Curated OER
Friction Restriction: Creating a Design Plan to Redesign the Tread of Tennis Sneakers to Increase Friction
Learners evaluate the friction of tennis sneakers and redesign them to increase friction. In this physics instructional activity, students calculate starting, sideways and forward stopping friction. Using quantitative data, they prove...
Curated OER
What Does Motion Have to do with Sound?
Second graders investigate and explore sound energy. They investigate how the vibrational motion moves through matter in waves. Students describe sounds and vibrations. They observe that vibrational motion creates sounds. Students record...
Curated OER
Work and Power
Students investigate work and power. In this energy lesson plan, students use the scientific method process to explore how much work and power it takes for a person to climb a stair case.
Curated OER
"Measurement in Motion"
Ninth graders examine the rate of motion and changes in motion using a ramp and a rolling object. They conduct the demonstration, determine the average speed, and describe how a moving object can have zero acceleration and deceleration.
Curated OER
Race the Track! Design Challenge
Young scholars use the design process to investigate physical science. In this force and motion lesson, design a track to achieve a specified outcome. Students complete additional experiments with speed and distance. Young...
Curated OER
Surface Friction and Wear Characteristics of Common Materials
Students identify the factors affecting friction. In this physics lesson, students construct their own rocket car and race them. They graph the average speeds and discuss how lubricants affect friction between rubbing surfaces.
Curated OER
Buoyant Force
Students investigate the scientific concept of why some objects float when put in a liquid solution. They apply the laws of motion and force while conducting classroom activities. Students also take notes and answer target questions to...
Curated OER
Pushy Kids in Physics
Students examine the concepts of balanced forces, unbalanced forces, and resulting net forces. They participate in a force and motion demonstration by pushing students in various directions, and calculating and identifying the resulting...
Curated OER
Crash Test Dummies
Fifth graders are introduced to Newton's First Law of Motion. In groups, they describe the differences between balanced and unbalanced forces. They participate in experiments that demonstrate how equal and opposite forces act upon...
Curated OER
Angular Momentum (Automaticity)
Second graders experience practicing with a wide variety of vocabulary terms that relate to the Vista/Module "Angular Momentum:" momentum, inertia, force; motion, direction, centripetal force; angular momentum, gyroscope, resist. They...
Curated OER
Simple Harmonic Motion
Learners study harmonic motion and its oscillation. In this simple harmonic motion lesson plan students demonstrate a series of regular oscillations and explain the theory behind the experiment.
Urbana School District
Physics Intro, Kinematics, Graphing
Some consider physics the branch of science concerned with using long and complicated formulas to describe how a ball rolls. This presentation, while long, is not complicated, yet it covers rolling, falling, and more. It compares vectors...
Kenan Fellows
Analyzing Speed from Different Modalities
Show us your moves. Using sensor equipment, scholars track the motion of different movements, such as jogging, skipping, or jump roping. They analyze velocity and acceleration and create graphs representing each movement.
Teach Engineering
The Great Gravity Escape
Groups simulate an orbit using a piece of string and a water balloon. Individuals spin in a circular path and calculate the balloon's velocity when the clothes pin can no longer hold onto the balloon.
University of Florida
Understanding Car Crashes: It's Basic Physics!
Make an impact on young physicists with this fun collection of resources. After first watching a video and taking notes on the physics of car crashes, students go on to complete a series of activities that explore the...
Polytechnic Institute of NYU
Potential vs. Kinetic Energy
Legos in science class? Watch your pupils fall in love with this activity. After learning to measure potential and kinetic energy, young scientists create their own ramps using Lego Mindstorm sensors and software.
Teach Engineering
Exploring Acceleration with an Android
Small groups use rubber bands to accelerate an Android device along a track of books. They collect the acceleration data and analyze it in order to determine the device's velocity.
Curated OER
Work and Power
In this power worksheet, students use the equations of power and work to complete 4 word problems. Students use the standard units of watts and joules.
Curated OER
Momentum and Conservation of Momentum
In this momentum activity, students review the equation to solve for momentum and the Law of Conservation of Momentum. Students complete 8 matching, 6 fill in the blank, and 8 problems to solve.
Curated OER
Work and Energy
In this work and energy learning exercise, students review energy laws, potential energy, and kinetic energy. This learning exercise has 8 fill in the blank, 7 short answer, and 5 matching questions.
It's About Time
Defy Gravity
Test the limits of gravity while encouraging full class participation with this thrilling lesson. Pupils investigate the meaning of work and how it is equivalent to energy. They explore the joule and apply it as a unit of work. They...
Teach Engineering
Tissue Mechanics
Engage your class by showing them how silly putty and human tissues are alike. Pupils learn more about tissue mechanics by reflecting upon their experiences with silly putty. The lesson covers collagen, elastin, and...
Virginia Department of Education
States of Matter
Scientists have been studying exothermic reactions before they were cool. The lesson begins with a discussion and a demonstration of heat curves. Scholars then determine the heat of fusion of ice and the heat needed to...
University of Colorado
Distance = Rate x Time
Every year, the moon moves 3.8 cm farther from Earth. In the 11th part of 22, classes use the distance formula. They determine the distance to the moon based upon given data and then graph Galileo spacecraft data to determine its movement.