This is an easy and fun way for students to visually understand why the Transit of Venus is so rarely seen, using a paper plate. Paper Plate Demo-Modified by University of Montana
Use this physical model to demonstrate how an eclipse occurs.
Dancing Lights provides a set of five activities that allows students in Grades 3 through 5 to explore the beauty, science and mythology of the aurora creatively through art and writing. Developed through the Laboratory for Atmospheric and Space Physics. Authors: Emiy CoBabe-Ammann, Erin Wood, Therese Possel, and Kate Becker.
The Galileo Project is a source of information on the life and work of Galileo Galilei (1564-1642). Our aim is to provide hypertextual information about Galileo and the science of his time to viewers of all ages and levels of expertise.
This bulletin board activity is designed to focus student attention on the role that sun watching has played in humankind's survival through time. As part of this display you may wish to use your own world map or download one we have created for you.
This lesson introduces the topic of the Sun. Students also begin making entries in their Science Journals.
Students will explore the relative sizes of the Sun, Earth and Moon as they make an impressive large-scale model for classroom use throughout the unit.
Students learn about shadows as they observe and draw the shadow of a classmate.
In this demonstration of day and night, students learn kinesthetically as they take on the role of the Earth orbiting the rotating Sun.
Students build sundials and observe changes in shadows over the course of one or more days.
Studying Our Scintillating Sun: Students will construct an edible model of the Sun denoting surface and interior feature.
From NASA's Quest's Learning Technologies Channel (at NASA Ames) and the Stanford Solar Center, learn more about the sun from this impressive archive of video clips and materials from past webcasts.
The most powerful aurora can generate over 1 trillion watts of power.