University of Colorado
Happy Landings: A Splash or a Splat?
Huygens spacecraft landed on Saturn's moon Titan in 2005, making it the farthest landing from Earth ever made by a spacecraft. In this hands-on activity, the 12th installment of 22, groups explore how density affects speed. To do this,...
University of Colorado
The Jovian System: A Scale Model
Jupiter has 67 moons! As the seventh in a series of 22, the exercise shows learners the size and scale of Jupiter and its Galilean moons through a model. They then arrange the model to show how probes orbited and gathered data.
Messenger Education
Can You Hear Me Now?—Communicating with Spacecraft
Radio signals transmitted to Pluto take five hours to reach their destination! In these two activities, young scientists explore data communication in space. In activity one, pupils learn how data is gathered and sent back to Earth....
Messenger Education
Exploring Solar Systems Across the Universe
Scientists have theorized that our solar system formed 4.6 billion years ago. In this pair of activities, learners first hypothesize how our solar system was formed. Using this information, groups then determine how scientists search for...
Messenger Education
Mission: Possible—How Can We Plan an Exploration of Another World?
An astronaut's spacesuit weighs 280 pounds and takes 45 minutes to put on — that's a serious suit! The second activity of a three-part series allows pupils to see all that goes into space exploration. Through simulations, groups analyze...
University of Colorado
Space Travel Guide
Neptune takes 164.8 Earth years to travel around the sun. In the fifth of 22 lessons, young scientists create a travel guide to a planet in our solar system. They provide tips for others on what to bring, what they see, and their...
Messenger Education
Give Me a Boost—How Gravity Assists Aid Space Exploration
The propellant needed for space explorations runs in the thousands, while paying to get the craft into orbit costs millions! In the second installment of three, two activities explore laws of conservation of energy and momentum. Using...
Messenger Education
Look But Don’t Touch—Exploration with Remote Sensing
Mars is home to the tallest mountain in our solar system, Olympus Mons. For this set of two activities, learners review geologic land formations through the analysis of aerial maps. They then apply this knowledge to aerial maps of...
K5 Learning
Space Based Astronomy
How much astronomy can you study with the naked eye? Learn more about the ways scientists explore the galaxy with a short reading passage and set of short-answer questions.
NASA
Astronomy Mission Module
Yes, scientists say, there is other life in our solar system! And the best place to look is on Europa, a moon of Jupiter. Here, learners mimic the techniques scientists use to gather information about objects in our solar system, write...
Teach Engineering
Edible Rovers (High School)
Design and build a rover ... then eat it? This activity has groups of two design and build Mars rovers. The teams determine what instruments they want to include with their rover and plan a budget. They calculate the cost of the body of...
Teach Engineering
Are We Alone?
Find an answer to the age-old debate of whether life exists on Mars. Groups determine criteria to help look for signs of life on Mars. The activity has the class simulate testing Martian soil samples for signs of life before drawing...
Teach Engineering
Manned Mission to Mars
To go or to not to go — the question for a mission to Mars. This resource provides details for a possible manned mission to Mars. Details include a launch schedule, what life would be like on the surface, and how the astronauts would...
Teach Engineering
Come On Over Rover
Introduce your class to the steps that occur in the manufacturing of parts, the assembly, and the testing of a Mars rover. Pupils learn about fabrication techniques and tolerances in the manufacturing process.
Teach Engineering
Strong-Arm Tactics
Experience collecting rock samples using a robotic arm with an activity that has pairs work together to operate a robotic arm. One pupil serves as the eyes and the other operates the controller. The objective is to be the fastest pair to...
Teach Engineering
Red Rover Robotics
Help your class understand the importance of exploration using robots. with a resource that provides a short history of robotics as a lead into looking at Martian robotic exploration missions. The activity specifically looks at the...
Teach Engineering
The Amazing Red Planet
Introduce your class to Mars with a resource that provides information about its size, location, length of day, length of year, number of moons, and average temperature. Also includes is information about the lans for past and future...
Teach Engineering
Six Minutes of Terror
Help your class understand the design challenges when trying to land a remote spacecraft on a planet. Class members examine the provided information to understand how each component of a spacecraft is designed in order to safely land a...
Teach Engineering
Edible Rovers
The good thing about building this rover is you get to eat it afterwards. Pairs determine rover parts they want to include in their design based upon their cost and usefulness. The teams design their rovers, build them from edible...
Mr. E. Science
Manned Space Exploration: From Apollo to Present
How did the manned space mission program progress? The presentation covers American space exploration from the Apollo missions through the International Space Station.
It's About Time
Communication Through Space
If humans do find aliens, how would we communicate with them? An intriguing lesson walks through some of the challenges associated with this question. How long would a message take to reach a specific destination, what language should we...
NASA
Marsbound! Mission to the Red Planet
It's time to go to Mars. Using the provided cards and mat, groups design a mission to Mars. The cards contain information about the different components of the launch and warn about a few mishaps that might occur along the way.
NASA
Space Transportation: Reshooting the Moon
What does it take to get stuff to the Moon? Design teams create subsystems for a space transportation system to go to the Moon. The teams study Earth transportation components along with historical space transportation systems to guide...
NASA
Creating a Space Exploration Infrastructure
What will it take to explore space? Teams of pupils determine the needs of a lunar outpost and research the required systems. The pupils then learn about the past space exploration vehicles. The third and final lesson challenges project...