Curated OER
Amusement Park Physics
Young scholars conduct a series of experiments on conservation of energy and momentum. In this physics lesson, students investigate the factors affecting the period of the pendulum. They build a roller coaster and calculate the marble's...
Curated OER
Amusement Park Physics
Students get up close and personal with principles of motion. In this physics lesson, students collect and analyze acceleration data on amusement park rides. Students use CBLs to collect data in this lesson.
Curated OER
Fantastic Journeys
Students design an amusement park attraction based on a fantastic journey from literature, film, or their own imaginations. Each design team must submit a formal proposal. The proposal should include: a two- or three-dimensional visual...
National Center for Case Study Teaching in Science
Applying Newton’s Third Law of Motion in the Gravitron Ride
Here is a collection of readings to be discussed in the science classroom. This one is in the form of a dialog between two boys in an amusement park, talking about the forces involved in a Graviton ride. Questions are listed at the...
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....
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
The Science of Swinging
Young scholars learn how a pendulum works in the concept of an amusement park ride. For 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...
Alabama Learning Exchange
Energy and Work Amusement Park Style
Students distinguish between kinetic and potential energy. They recognize that energy can change from one form to other forms. They identify and describe several forms of energy.
Curated OER
Properties of the Ocean: Measurement
Students simulate the development of an underwater amusement park after reading background on Coral Reef State Park. They decide which factors they would need to consider such as the ocean floor, currents, wave patterns and water...
Curated OER
Circular Motion
Twelfth graders discuss centrifugal force, frictional force, and critical speed as it relates to the popular amusement park ride, the Gravitron.
Virginia Department of Education
Work and Power
Assist your class with correctly calculating the values for force, work, and power as they determine the amount various activities require. They gather data and participate in a group discussion to compare results upon conclusion of the...
Curated OER
Journey through the Digestive System
Students work in cooperative groups to design a theme park called Gastro World, based on the anatomy and physiology of the digestive system. They prepare a portfolio of the park's attractions and construct a model of it.
Curated OER
Phat Shredders and Phony Phorces: Snowboarding, Winter Sports, Olympics, Sport Safety, Science, Physics
Young scholars study about the history, physical science, and safety issues involved in snowboarding.
Curated OER
Simple Machines In Action
Young scholars name and recognize six types of simple machines. They use their research to design an amusement park ride that features different types of simple machines. Students create a brochure about their ride and how it works. ...
Curated OER
Mathematical Modeling and Physics
Twelfth graders use a web site to investigate roller coaster physics. For 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
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.
Curated OER
Take a Roller Coaster Ride
Young scholars investigate how roller coasters are built. In this physics lesson, students research the laws of physics that affect roller coaster construction. Young scholars create their own roller coaster design.
Curated OER
Ring Around the Rosie
Students examine the concept of angular momentum and its correlation to mass, velocity, and radius. They listen to a teacher-led lecture, conduct an experiment with rotational inertia, angular momentum, and rotation speed by making...
Curated OER
Let's Outrage the Bull
Young scholars study kinetic and potential energy. In this energy lesson, students in grades K-2 understand the differences between kinetic and potential energy. Young scholars in grades 3-5 demonstrate that kinetic and potential energy....
Curated OER
Chemistry World The Five Types of Chemical Reactions
Young scholars research five types of chemical reactions in order to design a learning center. Students use technology to research and present their material.
Curated OER
May The Force Be With You
Eighth graders investigate Newton's Laws of Motion. They use the example of a roller coaster for illustration purposes. A force associated with a roller coaster is tested, data graphed, and a conclusion is drawn. They use excel in order...
Curated OER
Map your Schoolyard
Students practice their mapping skills by creating an accurate map of their schoolyard using an aerial photo from the National Map web site. Students include legends, a scale, and a north arrow on their maps.
Curated OER
Catapults!
Students work together to discover the relationship between the angle of catapults and the flight of different objects. They discover the heavier the object the more force is needed. They examine how engineers use this information to...
Curated OER
How Can They Tell?
Pupils compare the characteristics of arcade tokens to those of a circulating U.S. quarter to determine how a video game can tell the difference between the two. They examine coins and arcade tokens very closely to observe the differences.