Curated OER
Gravity In The Universe
Students assess and explore gravity in the Universe via several short video lessons. They analyze why this science matters and the history of Sir Isaac Newton's law of gravity. A variety of questions are asked within this lesson for each...
Curated OER
Looking For Newton
The lesson has sufficient background information for the teacher to implement the lesson. Students are asked to summarize the three laws of motion. They also conduct classroom activities to role play the Laws of Newton.
Curated OER
Science: Motion Commotion
Students examine Newton's three laws of motion to discover what causes it and how it changes. They conduct motion experiments by building catapults and constructing balloon rockets. Finally, they conduct peer studies correlating...
Curated OER
How Do Things Move?
In this motion worksheet, students will use a word bank to fill in the definition of Newton's three laws of motion. Then students will complete 4 short answer questions giving examples of Newton's three laws of motion.
It's About Time
Life (and Death) Before Seat Belts
Did you know only 80-90% of passengers wear a seat belt in a moving car? Young scholars use clay and a cart to complete an experiment about what happens without a seat belt in a collision. The lesson includes Newton's Second Law of...
Curated OER
Centripetal Force
In order to investigate cetntripetal force and angular momentum, youngsters compare the motion of erasers hung from a string. It is not clear what type of Amish toy is needed in the warm up activity, so you may not be able to use it. The...
Curated OER
In-Line Inertia
Students practice calculating the moment of inertia when discussing a skater and the position in which it is best to spin. After class discussion, students practice calculating inertia on their own.
Mr. E. Science
Forces
May the mass times acceleration be with you. The presentation covers forces, Newton's three Laws of Motion, momentum, and vectors.
Curated OER
Forces and Machines
For this forces and machines worksheet, students will review vocabulary associated with forces including friction, inertia, and work. Students will also explain how simple machines help to do work easier. This worksheet has 10 matching,...
Curated OER
Newton's Third Law
Students describe an everyday situation which demonstrates Newton's Third Law. They state Newton's Third Law;"Every action has an equal and opposite re-action, or every force has an equal and opposite force" in their own words. ...
Curated OER
F = Ma, Inertia, And Action-reaction
Fourth graders investigate Newton's Second and Third Laws of Motion. They determine what makes objects harder or easier to push. While investigating they determine how applying force in order balance out gravity allows things to stay...
Curated OER
The Inertial Balance
Students weigh objects using a triple beam balance. In this mass lesson, students use an inertial balance made with a metal rod to measure and graph vibrations of varying numbers of pennies in a bucket. References and discussion prompts...
Curated OER
Skateboard Science
Learners investigate how skaters can turn in midair. For this physics lesson, students relate Newton's Laws to skateboarding. They carry out the maneuver with the help of their classmate.
Curated OER
Sliding and Stuttering
Ninth graders use a spring scale to drag an object such as a ceramic coffee cup along a table top or the floor. The spring scale allows them to measure the frictional force that exists between the moving cup and the surface it slides on....
Exploratorium
Momentum Machine
If you have a rotating office chair in your classroom, you can have physics pupils participate in this simple, yet effective demonstration of angular momentum. One partner sits in the chair, arms outstretched, holding heavy weights. The...
Curated OER
Forces and Pressure
In this forces worksheet, students will review the different types of forces and how forces are measured. This worksheet has 9 fill in the blank, 1 short answer, and 11 multiple choice questions.
Curated OER
Projectile Motion Demonstration
Students dicusss Newton's First Law of Motion. They calculate a projectile moving horizontally and vertically at different intervals. They particpate in an experiment in which the projectile is at an angle. They record and discuss the...
Bowels Physics
Impulse and Momentum
Be impulsive with your high school physics class. Emerging physicists review the slide presentation and learn about impulse, momentum, collisions, and how each variable may be affected. They complete practice problems and conclude with a...
It's About Time
Run and Jump
Has your class wondered how fast a human could run or how high they are capable of jumping? Help them understand these concepts as they explore acceleration and use an accelerometer to make semiquantitative measurements of acceleration...
Curated OER
Scientist/ Webelos Activity Book
In this physical science worksheet, students write short responses for each scientific law in 14 different questions to obtain a merit badge.
Curated OER
The Historiography on Robert Boyle: Was Boyle the Progenitor of Modern Science?
Students participate in a warm-up activity by attending a football match writing an account of who won the game. They discuss how their account could differ from someone else's account of the game. They discuss how different people's...
Museum of Science
Cup Drop
Create egg drop soup. Teachers first set up eggs that are held up above cups of water with a piece of cardboard and cardboard tubes. Learners try to determine a way to get the eggs to drop into the cups. Using a broom, the instructor...
Curated OER
Go Car, Go!
Young scholars design and build their own car. In this physics lesson, students collect data to determine the speed of the car. They plot the data on the graph analyze the relationship between variables.
Curated OER
The Science of Swinging
Students learn how a pendulum works in the concept of an amusement park ride. In this pendulum lesson, students are introduced to Newton's first law of motion and how it works in an amusement park ride. Continuous motion and inertia are...