Activities
Measurement
Rotational Symmetry
Art and the Circle
Circle Theorems
"For children, geometry begins with play,” writes Pierre van Hiele (1999). He
goes on to say that for students to reach the higher levels of geometric
thinking, their instruction should still begin “with an exploratory phase,
gradually building concepts and related language, and culminating in summary
activities that help students integrate what they have learned into what they
already know” (p. 311). The resources in this section offer activities that can
supplement your instruction as you move your students through exploring,
building concepts, and integrating their learning through application. A wide
range of play in the field of geometry!
The activities begin with measurement, including investigations of the number
pi and projects on measuring the circumference of the Earth. Rotational
symmetry is then studied through hands-on interactive simulations. The next
activities involve constructions with compass and straightedge in which
students create designs and study their symmetry. Appropriate for challenging
middle school students, a final group of resources uses simulations to consider
more advanced properties of circles.
Students measure the diameter and circumference of several circles, using a
handy applet, record their data and reach conclusions about the ratio of
circumference to diameter. A genuine guided exploration!
How did Archimedes estimate the value of pi? A battered manuscript reveals
Archimedes’ thinking, and an accompanying
classroom activity allows students to duplicate the procedure using
paper and pencil or an online applet. The lesson procedure is set out clearly
and student handouts are included. Look in the right-hand margin for the link
to the interactive applet and more resources. MSP
full record
In this activity, students consider the girth and height of ten National
Champion trees and determine which, if any, of the trees is large enough to
drive a car through. MSP
full record
Here is a real-world project that will engage your class in measuring the
circumference of the Earth! You will find all information you need to enable
students to recreate the measurement as done by the Greek librarian
Eratosthenes over 2000 years ago. The procedure is based on measurements of
shadows taken at high noon local time on a designated day in March; results
from several schools are posted online and used to calculate the circumference.
Included are detailed explanations and illustrations of the mathematics
involved.
This activity introduces students to Eratosthenes' historical accomplishment in
measuring the Earth's circumference. The mathematics involved is well
explained. Only paper and pencil are used here, in contrast to the actual
measurements of sun shadow needed in the Noon Day Project above. This activity
is found on a site that highlights the interaction of history, mathematics, and
teaching: Convergence.
By clicking on two cities on a world globe, students see two line segments
connecting the cities, one showing the great circle route (the shortest) and
the other showing the route on a flat map. A nice application of real-world
math! MSP full record
Starting with a piece of clothesline cut into three equal pieces, students form
a circle, a square, and a triangle, all having the same perimeter -- but do
they all have the same area? An animation shows clearly the lesson procedure
for comparing the areas. This activity is found in
Breaking Away from the Mathbook. MSP
full record
In this activity, students compare the areas cleaned by different wiper designs.
An animation shows the movement of the two windshield wipers, each cleaning off
a different geometric shape on the window. Students are encouraged to draw the
shape cleaned by each wiper and find its area. MSP
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Students create the puzzle themselves, using compasses, and are challenged to
find the area of each of the three pieces. You will need to guide your eighth-
and ninth-grade students through the given solution. This activity is found in
Breaking Away from the Mathbook. MSP
full record
Measuring arcs of a circle with a virtual protractor, students engage in several
activities on measuring angles. The protractor clearly shows how the arcs of a
circle are measured in degrees from 0 to 180. This activity is from
Ambleweb: Numeracy Hour.
Using an online circular geoboard, students work through five interactive
activities that link the measure of the central angle to the measure of its
arc. Even if your class doesn't have access to the Internet, the ideas here are
worth transferring to paper. MSP
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Given only a few pieces of the edge of a circular plate, how can an
archaeologist find the plate's original size? In a hands-on solution, students
fold a sheet of paper to find the center and radius of the plate. MSP
full record
Two challenging activities push students to explore the connection between the
angle of rotation and the image created. In the first, students see a rocket
and its rotated image. They can move the vertex of the angle around the screen,
widen or narrow the angle, or change the position of the original rocket and
see what happens to the image. In the second activity, a game, they must create
a rotation scheme that will move a rocket onto a target. These activities are
from the National Library of
Virtual Manipulatives.
This unit is marked for grades 9-12, but don't be put off! It can be used
profitably at lower levels as well. Each of the four lessons in the unit relies
on an excellent interactive applet to explain a main idea of rotational
symmetry.
This applet shows a triangle or square on a coordinate axis grid. Students may
choose to rotate, reflect, or translate the figure, selecting all the
parameters. For rotation, the center may be chosen and the number of degrees
through which the figure is moved. Included are answers to the What? How? and
Why? of the activity. MSP
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In addition to making designs using a compass, students also consider the
patterns they make and the types of symmetry they can see in their designs. MSP
full record
Beautiful designs based on the circle are shown here, along with clear
directions on how to make the designs. This lesson is from
Breaking Away from the Mathbook. MSP
full record for Breaking Away
This site describes Native American geometry as "a physical, proportional
geometry that originates from the simple circle." You may use the material
essentially as math concepts in art, or as a source of activities that connect
the circle to polygons. It is a site worth investigating! MSP
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If you are teaching a geometry course, or looking for challenging material,
investigate these applets on circles from Manipula Math with Java. Working with these applets, students can
visualize the theorems before they have to prove the theorems. In particular,
they may like Eye
Ball,
Inscribed Angles,
Inscribed Angle and Central Angle, and
Flashlight. MSP
full record
van Hiele, Pierre M. (1999, February). Developing geometric thinking through
activities that begin with play. Teaching Children Mathematics, 5(6),
310-316.
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Copyright
June 2006 — The Ohio State University. This material is based upon work
supported by the National Science Foundation under Grant No. 0424671. Any
opinions, findings, and conclusions or recommendations expressed in this
material are those of the author(s) and do not necessarily reflect the views of
the National Science Foundation.
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