Curated OER
Simple Machines I - Inclined Planes, Wedges, and Screws
The principles and uses of inclined planes, screws, and wedges are the focus of a science lesson. In it, youngsters come up with every day examples of simple machines, and build an example of one in class. That project is then used to...
Curated OER
Unit VII Energy: WS 3a Energy Transfer and Storage
Here is a nifty worksheet on energy transfer. Physics fanatics analyze a diagram and state whether or not friction is involved. They sketch bar graphs and draw energy flow diagrams for each system as well. Circular motion, movement up...
Curated OER
Ramps
Learners experiment to see how various objects roll down ramps. In this ramp lesson, students observe weight, size, and material of objects. Learners compare speeds by using a second ramp.
US Department of Energy
Go Far Cars Ramp: A Basic Ramp with Four Height Settings
Precise measurements make the job easier! One of the challenges when using an inclined plane for testing comes from pupils not using exact measurements. They often rely on books that slide or different ramp lengths when experimenting. By...
Curated OER
Ramps 2: Ramp Builder
Students design, build, and test their own ramps. They are introduced to a variety of materials and explore putting them together. Students engage in an inquiry-based learning experience to reinforce math, science, and technology...
Curated OER
Ramps 2: Ramp Builder
Students plan, build, and test a ramp that allows objects to roll far. After each group has tested out their ramps, allow them to test their design against the record previously established by the prototype ramp.
Curated OER
Simple Machines I - Inclined Planes, Wedges, and Screws
Fourth graders examine the physics behind and uses for inclined planes, screws, and wedges. They determine examples of how these simple machines are used in daily life. Working in three small groups, they move from station to station...
Curated OER
Simple Machines - Inclined Plane, Lever
Students brainstorm ways of using an inclined plane or lever and demonstrate using materials such as a board, fulcrum, etc. They divide into two groups and figure out to lift a crate using materials for a simple machine. Once they...
Curated OER
Incline Planes
In this simple machine learning exercise, students explore incline planes and learn how to calculate the mechanical advantage (MA) using forces or distance. This learning exercise has 14 matching, 3 fill in the blank, and 6 short answer...
Teach Engineering
Tools and Equipment (Part 1)
Looking for the best inclined plane for the job? Groups calculate the theoretical mechanical advantage for four different inclined planes. They determine the actual mechanical advantage by measuring the amount of force needed for the...
Curated OER
On The Go! Forces and Motion
Students create a car using physics. In this forces and motion lesson, students create a car and test which changes in design change the performance of the car. Students complete a graphic organizer with the different changes they see.
Curated OER
Ramp Builder
Learners plan and build a ramp designed for maximum distance a car can travel. In this physics and data collection math lesson plan, students work in groups to design a ramp using various household materials. Learners test small cars on...
Curated OER
Mr. and Miss Big Feet
Third graders experiment with gravitational force. In this physical science lesson, 3rd graders send matchbox cars off a ramp while changing the amount of weight attached to the car. Students record their data and discuss the results.
Curated OER
Slide Right On By Using an Inclined Plane
Fourth graders examine the simple machine known as a plane. They build their own pyramid and identify the role of screws. They participate in a hands-on activity in which they determine the angle in which to make it easier to pull.
Curated OER
Incline Planes
In this inclined planes worksheet, students review the equations for mechanical advantage using forces or distance. Students complete 6 matching, 11 fill in the blank, and 6 problems to solve.
Curated OER
Forces and Motion -- The Downhill Racer
Pupils examine the movement of a car on an inclined plane and on a flat surface. Using the amount of drops the car releases, they determine if it was traveling at a constant speed or not. They graph the velocity and acceleration rates of...
Curated OER
Inclined Planes
Pupils break into small groups with each group using 3 books, a board with pulleys attached at both ends, a toy cart, a small paper cup with a long piece of string attached the end and some pennies. They test their guesses to see if it...
Hawaiʻi State Department of Education
Machines
What do science and dance have in common? Simple machines, work, and force! First, children discuss machines, wheels, inclined planes, and wedges. They create inclined planes with their bodies and make up dances about wheels and wedges....
Teach Engineering
A Simple Solution for the Circus
Class members are challenged to design a device that will move a circus elephant into a train car. Groups brainstorm ideas that use simple machines to load the elephant. They then choose one of their ideas, sketch a plan, and present it...
Curated OER
Forces and Movement
In this forces and motion worksheet, students study the 3 illustrations of cars traveling down a ramp. Students determine which cars will earn 1, 2, 3 place based on their motion. Students then draw 2 more cars: one that will travel...
Curated OER
Acceleration Lab
Young Einsteins experiment with the acceleration of Hot Wheels™ toy cars down inclined planes at various angles. This classic physics lab activity is thoroughly explained in both a teacher’s guide and a student lab sheet. Science...
CK-12 Foundation
Power and Efficiency Simulation
How much energy in Jewels does it take to tow a car up a slope? Scholars explore different values of both kinetic and potential energy to answer that question. Through multiple levels, the difficulty increases — as does your young...
Curated OER
Force And Motion With Cars
Students discover that different things move at different speeds. They compare the distance a car travels on a ramp with and without a push. They
push the car with one finger the first time, let it move without a
push the next time (no...