You are hereHome ›
Now showing results 1-6 of 6
Learners model how impacts throughout the Moon's history have broken rocks down into a mixture of dust, rocks, and boulders that covers the lunar surface. They consider how the dust will continue to hold a record of human exploration — in the form... (View More) of astronaut bootprints — for countless years in the future. Children may examine a type of Earth soil ("lunar soil simulant") that is similar to what is found on the Moon's surface and that would have been shaped by the processes explored here. The children create their own records of exploration by making rubbings of their shoes. This activity is part of Explore! Marvel Moon. (View Less)
Learners read or listen to a cultural story describing a shape identified in the Moon's surface features. Then, they consider how the features formed over the Moon's 4.5-billion-year history and investigate Earth rocks that are similar. Children may... (View More) examine the types of Earth rocks (named anorthosite, basalt, and breccia) that are also found on the Moon and that would have been shaped by the processes explored here. Finally, they draw their own object or character that they see when they look at the Moon. This activity is part of Explore! Marvel Moon. (View Less)
This is an activity about how scientists use craters to determine the ages of lunar surface. Learners work in pairs: one child keeps time while the other creates a painting for the other to interpret. Cotton balls coated in different colors of paint... (View More) are thrown at paper to simulate asteroids striking the lunar surface over time. The children take turns in the time-keeping/painting roles to decipher a mystery: In what order did the "impacts" occur? Which painting has more "impacts"? They learn that scientists can estimate the age of a lunar surface by counting its craters. This activity is part of Explore! Marvel Moon. (View Less)
Learners model how the Moon's volcanic period reshaped its earlier features. The children consider that the broad, shallow impact basins contained cracks through which magma seeped up. A plate in which slits have been cut is used to represent an... (View More) impact basin and a dish of red-colored water is used to represent the pockets of magma within the Moon’s upper layers. When the model impact basin is pressed into the "magma," "lava" fills in the low areas through the same process that produced the dark patches, or maria, on the Moon. Children may examine a type of Earth rock (named basalt) that is also found on the Moon and that would have been shaped by the processes explored here. This station investigates the Moon's "teen years," when it was one to three billion years old. This activity is part of Explore! Marvel Moon. (View Less)
This is an online interactive about asteroid composition. Learners will explore how scientists learn about the composition of an asteroid by studying energy and neutrons that emanate from it. Includes audio (and transcription) explaining the diagram.
This activity is related to the discovery of water ice on Mars. Learners are provided with a global map showing where the presumed water ice is located and use it as context for analyzing and interpreting images taken with the Thermal Emission... (View More) Imaging System (THEMIS) aboard the Mars Odyssey spacecraft. They will use the water ice maps to interpret the geology of the regions on Mars and evaluate the prospects for exploring these regions in the future. A teacher guide and a student guide are available. This is an extension of the "Mars Image Analysis Activity" and is activity 5 of 5 in Buried Water Ice on Mars. (View Less)