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...
NASA
What Comes Next
Where is NASA going next with their rockets? A reading provides an overview of the next generation of rockets for space exploration. A full-page diagram gives the reader a scaled perspective of what this rocket may look like, for both...
NASA
A Pictorial History of Rockets
3, 2, 1: Blast off! Take a look at the history of rockets through a camera lens. A set of 41 cards displays more than 2,000 years of rockets, from their use as toys to space flight.
NASA
Rocket Races
And they are off! Using Styrofoam meat trays and balloons, individuals build racers that demonstrate Newton's Third Law of Motion. Pupils run their racers three times and make improvements between each trial. To conclude the activity,...
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
Missed Messages
Learners investigate the challenges of space communication with a kinesthetic modeling activity. Group members In space must communicate one word to other members on Earth while overcoming barriers such as distance, gravity, and physical...
NASA
Measuring Solar Energy During an Eclipse
Don't leave your classes in the dark! An inquiry-based lesson has young researchers analyze the light intensity before, during, and after a solar eclipse. They use their data to make inferences about the solar energy available during...
NASA
How to Do a Science Fair Project
Build problem-solving skills with science! Step-by-step videos walk investigators through each stage of completing a science fair project. Scientists learn to formulate a testable question, design an experiment, collect data, draw...
NASA
Feel the Heat
Heat water up like a NASA engineer. Using the engineering design process, investigators create a system to trap and move heat through a water-filled tube. Designers participate in a post-activity discussion that highlights the role of...
NASA
Collecting Light: Inverse Square Law Demo
Light, distance, and mathematics come together to help scientists plan for space missions. Groups examine the relationship between distance from the sun and light availability in a hands-on exploration activity. They model the inverse...
Bonneville
Passive Solar Water Heating
Put empty milk jugs to good use. Scholars consider the characteristics they might change about a milk jug to improve light absorption. They design a passive solar water heater using the milk jug and then measure the temperature change in...
NASA
Touchdown
Just how do astronauts stay safe during moon landings? Here's an activity that allows investigators to use the engineering process to explore how shock absorbers protect astronauts during landing. Applying knowledge of gravity, force,...
NASA
On Target
Crash into engineering by sending a marble to land on a target by way of a zip line. Using a zip line, pupils put engineering design processes into practice by modifying a cup to carry and release a marble onto a target. Scientists test,...
NASA
How Far Away Is Space?
Space is about 60 miles from the surface of Earth. Pupils make calculations to model that distance by stacking coins the appropriate height using scale. They then explore the distance to objects in space such as satellites and the space...
NASA
Make a Planetary Exploration Balloon
Balloons aren't just for parties! An inquiry-based lesson explores the idea of using balloons for space exploration. Learners become engineers as they attempt to control the ascent and descent of a helium balloon using different masses.
Bonneville
Solar Energy
Put the infinite power of the sun to good use. Young scientists learn about solar energy by completing a challenging project. They imagine that they are in charge of planning a solar panel array for a building and must decide where to...
Bonneville
Wind Energy
Let the wind take pupils to a new understanding of renewable energy. The fifth of seven parts in the A Community Powered by Renewable Energy unit has learners investigate wind energy. They find out why wind occurs, learn about windmills...
Bonneville
What is Electricity and How Do We Use It?
Use some electrifying lessons to learn about electricity. Future scientists discover the history of electricity and the basics of electric circuits. They learn how to read an electricity bill and then create circuits to power a fan,...
PBS
Longitudinal Waves | UNC-TV Science
Discover whether sound travels in space and other fascinating science facts. Scientists explore energy transfer by longitudinal waves and learn about compression, rarefaction, amplitude, and wavelength while watching an animated video....
PBS
Thermal Radiation: Heat Transfer | UNC-TV Science
What do people, campfires, and microwaves have in common? Investigators explore heat transfer by thermal radiation, discover the role of electromagnetic waves, and see examples of radiation while viewing a video. Scholars challenge their...
PBS
Convection: Heat Transfer | UNC-TV Science
Learn why what goes up must come down in both air and liquids. Investigators discover how convection transfers thermal energy and the movement of particles in liquids and gases due to density differences by viewing an animated video....
PBS
Thermal Energy 101: Heat Transfer | UNC-TV Science
Discover what makes a cup of tea feel hot one minute and cold the next. Young physicists learn about thermal energy, why substances feel hot or cold, and the three means of thermal energy transfer: conduction, convection, and radiation...
PBS
Properties of Matter: Matter's Physical Properties | UNC-TV Science
Does gold really boil? Learn what temperature gold boils at and more using an animated activity about the properties of matter. Scientists learn about the properties of matter including examples of physical properties, the effect changes...
PBS
Phase Changes | Phases of Matter | UNC-TV Science
Take an energetic ride through the phase changes of a water molecule in a compact activity. Young scientists learn about the phases of matter and discover the role of thermal energy in governing phase changes while watching a short...