Summary
In this activity, students will experience gravity just like Galileo did during his experiments.
Materials
- Marbles
- Ping pong balls
- Eraser
- Pencil
- Feather
- Paperclip
- Sheet of paper
- Data collection
sheet (pdf)
- Baseball
Additional Resources
Books:
- Gravity by Dan Greenberg (Newbridge Education Publishing)
- The Magic School Bus Plays Ball by Joanne Cole (Scholastic Inc.)
- Gravity: Simple Experiments for Young Scientists by Larry While (Millbrook
Press)
- Bowled Over: The Case of the Gravity Goof-Up by Chuck Harwood (McGraw
Hill Trade)
- Why Doesn't the Earth Fall Up? by Vicki Cobb (Lodestar Books)
- Which Way Is Up? by Gail Kay Haines (Simon & Schuster)
- The Science Book of Gravity by Neil Ardley, Published by Gulliver Books,
1992
- Why Doesn't the Earth Fall Up? by Vicki Cobb, Published by Lodestar Books,
1988.
Videos:
- Gravity is Attractive: What is Gravity?
Laser Discs:
- Windows on Science, Primary Vol. 3, Force and Motion Lessons 12 + 13
Background for Teachers
Gravity is an invisible force that pulls together any two objects. It pulls us down
toward our planet, Earth, and holds us connected to it. To prevent confusion in students
who may think, based on this definition, that gravity is the same as magnetic forces, the
force of gravity is presented as the force that pulls objects on or near Earth toward its
surface.
In this activity, students will experience gravity just like Galileo did during his
experiments. For background purposes, it should be noted that there is no concrete
evidence that Galileo successfully performed this experiment. Because of air resistance,
the likelihood of the musket ball and the cannon ball actually landing at the same time is
doubtful. However, through many other additional experiments with controlled processes,
Galileo is considered the scientist who first understood this physical force.
Gravity pulls on all objects, no matter what their mass, with equal acceleration towards
Earth. That is why an apple falls from a tree, or why rain falls from the sky. Ignoring
friction or air resistance, any two objects will reach the ground at the same time if they are
dropped from the same height and at the same time. In this activity, experiments will
demonstrate that the force of gravity on Earth is the same for all objects.
It is also important to demonstrate and explain that a baseball and a piece of paper
will not hit the ground at the same time because of air resistance. As objects move through
air, friction slows the objects. The more surface area an object has, the more air resistance
it will have. This might be easier to visualize if you tell students that a baseball and a
wadded up piece of paper will fall at the same time.
Intended Learning Outcomes
1. Use a science process and thinking skills
2. Manifest scientific attitudes and interests
3. Understand science concepts and principles
4. Communicate effectively using science language and reasoning
Instructional Procedures
Pre-Assessment/Invitation to Learn
- Teacher will ask the students these questions: “If I dropped a basketball and a
marble, which one would hit the ground first? Make a prediction. Why did you
choose that answer?”
- Drop both items from a high vantage point. Allow students to observe but not to
engage in a lengthy discussion.
- Repeat the experiment three times to model good experimentation.
- Make a comment such as, “That was odd, don’t you think? The basketball is
heavier than the marble, isn’t it?”
- Pretend to think about this question. Then tell all students, “I think this is
something we need to experiment with and try to figure out in our groups.”
Instructional Procedure
- Divide children into small groups.
- Hand out the data collection sheets and materials to students.
- Allow students approximately 10 minutes for the experiment.
- Answer any questions that may arise as you help groups experiment.
- Report predictions and findings from students' charts. Put on a large classroom
chart. Students will discover that objects similar in shape, but with different
weights hit the ground at the same time. However, they will also discover that
the unfolded sheet of paper will hit the ground later than the ping pong ball. Or
perhaps the feather will fall much slower than the marble. Help lead students
to the knowledge that mass should not affect the rate at which objects fall, but
shape definitely makes a difference.
- Ask, “Does gravity change?” (No. Gravity remains constant. Shape changes;
gravity does not.)
- Ask, “Why is it important to know about gravity?” Help students discover that
without gravity we would fly off the earth. Gravity helps us understand how
things move around us in our physical world. It also helps plants to grow.
- Have students complete a paragraph that states three important facts they have
learned from their experimentation about gravity (For Science Journal).
Example: Gravity is an invisible force. Earth’s gravity pulls everything toward
its center. Heavy and light objects that are about the same shape fall at an equal
speed.
Extensions
Science-
- Students could test objects of varying shapes and sizes, or different weights.
(Light object, empty soda can versus heavy object, a full soda can.) (ILO 1)
- Explore the influence that air resistance has on the force of gravity when objects
fall. (ILO 2)
Language Arts-
- Writing Workshop topic such as “How would it be different if there were no
gravity?” (Standard VIII, Objective 6)
Math-
- Place the objects in sequence according to their weight from lightest to heaviest.
(Standard 1, Objective 3)
- Order and compare the weights of the objects by plotting them on a number line. (Standard 1, Objective 3)
- Compare the relationship ("<", ">", and "=") between the weights of the objects. (Standard 1, Objective 3)
- Make a grid of the floor tiles (flight path) and indicate where the paper airplanes
landed. (Standard III, Objective 1)
Homework & Family Connections
Defying Gravity
- Challenge the students to design and make a paper airplane that will defy
gravity, by flying in the straightest and furthest path.
- Have the students bring their airplanes to school the next day for test flights.
- Have one student at a time fly their airplane. This is best done in a hall with tile
on the floor.
- Record the results. To determine each student's result: Count how many tiles out
from the starting line. Then, subtract the number of tiles off course (to the left
or right).
- Analyze which airplanes were the most successful in meeting the criteria and
why.
- Are these some variables in the experiment that could possible influence the
results? How could we control those variables?
Assessment Plan
- Rubric for Activity Completion:
- Group Work 25 pts.
- Completion of Worksheet Activity 25 pts.
- Class Discussion 25 pts.
- Written Journaling 25 pts.
- Response questions:
- Is gravity everywhere?
- Is gravity a force? What does that mean?
- Describe the observations made using the vocabulary words, gravity, speed,
motion, distance, and force.
Created: 07/21/2004
Updated: 05/18/2022
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