Each lesson or activity in this toolkit is related to NASA's Lunar Reconnaissance Orbiter (LRO). The toolkit is designed so that each lesson can be done independently, or combined and taught in a sequence. The Teacher Implementation Guide provides... (View More) recommendations for combining the lessons into three main strands: 1) Lunar Exploration. These lessons provide a basic introduction to Moon exploration. Note that this strand is also appropriate for use in social studies classes. 2) Mapping the Moon. These lessons provide a more in-depth understanding of Moon exploration through the use of scientific data and student inquiry. The lessons also include many connections to Earth science and geology. 3) Tools of Investigation. These higher-level lessons examine the role of technology, engineering and physics in collecting and analyzing data. (View Less)

This is an activity about planning a planetary mission. Learners will play a card game to design a mission to Mars. This game will allow them to experience the fundamentals of the engineering design process as they use collaboration and... (View More) problem-solving skills to develop a mission that meets constraints (budget, mass, power) and criteria (significant science return). This activity can introduce many activities in technology education, including robotics and rocketry. The lesson models scientific inquiry using the 5E instructional model and includes teacher notes, vocabulary, student journal and reading. (View Less)

This activity is about planetary rovers. Learners will simulate the challenges in communications that engineers face when driving a rover on Mars. They will particpate as part of a rover team to design and execute a series of commands that will... (View More) guide a rover made of people through an obstacle course simulating the Martian surface. Students will learn the limitations of operating a planetary rover and problem solving solutions by using this simulation. The lesson models the engineering design process using the 5E instructional model and includes teacher notes, vocabulary, student journal and reading. (View Less)

This activity is about rocket shape and performance. Learners will test a rocket model and predict its motion. They will launch their rocket multiple times, make observations and record the distance it traveled. They will have the opportunity to... (View More) answer a research question by collecting and analyzing data related to finding out the best nose cone length and predicting the motion of their model rockets. The lesson models the engineering design process using the 5E instructional model and includes teacher notes, vocabulary, student journal and reading. (View Less)

This is an activity about spacecraft design. Teams of learners will model how scientists and engineers design and build spacecraft to collect, store, and transmit data to earth. Teams will design a system to store and transmit topographic data of... (View More) the Moon and then analyze that data and compare it to data collected by the Lunar Reconnaissance Orbiter . (View Less)