Students analyze and interpret the accompanying large-format images of Mars taken by NASA’s Mars Thermal Emission Imaging System (THEMIS) camera. The analysis involves identifying geologic features, calibrating the size of those features, and... (View More) determining surface history. The lesson culminates in students conducting in-depth research on questions generated during their analyses. The lesson is part of the Mars Education Program series; it models scientific inquiry using the 5E instructional model and includes teacher notes and vocabulary. Next Generation Science Standards are listed. (View Less)

In this lesson, students will design a planetary surface rover to conduct a planetary surface investigation. It uses the 5E learning cycle and is designed around an essential question: How will creating a prototype of your rover help you prepare for... (View More) the Mars Rover Celebration? The lesson objectives are to: learn about scientific careers to gain a better understanding of a sampling of careers that have contributed to designing and developing Curiosity; draw a detailed, final-design sketch/diagram of the rover that will be built; identify missions, requirements and features of the rover using labels and captions when necessary. A number of appendices are provided, including standards alignment. This is Lesson 12 of the elementary school version of the 6-week Mars Rover Celebration curriculum. (View Less)

This lesson plan uses the 5E learning cycle and is designed around an essential question: How do I know when I’ve found important information in my reading? Learning objectives include: identify important details in informational texts; learn and... (View More) or review summarizing skills, work collaboratively to locate important information about Mars such as terrain, climate, and atmosphere; understand the rationale and importance of note-taking; develop effective note-taking strategies; and apply note-taking skills to record key information in students' science notebooks. The lesson plan has a number of appendices, including standards alignment. This is Lesson 4 of the elementary school version of the 6-week Mars Rover Celebration curriculum. (View Less)

This lesson plan uses the 5E learning cycle and is designed around an essential question: Why is the method you chose for landing your Rover on Mars the best one for your mission? The lesson objectives include: examine different methods for landing... (View More) rovers on Mars; determine which landing strategy is best suited to land the team's rover; research solutions to different problems that may occur once the rover lands on Mars; learn how to write in a persuasive manner; and present a well-written persuasive argument to teammates. The lesson plan has a number of appendices, including standards alignment. This is Lesson 10 of the elementary school version of the 6-week Mars Rover Celebration curriculum. (View Less)

This lesson introduces students to Mars' history through research and discussion. Students read about the history of Mars, Mars observing, and exploration with telescopes and robotic spacecraft. After learning about Mars, students consider how some... (View More) aspects of our early understanding of Mars included fictitious ideas not based upon science and discuss the differences between science fiction and science fact. Students will illustrate a scene from Mars history with a paragraph description, and place their work along a clothesline in the classroom to create a timeline. This lesson is from “Red Planet: Read, Write, Explore!” which uses literacy, art, and creative expression as a vehicle for learning about Mars science and exploration. Includes alignment to Common Core State Standards (CCSS) for English Language Arts. (View Less)

Learners will create a physical timeline of comet appearances in art and literature throughout history. Participants use a set of photos depicting comets in art images and science missions and place the images in chronological order, while learning... (View More) about the perceptions of comets during that time period. Note: Timeline cards that are needed to complete this activity can be found under the Related and Supplemental Resources links on the right side of this page. (View Less)

Learners will use data from the Student Dust Counter (SDC) Data Viewer to establish any trends in the distribution of dust in the solar system. Students record the number of dust particles, or hits, recorded by the instrument and the average mass of... (View More) the particles in a given region. Note: Updated links to the Student Dust Counter Data Viewer and website are provided under Related & Supplemental Resources (right). (View Less)