Astronomy is the study of the universe, and when studying the universe, we often deal
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1 A s t r o n o m i c a l S c a l e Astronomical Scale Astronomy is the study of the universe, and when studying the universe, we often deal with unbelievable sizes and unfathomable distances. To help us get a better understanding of these sizes and distances, we can put them to scale. Scale is the ratio between the actual object and a model of that object. Some common examples of scaled objects are maps, toy model kits, and statues. Maps and toy model kits are usually much smaller than the object it represents, whereas statues are normally larger than its analog. Today, we will create a scaled model of our solar system. To do this, we must find a ratio. We start by selecting an object [] we would like the solar system to be scaled to. For our convenience, we will use a yellow fitness ball as today s representation for our sun. Next, look for a common parameter. Let s use the diameters of the fitness ball and the Sun [2]. The diameter of our fitness ball is 24 (inches). The diameter of the Sun is,400,000km (kilometers). Before we go on, we must determine the system of units [3] that we want to use. Doing so greatly reduces the chance for miscalculations. In astronomy, like in all sciences, we use the metric system, also known as the International System of Units (SI for short).
2 A s t r o n o m i c a l S c a l e 2 The metric system is a base-0 system, which essentially means it is very easy to change and use units within this system. Our fitness ball is in the imperial system. To convert it, let s use a unit in the metric system that is similar in size to inches. Here, we ll change inches to centimeters (cm). One inch is exactly 2.54cm, and the diameter of our fitness ball is 24, so multiply 2.54cm by 24 [4]. We conclude that the diameter of the fitness ball is about 6cm. Now that the measurements are in the same system, we need to check if the units are the same between the fitness ball and the Sun. Our fitness ball is in centimeters and the Sun is in kilometers, so clearly, they are not the same. Let s change that. The metric system is based off the meter (hence the name of the system), so let s convert the centimeters and kilometers into meters. centi- means one hundredth (0.0) and kilo- means one thousand (,000), so cm is one hundredth of a meter and km is one thousand meters. We can now change units of the fitness ball and the Sun with this knowledge. For the fitness ball, multiply 6cm by 0.0. For the Sun, multiply,400,000km by,000 [5]. We conclude that the diameter of the ball is 0.6m and the diameter of the Sun is,400,000,000m.
3 A s t r o n o m i c a l S c a l e 3 We can finally determine our ratio! To do this, always divide the size of the object you want to scale to (the numerator) by the size of the actual object (the denominator). In our case, divide the diameter of the fitness ball by the diameter of the Sun [6]. We conclude that this number is about Note that the units canceled each other out. This can be written in scientific notation as 4.4 X 0-0 or 4.4E-0, both of which are clearer to read. We will use 4.4E-0 because it is easier to type this number style into our calculators. Now that we have figured out our model s ratio, we can calculate the scaled sizes of the planets and their relative distances. As an example, we ll take Mercury, the closest planet to the Sun. The diameter of Mercury is roughly 4,900km. Note that this number s units are in kilometers. Our ratio was determined by using meters, however, so we must change the diameter of the object into meters [7]. Mercury s actual diameter in meters is 4,900,000m. With this number, multiply the actual diameter of the object by our ratio [8]. We conclude that Mercury s diameter in our model is about 0.002m or 0.2cm, about the width of the tip of a crayon.
4 A s t r o n o m i c a l S c a l e 4 The distance that Mercury is from the Sun varies because Mercury revolves around the Sun in an elliptical pattern, but we will use the semi-major axis, the farthest distance the planet is from the Sun. This is nearly 58,000,000km for Mercury. As we did previously, we need to change kilometers into meters. So using 58,000,000,000m instead, multiply the semimajor axis by our ratio [9]. We conclude that the closest planet is surprisingly far away from our fitness ball a distant 25 meters away! Now that I ve shown you how to scale down our solar system to the fitness ball standard, determine with a partner the sizes and distances for the other seven planets. Once you are done, come up to the desk and select the object that best represents the size for each of your planets. At the end of the lab, we will go outside and try to visualize just how far our models are from each other.
