Micron Technology Foundation
Forces of Motion: Rockets
Young scientists design a rocket to launch using Newton's Laws of Motion in order to discover for themselves the forces of motion.
NASA
Newton Car
If a car gets heavier, it goes farther? By running an activity several times, teams experience Newton's Second Law of Motion. The teams vary the amount of weight they catapult off a wooden block car and record the distance the car...
Institute of Electrical and Electronics Engineers
Water Rocket Launch
How do rockets fly? Teams design, build, and launch a rocket made from a two-liter bottle to explore forces on a rocket such as Newton's Laws of Motion. During the design phase, young engineers draw a diagram of their rocket and include...
NASA
Applying Newton’s Laws
Newton's Laws get the rocket to work, but do they serve any other functions? A six-page resource classifies rockets by the type of propellant they use. It then describes applications of Newton's Laws of Motion, both in the ability to...
NASA
Water Rocket Construction
What are the basics for building a rocket out of a two-liter bottle? The procedures outline the basics to create an air- and water-powered bottle rocket. Prior to launching the rockets, teams perform safety checks to ensure their designs...
NASA
How Rockets Work
Now, that's some fire power! A five-page handout provides a description of the basics of how rockets work. The reading explains Newton's Laws of Motion by beginning with defining some of the important terms. The article finishes by...
New York City Department of Education
Straw Rockets
Scholars become rocket scientists as they take off on a journey exploring Newton's laws of motion. After learning the laws of motion, pupils design their own investigations using straw rockets. They highlight their literacy skills in a...
Teach Engineering
May the Force Be With You: Thrust
Force the plane through the air. The lesson introduces the force on an airplane that makes it go forward. Pupils learn how Newton's laws of motion apply to flight in the eighth segment of a 22-part unit on flight.
Curated OER
Rocketry
Middle schoolers design and construct a paper rocket that can be launched with a drinking straw. They participate in a lecture and read an article about rocketry and how Newton's Third Law applies to rocket launches. Each student...
DiscoverE
Air-Powered Mini Rocket
Does the position of the clips make a difference? The activity provides directions to build and test a paper rocket. Pupils attach paper clips to the rocket in different configurations and measure the distance the rocket flies each time....
DiscoverE
Rocket-Powered Ski Lift
If a ski lift had rockets, imagine how fast it would be! Scholars let their imaginations take flight as they build models for such a ski lift. Rather than using a rocket, though, they'll use a much safer balloon as the power source.
NASA
Water Rocket Launcher
How can you launch an object that isn't propelled by air? The resource provides directions to build a launcher to launch rockets made of two-liter bottles. The launcher, built mainly from materials found at the local hardware store, uses...
NASA
Project X-51
In a nose-cone to nose-cone competition, which rocket will prevail? Teams form rocket companies to design and build a rocket while competing against other teams in an economic challenge. The team that comes up with the best benefit/cost...
Curated OER
Rockets on a Shoestring Budget
Learners, operating under simulated budget constraints, build pop-rockets and launch them. Working in pairs, they complete budget worksheets and use their "Blast Off Bucks" to pay for the construction. They then redesign their rockets...
Curated OER
Rocket Science 101
Students explore the aspects of Newton's First and Third Laws of Motion as they conduct controlled rocketry experiments and analyze the Mars Mission in terms of the principles of rocketry.
Curated OER
Balloon Rockets
Learners, after reviewing and analyzing Newton's third law of motion, make balloon rockets and experiment with a variety of models. After the experiment, they chart the results and form conclusions. In addition, they compare/contrast...
Curated OER
Rocket Me into Space
Students engage in a lesson that reinforces rockets as a vehicle that helps us explore outside the Earth's atmosphere by using the principles of Newton's third law of motion. Also, the principles that engineers deal with when building a...
Curated OER
Laboratory: Micro Rockets
If you know how to employ the exothermic reaction between hydrogen gas and oxygen gas to make a miniature rocket, then this worksheet is a fabulous lab sheet for your chemistry charges. First, they observe a spark in pure oxygen and one...
Teach Engineering
Get Me Off This Planet
What do Newton's Laws have to do with getting from Earth to Mars?The activities in this resource show how Newton's Laws work with rockets to get them into space. Background information includes facts about orbits and how orbits are used...
Curated OER
Newton's Laws
In this motion worksheet, high schoolers read about the 3 laws of motion and then complete a graphic organizer describing the laws and giving an example for each one.
Institute of Electrical and Electronics Engineers
Blast Off!
With the use of a model rocket kit, aspiring aerospace engineers work cooperatively to construct and launch a rocket. A preparatory reading assignment is included, covering Newton's laws of motion and information about the first...
Curated OER
Newton's Laws and Rocketball
Students investigate Newton's Three Laws. In this Newton's Law lesson, students write the laws in their own words. Students then do an experiment with a ping pong ball. Students drop the ball from a set distance and record their results,...
Curated OER
Bottle Rocket
Young scholars construct and launch a simple bottle rocket. Working in teams, they construct a simple bottle rocket from 2-liter soft drink bottles and other materials.
Teach Engineering
The Great Gravity Escape
Groups simulate an orbit using a piece of string and a water balloon. Individuals spin in a circular path and calculate the balloon's velocity when the clothes pin can no longer hold onto the balloon.