3 the volume of a cylinder.
Using liters to measure the volume transfers to the concept of
cubic centimeters since there are 1000 cubic centimeters in a liter
and 1000 milliliters in a liter. Students need to become aware that
should they overflow the solid or not fill completely, measurements
can be inaccurate. If all is done correctly, they should have a close
match. After having students measure the volume with milliliters, and
providing the formula for area, they can then measure the prism’s base
and height checking for accuracy.
Instructional Procedures:
Invitation to Learn
Collect and display a variety of shaped containers. Have the
students list the containers in order, least to greatest based on their
estimate of the volume of each, in their math journal. Ask students
to share their ideas, thoughts and methods for determining the
container with the greatest volume. Ask students what volume
is? What did they look at? Is the height more important than the
width or circumference? Where do they see a volume measurement
in real life? How do we measure volume? Share with students which
containers are larger than others with a quick measurement of the
volume of several of the containers.
Instructional Procedures
- Display a small container of rice, lentils, and water which
students might use to measure volume. Question students as to
which material would give the best measurement and why?
- Demonstrate proper measurement, with rice and water,
measuring the volume of the small rectangular prism. Compare
the measurements and ask which material provides a more
accurate measurement. Why?
- Distribute How Much Will It Hold? to each student.
- Working with a partner, students will use the eight geometric
solids on their table to estimate which has the least volume
and list in order least to greatest.
- Using a 50ml graduated cylinder and funnel, one student will
fill chosen solid and note on chart the volume of the solid.
Students will use the same material to measure all of their
shapes. Have different pairs use different materials at each
table. One pair will use water, one lentils and one group will
use rice.
- Partners will complete measurement a second time to assure
accuracy.
- Repeat the same process with all eight shapes.
- Students will list solids, greatest volume to least, and compare
with estimation.
- Group students according to the material used to measure
volume. Have groups share their findings. Listen as students
attempt to explain and question differences in findings.
- Ask students to compare the relationship between different
solids. Do they see any relationships? If students can see a
similarity, have them share and discuss their findings. If they
cannot see a relationship, aim them toward the cube and square
pyramid. Was their measurement of the square pyramid 1/3 of
the cube? What are some ways in which they can prove their
findings to be true? Can they see any other similarities with
other shapes?
Strategies For Diverse Learners:
- For advanced learners, let them discover the relationship
between liters and cubic centimeters using centimeter cubes and
water.
- Special needs students can better successfully measure using
water from squirt bottles to prevent spilling.
- Science- integrates math to science unit of Matter.
Extensions:
Family Connections
- Students can find a container at home with the volume listed.
Compare the volume to another container that is not marked. Is
the volume greater? How can they measure the volume? Share
with the class their findings.
- Students can answer why a cereal box never seems to be full
when opened the first time.
Assessment Plan:
- Performance assessment-completed chart of measurements.
- Journaling-written explanation of relationship of shapes
discovered in measuring and how those can be proven. Have
students explain possible reasons in differences of volume. Can
they suggest ways to increase accuracy?
- Provide another geometric shape for student to measure
volume.
Bibliography:
Ancess, J. (2004). Snapshots of meaning-making classrooms. Educational Leadership. 62(1).
36-40.
Teachers have a responsibility to design instruction enabling all
students to learn in ways that suit them best. Providing small group
activities allows students to share their own and their peers’ individual
strategies for solving math problems.
Rushton, S., Larkin E. Shaping the learning environment: connecting developmentally
appropriate practices to brain research. Early Childhood Education Journal. 29(1). 25-
33. Studies reviewed show that pairing brain research with
developmentally appropriate practices sets the stage for solid learning.
Being aware of both and providing hands-on activities that cater
to different learning modalities and stimulate the different regions
of the brain makes learning more interesting promoting deeper
understanding. Author:
Utah LessonPlans
Created Date :
Jul 13 2007 09:25 AM
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