5 Example Sheet A s t r o n o m i c a l S c a l e 5 Determine the Ratio. Select the fitness ball as the object that the Sun will be scaled to. 2. The diameter of the fitness ball is 24, and the diameter of the Sun is,400,000km. 3. Use the metric system cm =, so: 2.54cm 24 6cm 5. The fitness ball needs to be in meters, so: 6cm m 00cm = 0.6m And the Sun needs to be in meters as well, so:,400,000km,000m km =,400,000,000m 6. To get the ratio, we divide the diameter of the fitness ball by the Sun: 0.6m,400,000,000m 4.4E-0
6 A s t r o n o m i c a l S c a l e 6 Determine the Scaled Diameter 7. Our object is Mercury, so: 4,900km,000m km = 4,900,000m 8. Mercury s actual diameter multiplied by our ratio is: 4,900,000m 4.4E m 0.002m 00cm m = 0.2cm Determine the Scaled Distance 9. The semi-major axis of Mercury is 58,000,000km, so: 58,000,000km,000m km 58,000,000,000m 4.4E-0 26m = 58,000,000,000m
7 A s t r o n o m i c a l S c a l e 7 Work Sheet. Actual Diameter of Mercury Scaled Diameter of Mercury 4,900km,000m km = 4,900,000m : 4,900,000m 4.4E-0 = 0.002m 0.002m 00cm m = 0.2cm 2. Actual Diameter of Venus Scaled Diameter of Venus 3. Actual Diameter of Earth Scaled Diameter of Earth 4. Actual Diameter of Mars Scaled Diameter of Mars 5. Actual Diameter of Jupiter Scaled Diameter of Jupiter 6. Actual Diameter of Saturn Scaled Diameter of Saturn 7. Actual Diameter of Uranus Scaled Diameter of Uranus 8. Actual Diameter of Neptune Scaled Diameter of Neptune
8 A s t r o n o m i c a l S c a l e 8. Actual Distance of Mercury Scaled Distance of Mercury 5,800,000km,000m km = 5,800,000,000m; 5,800,000,000m 4.4E-0 26m 2. Actual Distance of Venus Scaled Distance of Venus 3. Actual Distance of Earth Scaled Distance of Earth 4. Actual Distance of Mars Scaled Distance of Mars 5. Actual Distance of Jupiter Scaled Distance of Jupiter 6. Actual Distance of Saturn Scaled Distance of Saturn 7. Actual Distance of Uranus Scaled Distance of Uranus 8. Actual Distance of Neptune Scaled Distance of Neptune
9 A s t r o n o m i c a l S c a l e 9 Data Sheet Solar System Object Actual Diameter (km) Actual Diameter (m) Scaled Diameter (cm) Portrayal of Scaled Object Sun,400,000,400,000,000 6 Fitness Ball Mercury 4,900 4,900, Venus 2,000 Earth 3,000 Mars 6,800 Jupiter 40,000 Saturn 20,000 Uranus 5,000 Neptune 49,000
10 A s t r o n o m i c a l S c a l e 0 Data Sheet Solar System Object Actual Distance (km) Actual Distance (m) Scaled Distance (m) Sun Mercury 58,000,000 58,000,000, Venus 0,000,000 Earth 50,000,000 Mars 230,000,000 Jupiter 780,000,000 Saturn,400,000,000 Uranus 2,900,000,000 Neptune 4,500,000,000
11 Homework A s t r o n o m i c a l S c a l e Scale the Sun to the Sunsphere, and use this new ratio to determine the semi-major axial distances of the eight planets. The diameter of the Sunsphere is 74 (feet). Follow the Example Sheet if you need a reference. Remember that foot equals 2 inches. Solar System Object Actual Distance (km) Actual Distance (m) Scaled Distance (m) Sun Mercury 58,000,000 Venus 0,000,000 Earth 50,000,000 Mars 230,000,000 Jupiter 780,000,000 Saturn,400,000,000 Uranus 2,900,000,000 Neptune 4,500,000,000
12 Homework Work Sheet A s t r o n o m i c a l S c a l e 2. Determine the Ratio 2. Actual Distance of Mercury Scaled Distance of Mercury 3. Actual Distance of Venus Scaled Distance of Venus 4. Actual Distance of Earth Scaled Distance of Earth 5. Actual Distance of Mars Scaled Distance of Mars 6. Actual Distance of Jupiter Scaled Distance of Jupiter 7. Actual Distance of Saturn Scaled Distance of Saturn 8. Actual Distance of Uranus Scaled Distance of Uranus 9. Actual Distance of Neptune Scaled Distance of Neptune
x Distance of the Sun to planet --------------------------------------------------------------------
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