Janice VanCleave's Astronomy for Every Kid: 101 Easy Experiments that Really WorkWhy do planets spin? How hot is the Sun? What keeps the Moon in orbit around the Earth? What are Saturn's rings made of? What's a black hole in space? Now you can discover the answers to these and other fascinating questions about basic astronomy. In Astronomy for Every Kid you'll learn about the constellations using a shoe box planetarium. You'll chart the movement of the stars with nothing but a string, a marker, and a nail. And you'll use a toy magnet to simulate the Earth's protective force field. Each of the 101 experiments is broken down into its purpose, a list of materials, step-by-step instructions, expected results, and an easy to understand explanation. Every activity has been pretested and can be performed safely and inexpensively in the classroom or at home. Also available in this series from Janice VanCleave: Biology for Every Kid Chemistry for Every Kid Dinosaurs for Every Kid Earth Science for Every Kid Geography for Every Kid Geometry for Every Kid The Human Body for Every Kid Math for Every Kid Physics for Every Kid |
From inside the book
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Page 44
... spinning blades . Results Two black rings are seen , but you can see through the spinning blades . Why ? Your eyes blend the color on the paper 44 See Through.
... spinning blades . Results Two black rings are seen , but you can see through the spinning blades . Why ? Your eyes blend the color on the paper 44 See Through.
Page 45
... spinning paper . Saturn's rings are made of ice chunks and pieces of rock that range in size from house - size pieces to those as small as the head of a pin . The surface of Saturn is seen through the spaces between the spinning ice and ...
... spinning paper . Saturn's rings are made of ice chunks and pieces of rock that range in size from house - size pieces to those as small as the head of a pin . The surface of Saturn is seen through the spaces between the spinning ice and ...
Page 70
... spinning in a horizontal circle above your head . Release the tape and allow it to hang freely . □ Keep the spoon spinning by moving the thread spool in a circular motion . □ Observe the movement of the tape roll . Results The spoon ...
... spinning in a horizontal circle above your head . Release the tape and allow it to hang freely . □ Keep the spoon spinning by moving the thread spool in a circular motion . □ Observe the movement of the tape roll . Results The spoon ...
Common terms and phrases
aluminum foil barycenter Big Dipper black construction paper black paper block bowl carbon paper cardboard celestial bodies charged particles circular path clay ball color cone construction paper craters darkened room desk lamp distance Earth Earth's atmosphere edge face flashlight force glass heat helper Hold index card iron filings liquid magnet magnetosphere magnifying lens marble marking pen masking tape Mercury meteoroid mirror modeling clay Moon move object Observe orbit paper circle pencil piece Place planets plastic position Procedure Cut Purpose To demonstrate Purpose To determine rays Read and record record the temperature reflect refraction Results Retroreflector rotates round balloon rubber bands ruler satellites scissors Procedure shadow sheet of paper side solar eclipse space suit speed spinning spoon straight line string Sun's light telescope thermometer thermos thumb turn typing paper washer wax paper yardstick meter stick