Curated OER
Physics of Roller Coasters
Students design a roller coaster and demonstrate their knowledge of Potential and Kinetic Energy. They determine the average velocity a given marble travels on their roller coaster and apply their knowledge of various measurement systems...
Curated OER
Physics of Roller Coasters
Students study the physics used to design today's roller coasters. In this engineering lesson students complete several activities including designing their own roller coaster.
Curated OER
Roller Coasters
Twisting and turning through the sky, roller coasters are popular attractions at amusement parks around the world, but how exactly do they work? Explore the physics behind these thrilling rides with an engineering design activity....
Kenan Fellows
Engineering Skills Through Problem Based Learning
Navigate the ups and downs of learning about energy. Future engineers consider how potential and kinetic energy apply to roller coasters. They design a roller coaster of their own and then use computer design software to showcase their...
Curated OER
Design Your Own Rollercoaster
Here is a physics instructional activity that your 5th graders should love. They explore the physics behind roller coasters by viewing roller coaster simulations online. Then, they work in pairs in order to design their own roller...
Curated OER
Building a Roller Coaster
Learners describe the law of conservation of energy. They identify the conversion between potential and kinetic energy. They investigate and describe the application of Newton's Laws of Motion.
Curated OER
Tubularastic Roller Coaster
Students observe the effect of gravity on objects. They use tubing and other materials to simulate a roller caster. Afterward, they create a journal to write their observations and summaries.
Curated OER
The Ultimate Roller Coaster Contest
Students explain how conservation of energy applies to roller coasters. In this physics lesson, students construct their own coasters according to a specified criteria. They make modifications to their design when necessary.
Curated OER
Roller Coaster Simulator for the Magnetic Chalkboard: Construction Plans
Learners watch a demonstration that allows the teacher to show Galileo's inertia experiment and how and why the hills on roller coasters are designed as they are. The roller coaster simulator can be mounted on a magnetic chalkboard;...
Curated OER
Electricity's Attraction
Middle schoolers explore the different features of a roller coaster using an interactive website. In this physical science lesson, students explain the role of science to make this thrill ride possible. They develop a creative...
Curated OER
Mathematical Modeling and Physics
Twelfth graders use a web site to investigate roller coaster physics. In this mathematical modeling lesson, 12th graders are grouped according to their performance on a test. Each group is given an activity to complete on a web site...
Curated OER
Roller Coaster Physics
Students design a roller coaster that allows a marble to run the course as fast as possible. Students create an experimental roller coaster taking into account the steepness of the hills and the sharpness of the turns. Students use a...
Alabama Learning Exchange
This Is How We Roll!
Students research how roller coasters work. In this physics lesson, learners research the history of roller coasters and the safety factors in the design of a roller coaster on the website www.learner.org/exhibits/parkphysics. They...
Curated OER
Rockin Roller Coaster
Students discuss gravitational potential energy, kinetic energy, and the relationship between potential and kinetic energy. They create a working roller coaster from provided materials and criteria then evaluate each roller coaster. They...
Curated OER
Roller Coaster Mania
Fifth graders extend their knowledge of developing maps. They work in cooperative groups to develop an amusement park display and a brochure.
Curated OER
Gravity (Newton's Laws of Motion): A Weighty Subject
Young scholars identify Newton's Laws of Motion. They students explore Newton's Laws of Motion and apply the second law with a classroom activity. The videos will provide visual examples of the effects of gravity while riding on a roller...
Curated OER
May the Force Be With You
Students read an article, brainstorm ideas and prepare journals investigating why people enjoy 'thrill' rides, what forces affect the body on these rides and how they can become dangerous.
Tech Museum of Innovation
Energy at Play
Get the ball rolling and challenge your class to figure out how to make a ball move. The instruction segment is between two STEM activities devoted to doing just that. The first is simple and involves making a ball move from some...
Curated OER
Principles of Physics: A Real Scream!
Students apply their knowledge of the physics principles of force, energy and motion to researching the physics behind amusement park rides.
Curated OER
ROLLER COASTERS IN THE CLASSROOM
Pupils define potential and kinetic energy and explain the relationship of height to potential energy. In this roller coaster lesson plan students construct a model of a roller coaster which will allow them to see the basic...
Curated OER
Roller Coasters in the Classroom
Students define kinetic energy and know the effects of weight and speed on momentum. In this investigative lesson students get into groups and design a roller coaster.
Teach Engineering
Pushing it Off a Cliff
Focus on the conservation of energy, specifically looking at gravitational potential energy and kinetic energy, with a lecture that involves having friends throw light objects at each other to determine which has more kinetic energy and...
Curated OER
Ultimate Ride Coaster Deluxe
Eighth graders describe the energy transformations as cars travel over a roller coaster. They explain the principle of conservation of energy as it relates to a roller coaster ride. The integration of technology is done using educational...
Cornell University
Catapults
Ready, aim, fire! Launch to a new level of understanding as scholars build and test their own catapults. Learners explore lever design and how adjusting the fulcrum changes the outcome.