Ride Name: HMB Endeavor
Ride Type: 360o Looping
Ship or Boat
Goal: To identify places of greatest
kinetic and potential energy and to observe that energy is
conserved
Related Terms: kinetic energy,
potential energy
Concept
A pendulum illustrates the conservation of
energy. The pendulum has the most potential energy - the
energy of position or stored energy - when it is highest above
the ground. It has the most kinetic energy - the energy of
motion - when it is moving the fastest. As the pendulum swings
downward, the potential energy changes to kinetic energy. As
it swings upward, the kinetic energy changes to potential
energy. The back-and-forth swinging of a pendulum is simple
harmonic motion - motion that repeats periodically. The period
of a pendulum is the time needed for one complete swing back
and forth. This period is constant; it changes only if the
length of the pendulum is changed.
Classroom Activity
Ask students to describe how it feels to swing
on a playground swing. Explain that an object that swings back
and fort as a playground swing does is called a pendulum. Tell
students that at parks such as California's Great America
there are rides with motions that are similar to those of a
pendulum. Distribute to each student or group the activity
sheets and tape, string, and a heavy steel washer. The
activity uses the pendulum motion to introduce the concepts of
potential energy and kinetic energy. After discussing these
concepts, have a student draw on the chalkboard a pendulum in
the position in which it would have the most potential and the
most kinetic energy.
Pre-Visit Prediction
Have students look at the drawing of the ride.
Explain that the ride swings back and forth like a pendulum,
but it will eventually make a complete loop. Ask students to
predict the position in which the ride will have the most
kinetic energy.
After the Experience
Ask student to time the periods of their
pendulums when the pendulums swing through a longer distance
(larger arc) or shorter distance (smaller arc). They will
discover that the periods are the same. Have the students then
change the mass by adding one or more washer to their
pendulum. When the students time the periods, they discover
that the period does not change if the mass is changed. Ask
students to experiment to find what will change the period of
the pendulum. Students will discover that the period will
change if the pendulum’s length is changed.
Ride Name: HMB Endeavor
Type of Ride: 360o looping
ship or boat
Classroom Activity
Think about
riding on a playground swing. Think about how you "pump" to
make the swing go higher.
Now tie one end of a string to a heavy washer.
Tie the other end to a pencil and hang the washer from the
pencil as shown on the left. Pull the washer to the side and
release it. Observe how the washer changes speed. Both the
playground swing and the washer on a string are pendulums. At
what place in the swing of a pendulum does it move the
fastest?
A pendulum must receive energy to swing. How
does the pendulum you made get its energy?
As a pendulum swings, its energy changes. When
the pendulum is high above the ground, it has potential energy
- the energy of position. When the pendulum is moving, it has
kinetic energy - energy of motion. When does the pendulum have
the most potential energy?
When does it have the least potential energy?
When does the pendulum have the most kinetic
energy?
When does it have the least kinetic energy?
As the pendulum falls, what does the potential
energy change into?
As the pendulum rises, what does the kinetic
energy change into?
At the Park
Observe Endeavor in the park.
When is the Endeavor moving the fastest?
When is it moving the slowest?
Ride the Endeavor. Put a hand under one thigh.
When do you feel the greatest force on your hand?
When do you feel little or no force on your
hand?
POTENTIAL
ENERGY
|
|
KINETIC
ENERGY
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Updated
1/28/2012