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This Flash-based interactive provides access to illustrations, visualizations, videos, and near-real time images of the Sun from a variety of NASA satellites. Learners can access this information to supplement other materials related to the Sun and... (View More) heliophysics. A scale tool with the size of the Earth is also presented with the solar images. (View Less)
The activities and explorations in this guide focus on: mining publicly-available scientific data; identifying and analyzing trends in data; collecting and sharing data using collaborative tools; and sharing digital artifacts and evidence of... (View More) experimentation. The guide concludes with a data challenge for students to design their own experiment using NASA’s Magnetospheric Multiscale (MMS) satellites. This book is a continuation of the storyline and concepts that were first introduced in iMaginetic Space, a digital storybook designed to help students learn about the MMS mission. A Teacher Supplement Guide is provided with instructions and tips for classroom implementation (see Supplemental & Related URLs). Note: MMS launched March 12, 2015. For the latest science and news, visit the MMS Mission Website under Related & Supplemental Resources. (View Less)
Two comic characters, Camilla Corona, a rubber chicken, and Colours O'IRIS, a peacock, explore spectrographs. This comic is part of the series Tales from Stanford Solar.
Two comic characters, Camilla Corona, a rubber chicken, and Colours O'IRIS, a peacock, explore questions relating to colors of light from the Sun. This comic is part of the series Tales from Stanford Solar.
This is an activity about image comparison. Learners will analyze and compare images taken by the Solar Dynamics Observatory. They will match four magnetic solar images, or magnetograms, to their corresponding extreme ultraviolet, or EUV, light... (View More) images by studying solar features in the images. At the end, they will recognize that areas of high magnetic activity on the Sun correspond to extreme solar activity. (View Less)
This is an activity about image comparison. Learners will analyze and compare two sets of images of the Sun taken by instruments on the Solar Dynamics Observatory spacecraft. With Set 1, they will observe the Sun in both a highly active and a... (View More) minimally active state, and be able to detect active regions and loops on the Sun by comparing the two images. With Set 2, they will identify areas of high magnetic activity on a magnetogram image and recognize that these areas correspond to highly active regions on the Sun. (View Less)
This is a book about the importance of the Sun's energy as it relates to its impact on the Earth’s environment. Learners will read or listen to a story about a young boy, Joshua, who finds out that the Sun provides the Earth with energy in the... (View More) form of light and heat, which is necessary for all forms of life, for maintaining Earth's environment, and for allowing humans to produce their own forms of energy. Additionally, an extension activity is included, Searching for the Sun, where learners can conduct a hands-on experiment observing how plants grow towards sunlight in order to make conclusions about why the Sun’s energy is a necessary component for life. Reading and vocabulary activities are also included. (View Less)
This is an activity about perspective. Learners will examine pictures of objects up close and far away to try and figure out what they are. Then, given an image of a star and the Sun and through discussion about the differences and similarities of... (View More) seeing objects up close, learners will use the concept of perspective to relate our nearby Sun to the stars that appear as small points of light in our sky. (View Less)
This is an activity about the period of the Sun’s rotation. Learners will select images of the Sun from the SOHO spacecraft image archive. Next, they will calculate an image scale for the selected solar images. Then, they will use it to help... (View More) determine the actual speed of sunspots based on measurements of their motion in the selected Sun images and, finally, determine the period of the Sun's rotation. This activity requires access to the internet to obtain images from the SOHO image archive. This is Activity 3 of the Space Weather Forecast curriculum. (View Less)
This is an activity about cause and effect. Learners will investigate various online sources to find data and other pertinent information regarding reported effects on Earth for the solar events they identified in the previous activities in this... (View More) curriculum set. Then, they will summarize their findings for this activity as part of the overall Space Weather project. This is Activity 13 of the Space Weather Forecast curriculum. (View Less)