Physics Classroom
The Physics Classroom: Circular, Satellite, Rotational: Roller Coaster G Forces
Roller coaster rides are notorious for creating accelerations and g-forces. The magnitude and direction of normal force and gravity during the motion through a coaster's loop are depicted this animation.
Physics Classroom
The Physics Classroom: Work and Energy: Energy Transformation on Roller Coasters
Using a roller coaster as an example, the transformation of mechanical energy from the form of potential to the form of kinetic and vice versa is explained and illustrated in the animation.
Physics Classroom
The Physics Classroom: Circular and Satellite Motion: Amusement Park Physics
In this interactive module, students explore the centripetal acceleration experienced by riders within the circular-shaped sections of a roller coaster track.
Unite for Literacy
Unite for Literacy: Technology: Hold On!
A book about riding a rollercoaster. Book includes audio narration in nine additional languages with text in English.
Physics Classroom
The Physics Classroom: Circular and Satellite Motion: Speed and Velocity
In this interactive module, describe and explain the motion of objects that either move in circles or can be approximated to be moving in circles. Kinematic concepts and motion principles will be applied to the motion of objects in...
Physics Classroom
The Physics Classroom: Work, Energy, and Power: Mechanical Energy Is Conserved
In this interactive exercise, explore the quantitative relationship between work and mechanical energy in situations in which there are no external forces doing work.
Other popular searches
- History of Roller Coasters
- Paper Roller Coasters
- Physics of Roller Coasters
- Physical Roller Coasters
- Roller Coasters Math
- Wooden Stella Roller Coasters
- Wooden Stell Roller Coasters
- Roller Coasters Safety
- Physics Roller Coasters
- Wooden Steel Roller Coasters
- Building Roller Coasters
- Roller Coasters Rap Song