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...
Teach Engineering
Just Plane Simple
It is plane to see that simple machines help reduce the force needed to perform a task. This resource introduces three of the simple machines--the inclined plane, the wedge, and the screw, and the formulas in order to be able to...
Curated OER
Friction and Inclined Planes
Teaching about inclined planes may seem like an uphill battle, but there's a straightforward way to do it. An Honors Physics presentation covers static and kinetic friction, the forces of friction, and inclines. Additionally, it includes...
Curated OER
Incline Planes
Students determine the forces necessary to move a truck on an inclined plane with weight and slope as variables. They identify the cheapest way to transport trash to local garbage disposal sites.
Curated OER
Inclined Plane and Pulley
Students describe how inclined plane and pulleys make work easier. In this physics instructional activity, students calculate work done and mechanical advantage of both simple machines. They collect data from the experiment and construct...
Curated OER
Ramps
Students experiment to see how various objects roll down ramps. In this ramp lesson, students observe weight, size, and material of objects. Students compare speeds by using a second ramp.
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
An Introduction to Inclined Planes
Students investigate the properties of inclined planes and how implementing them can reduce the force necessary to lift objects off the ground. In this inclined planes lesson, students are introduced to the concept of simple tools and...
Curated OER
The Slant on Slides Lab
In this inclined planes worksheet, learners investigate the effort force needed to move a 1 kg weight up a ramp to different distances on the ramp. Students calculate the work input and output for each trial as well as the efficiency of...
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
Levers, Pulleys, Incline Planes
In this pulleys, levers and incline planes worksheet, students answer 22 questions about output force, energy loss, and net force on pulleys, levers and incline planes.
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
Pupils 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...
Chicago Children's Museum
Simple Machines: Force and Motion
Get things moving with this elementary science unit on simple machines. Through a series of nine lessons including teacher demonstrations, hands-on activities, and science experiments, young scientists learn about forces, motion, and...
Curated OER
Incline Planes
In this simple machine worksheet, students explore incline planes and learn how to calculate the mechanical advantage (MA) using forces or distance. This worksheet has 14 matching, 3 fill in the blank, and 6 short answer questions.
Broward County Public Schools
Force and Motion
Get the ball rolling with this upper-elementary science unit on forces and motion. Offering over three weeks of physical science lessons, this resource is a great way to engage the class in learning about simple machines, friction, the...
EngageNY
Modeling with Inverse Trigonometric Functions 2
Use inverse trigonometric functions to work with ramps, rabbits, and Talladega. The class models real-world situations with trigonometric functions and solves them using inverses in the 15th installment of a 16-part series. Pupils solve...
Curated OER
A Moving Experience - Forces and Inertia
Students consider the first part of Newton's First Law of Motion, the Law of Inertia of objects at rest, which states that every object remains at rest unless acted on by a force. They perform hands-on experiments which demonstrate this...
Curated OER
Welcome to the Wonderful World of Machines
Designed for a lower elementary school classroom, this presentation on simple machines is a wonderful way to introduce this topic. The resource begins by identifying and defining the six types of simple machines, and then goes on to...
Curated OER
Simple Machines - Museum of Science and Industry
In this museum student guide worksheet, students make a mini-book about simple machines to be used during a visit to the Museum of Science and Industry. They locate the exhibits that demonstrate the wedge, inclined plane, screw, lever,...
Curated OER
Simple Machines Stations!
Fourth graders investigate the principles and uses of an inclined plane, screw, and wedge and identify examples of simple machines. They rotate through three experiment stations, complete a worksheet for each station, and read a handout...
Curated OER
Engineering - Solid Rock to Building Block
Students role-play as engineers designing wedge tools. They devise methods for shaping quarry rocks into pyramid blocks. Following a teacher demonstration, they use materials such as soap, clay, and foam for blocks and wood, plastic,...
Curated OER
Incline Planes
In this inclined planes activity, 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.