In this hands-on activity, learners begin by estimating the size of each planet in our Solar System and Pluto and making each out of playdough or a similar material. Then, learners follow specific instructions to divide a mass of playdough into the... (View More) size of each planet and Pluto and compare the actual modeled sizes to the students' own predictions. This activity requires a large amount of playdough material per group of learners. Three pounds is the minimum amount required for each group. (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 motion of the Sun, Earth and Moon, specifically rotation and revolution. After identifying what they already know about the Sun, Earth and Moon, learners will observe and manipulate a styrofoam ball model of the Sun,... (View More) Earth, and Moon system. This activity requires a location with an open space approximately ten feet by ten feet in area, and is Activity 9 of a larger resource entitled Eye on the Sky. (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 exploring the concept that distance affects how we perceive an object's size, specifically pertaining to the size of the Sun and the Moon as seen from Earth. Learners will complete a hands on activity where two balls of differing... (View More) sizes stand in for the Sun and the Moon. By moving the balls away from each other, students will determine how far the larger ball needs to be in order to make the two seem similar in size. They will also use the balls to demonstrate a solar eclipse. Lastly, learners will complete a worksheet explaining their findings. This is Activity 12 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 the motion of the Sun and the Earth, specifically rotation and revolution. After identifying what they already know about the Sun, learners will observe and manipulate a styrofoam ball model of the Sun and Earth. This... (View More) activity requires a location with an open space approximately ten feet by ten feet in area, and is Activity 7 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)