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In this lesson, students learn that the sun heats up land, air, and water and study basic line plots of authentic NASA data. Students will practice drawing conclusions based on graphed data. The lesson provides detailed procedures, related links and... (View More) sample graphs, follow-up questions, extensions, and teacher notes. Designed for student use, MY NASA DATA LAS samples micro datasets from large scientific data archives, and provides structured investigations engaging students in exploration of real data to answer real world questions. (View Less)
In this activity about the Sun's influence on plant growth, learners will create a plant box and observe that a plant will grow towards the Sun, its primary source of energy. By periodically collecting data on the growth of the plant, they can come... (View More) to their own conclusions about why the plant grew towards the sunlight. One to two weeks are needed to grow plants for this lesson; also, time is needed to construct the plant box. Potting soil and bean seeds are needed for this activity. (View Less)
In this hands-on activity, learners will build a solar cooker by lining a box with reflective material and adding a translucent cover. The cooker can be used to make food products. This activity recommends use of empty (clean) pizza boxes. This... (View More) activity requires a sunny outdoor location for an extended period of time. (View Less)
This is an activity about the size and scale of the Sun, Earth and Moon. Learners will collectively paint and label a model of the Sun and determine the comparative sizes of these three bodies. Learners can then complete a worksheet to further... (View More) explore the mathematical concepts of less than, greater than, and equal to. This activity will require various materials of specific measurements to ensure accuracy. This is Activity 3 of a larger resource entitled Eye on the Sky. (View Less)
This is an activity about the rotation of the Earth and Sun, and the Earth's revolution around the Sun. In chalk, learners will draw the Sun-Earth system, complete with Earth's orbit, and then act out the rotation and revolution of a yearly cycle.... (View More) Learners will also complete a worksheet to reinforce visual understanding of this model. This activity requires an outdoor location with ample room and is Activity 6 of a larger resource entitled Eye on the Sky. (View Less)
This is an activity about day and night as a result of the Earth's rotation. Learners will first identify what they already know about day, night, and rotation and will be asked to share any questions they may have. Then, a book is read out loud in... (View More) class and students are asked to identify relevant and important vocabulary words. On day two of this activity, learners will act as the Earth in creating a kinesthetic model of the day and night rotation. Lastly, learners will identify what was learned and complete a worksheet. This is Activity 5 of a larger resource entitled Eye on the Sky. (View Less)
This is an activity about how to model and label a solar eclipse. Learners will paint and label an illustration of the Sun and Moon as they appear during a solar eclipse. Learners will also use their illustrations of the Sun to write a descriptive... (View More) paragraph of solar characteristics and features. These illustrations are meant to be used as covers for their portfolio book which will contain the work sheets and student writings compiled throughout the entire Eye on the Sky suite of lessons. This is Activity 13 of a larger resource entitled Eye on the Sky. (View Less)
This is an activity used to identify students' initial ideas and potential scientific misconceptions about the Sun. Learners will draw and label the Sun and write a supplemental paragraph containing what they know about the Sun. This is Activity 1... (View More) of a larger resource entitled Eye on the Sky. (View Less)
This is an activity about shadows and how the Sun's location affects the direction of a shadow. Learners will first identify what they already know about shadows and will be asked to share any questions they may have. Then students will be taken... (View More) outside to observe and trace a classmates shadow. From this tracing, students will complete a worksheet by drawing their partner, his or her shadow, and the location of the Sun. Two to three hours later, this observation and tracing process will be repeated, allowing students to witness the movement of shadows as a result of the Earth's rotation. This activity requires a sunny day with plenty of outdoor space to trace the shadows of all students. This is Activity 4 of a larger resource entitled Eye on the Sky. (View Less)
This is an activity about the rotation of the Earth and its revolution around the Sun, as well as the rotation of the Moon and its revolution around the Earth. Outside, in chalk, learners will draw the Sun and Earth system complete with Earth's... (View More) orbit. Learners will then add to the chalk drawing the placement of the Moon and the path of its orbit around the Earth. Volunteers will then act out the rotation and revolution of a yearly cycle of the Moon, Earth and Sun. Learners will also complete a worksheet to reinforce visual understanding of this model. This activity requires an outdoor location with ample room and is Activity 8 of a larger resource entitled Eye on the Sky. (View Less)