Curated OER
Circle of Pong
Learners, in groups, use given materials to devise a way to deposit a ping-pong ball into a paper cup that is located in the middle of a 6-foot diameter circle, while standing outside the circle.
NOAA
Biological Oceanographic Investigations – Call to Arms
How many simple machines does it take to make a robotic arm? An inquiry-based instructional activity explores that topic and challenges pupils to build a robotic arm that can stretch, turn, and more. A few questions help guide...
Curated OER
Wind Power
What a wonderful way to explore wind power! Through this lesson, learners get a background in the history of wind power, create their own wind turbine, and the test their designs. This is a terrific way to tie scientific principles to...
Curated OER
Wright Again: 100 Years of Flight
Aspiring aeronautical engineers demonstrate different forces as they construct and test paper airplanes. This lesson plan links you to a website that models the most effective paper airplane design, an animation describing the forces...
NASA
Einstein's Gravity
Assist your high school class with researching and applying the principles of gravity so they may further understand why Einstein is so widely recognized, even today. Individuals compare and contrast two different models that demonstrate...
Curated OER
Rat Round Up
Students build a device that captures and carries a pet rat safely back to its cage with out "harming" the rat or themselves. They build and experiment with wind-up or battery operated rat cat toys after predicting the outcome of their...
Curated OER
Design a Bobsled
Young scholars apply their knowledge of friction, drag, mass and gravity as they design, build, and test mini-bobsleds.
Curated OER
The Airplane
Students demonstrate the Bernoulli Principle, review the influences that affected the Wright Brothers, and make and modify paper airplanes. This amazing lesson plan has an excellent structure, and very clear plans for the students to...
Curated OER
Changes in Force, Motion, and Energy
Eighth graders construct various machines and compare the work done by them.
Curated OER
Seeing Mathematics in the Forces of Nature
Students study waves and their characteristics. In this wave instructional activity students calculate the speed of waves, wavelength and the period.
NASA
Dark Matter NASA Conference
Young scholars calculate the escape velocity of planets in our solar system and use that knowledge to calculate the escape velocity for NGC 2300 group. They then suggest reasons for the escape velocity to be higher than possible given...
Curated OER
Simple Machines
Students explain how simple machines work and design their own machine. They use the Internet for research.
Curated OER
Rockets on a Shoestring Budget
Students, operating under simulated budget constraints, build pop-rockets and launch them. Working in pairs, they complete budget worksheets and use their "Blast Off Bucks" to pay for the construction. They then redesign their rockets...
Curated OER
Animation Flip Books
Students investigate examples of animation made from a flipbook technique in order to learn how to create their own flipbook and to learn how this process looks like an animated cartoon. In this animation lesson, students will observe...
Curated OER
TE Activity: Don't Crack Humpty
Students perform mathematical calculations to design safety device or enclosure to protect an egg as it is rolled down a ramp at increasing slopes.
Curated OER
Don't Crack Humpty
Students investigate the engineering design process and the relationship between distance, time, and speed. Using a generic car base, small groups design a device that will protect an egg on or in the car as it is rolled down a ramp at...
Curated OER
Action-Reaction! Rocket
Students construct a rocket from a balloon propelled along a guide string. They use this model to learn about Newton's three laws of motion, examining the effect of different forces on the motion of the rocket. They measure the distance...
PHET
Mapping the Field of a Dipole Magnet
High school scientists build their own magnetometer and use it to map the field surrounding a bar magnet. Excellent background resources is included, as well as a diagram of how to build the magnetometer.
PHET
Mapping the Field of Multiple Dipole Magnets
So you built a magnetometer, now what? High school scientists use their magnetometer made in a previous lesson to map the union of magnetic fields of dipole magnets. They experiment with different alignments and draw conclusions about...
PHET
Mapping the Ambient Magnetic Field
No GPS allowed! High school scientists continue to explore magnetic fields with a hands-on activity. After mapping the ambient magnetic field in the classroom and completing data analysis, they write about the similarities and...
PHET
The Earth as a Magnet
Everyone loves playing with magnets and iron filings. Here, young scientists first observe and then participate in an activity demonstrating magnetic fields. After completing their observations, they apply this knowledge...
University of Colorado
Happy Landings: A Splash or a Splat?
Huygens spacecraft landed on Saturn's moon Titan in 2005, making it the farthest landing from Earth ever made by a spacecraft. In this hands-on activity, the 12th installment of 22, groups explore how density affects speed. To do this,...
University of Colorado
Great Red Spot Pinwheel
The great red spot on Jupiter is 12,400 miles long and 7,500 miles wide. In this sixth part of a 22-part series, individuals model the rotation of the Great Red Spot on Jupiter. To round out the activity, they discuss their findings as a...
Science Matters
Potential and Kinetic Energy
Everything has potential energy; learning to use it is the key to understanding all types of energy. Scholars learn the difference between kinetic and potential energy. They then apply the concept to drawing examples of both types...