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Building a Scale Model of the Solar System (and Beyond). Lesson 11 (Thank you to Mr. Burgard for sharing.). Bouncy balls. Be sure you have all the materials and that they are in good shape. Buttons. Fishing Bobbers. Lentils or Split Peas. Blue Marbles. Wood Beads. Ping Pong Balls.
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Building a Scale Model of the Solar System(and Beyond) Lesson 11 (Thank you to Mr. Burgard for sharing.)
Bouncy balls Be sure you have all the materials and that they are in good shape. Buttons Fishing Bobbers Lentils or Split Peas Blue Marbles Wood Beads Ping Pong Balls Paper Sun Candy Let Mr. Abe know right away if you are missing anything or if anything is not in good shape. White Beads
Procedure • Determine which of the objects should represent each planet – keeping in mind size comparison for each planet. • Record your choices on your data table. = ?
Procedure • Decide how far apart the objects would be if they really represented the scaled objects in the solar system. • Measure distances (cm) from the Sun to each planet. • Record your data in the data table. • Explain your reasoning. • Be prepared to present and defend your decisions to the class.
Discuss your thinking… • What influenced your decisions about planet sizes and order? • What influenced your decisions about distance?
Best Answers (According to Your Book) • Mercury – Lentil/Split Pea • Venus – Blue Marble • Earth - Blue Marble • Mars – Candy • Jupiter – Bouncy/Racquet Ball • Saturn – Red and White Bobber • Uranus - White Bead • Neptune - White Bead • DO NOT CHANGE YOUR ANSWERS!
How’d you do size-wise? • If you had the first 4 as smaller objects (Mercury as the smallest) and the second 4 as larger objects (Jupiter as the largest) you were on track. • This is typical because we see planets to scale on posters, in books and in diagrams. • Here are a few to scale models that compare the planets (and some stars) side by side.
How’d you do distance-wise? • Thoughts or questions from the Solar System walk? • Why were you so far off with your model? • 1 AU = the average distance from the Earth to the Sun. (A little less than 1,500,000 km)
If the Earth were the size of a peppercorn . . . Jupiter Saturn Uranus Neptune Pluto
The Solar system also includes… TheKuiper Belt
Kuiper belt Jupiter Saturn Uranus Kuiper belt Kuiper belt Neptune Pluto
And is surrounded by….. the Oort Cloud
If the Earth were the size of a peppercorn . . . Oort Cloud (1280 miles)
Oort Cloud (1280 miles) If the Earth were the size of a peppercorn . . . Closest Star (3700 miles)
Our Solar System is a subsystem of… The Milky Way Galaxy
A Small Slice of our Universe The Hubble Deep Field View (About 1/24 millionth of the sky which is equivalent in angular size to a 65 mm tennis ball at a distance of 100 meters.)
Planet Sizes for the demo today Our scale: 1 inch = 60,000 Km (100,000 mi) • Mercury – .03 inches (1 mm) • Venus – .08 inches (2 mm) • Earth - .08 inches (2 mm) • Mars – .04 inches (1 mm) • Jupiter – .9 inches (2 cm) • Saturn – .7 inches (1.7 cm) • Uranus - .3 inches (.7 cm) • Neptune - .3 inches (.7 cm)
Planet Distances for the demo today Our scale: 1 inch = 60,000 Km (100,000 mi) • Mercury – 360 in (30 ft) • Venus – 684 in (57 ft) • Earth - 930 in (77 ft) • Mars – 1440 in (120 ft) • Jupiter – 4, 860 in (405 ft.) • Saturn – 8, 892 inches (741 ft) • Uranus – 17, 856 inches (1488 ft) ~ ¼ mile • Neptune - 27, 972 inches (2331 ft) ~ ½ mile