Package: Loose Leaf Physical Science With Connect Access Card
11th Edition
ISBN: 9781259732232
Author: Bill W Tillery
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 15, Problem 5PEB
An elementary school class is building a scale model of the solar system in the gymnasium that can accommodate a model diameter of 30 m. What is the necessary conversion ratio for model dimensions in meters to kilometers of actual distance?
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Write the following measurements in scientific notation. All answers should be written up to hundredths place. Follow the rules in rounding off numbers.
Quantity
Measurement
Scientific notation
1. diameter of the
sun
1391400 km
2. Speed of light
2997792458 m/s
3. distance of the earth from the sun
149597870700 m
4. size of bacteria
0.0005 m
5. diameter of proton
0.000 000 000 001 mm
Why is it difficult to make a model of the Solar System that is correct with reference to both planetary diameter and distance?
Suppose you were given a 3 in diameter ball to represent the Earth and a 1 in diameter ball to represent the Moon. (The actual ratio of Earth diameter to Moon diameter is 3.7 to 1.)
The actual average Earth–Moon distance is about 384,000 kilometers, and Earth’s diameter is about 12,800 kilometers. How many “Earth diameters” is the distance from Earth to the Moon?
Based on your answer to Question 2, what is the correct scaled distance of the Moon, using the 3-inch ball as Earth?
The Sun’s actual diameter is about 1,400,000 kilometers. How many “Earth diameters” is this? Given your 3-inch Earth, how large (i.e what diameter) of a ball would you need to represent the Sun? Give your answer in feet.
The average Earth–Sun distance is about 149,600,000 km. To represent this distance to scale, how far away would you have to place your 3-inch Earth from your Sun? Give your answer in feet.
Could we use this scale to visualize the solar system instead of just the Earth and Moon? Why or Why…
Chapter 15 Solutions
Package: Loose Leaf Physical Science With Connect Access Card
Ch. 15 -
1. The mass of the Sun is how much larger than...Ch. 15 -
2. The distance from Earth to the Sun is called a...Ch. 15 -
3. What type of planets are Mercury, Venus,...Ch. 15 -
4. Which of the following is most likely found on...Ch. 15 -
5. What is the outermost...Ch. 15 -
6. The planet that was named after the mythical...Ch. 15 -
7. A day on which planet is longer than a year on...Ch. 15 -
8. The day on which planet is about the same time...Ch. 15 -
9. Mars has distinct surface feature-related...Ch. 15 -
10. How many moons orbit...
Ch. 15 -
11. What is the largest planet in our solar...Ch. 15 -
12. Callisto, Europa, Ganymede, and Io...Ch. 15 -
13. The density of Jupiter is
a. 50 percent...Ch. 15 -
14. The only moon in the solar system with a...Ch. 15 -
15. Saturn’s rings are thought to be
a. composed...Ch. 15 -
16. The planet with the lowest average density,...Ch. 15 -
17. The planet that is not a giant...Ch. 15 -
18. What planets are considered...Ch. 15 -
19. Area of the solar system where long-period...Ch. 15 -
20. Short-period comets have orbital periods...Ch. 15 -
21. Remnants of comets and asteroids found in...Ch. 15 -
22. Meteorites are classified into all of the...Ch. 15 -
23. The most widely accepted theory on the origin...Ch. 15 -
24. The belt of asteroids between Mars and...Ch. 15 -
25. Which of the following planets would be...Ch. 15 -
26. Which of the following planets probably still...Ch. 15 -
27. Venus appears the brightest when it is in...Ch. 15 -
28. The small body with a composition and...Ch. 15 -
29. A small body from space that falls on the...Ch. 15 -
30. Planets in our solar system are classified...Ch. 15 -
31. What separates the terrestrial planets from...Ch. 15 -
32. The planet that has the shortest “year” among...Ch. 15 -
33. What planet is called the morning star and...Ch. 15 -
34. Venus “shines” because it is
a. composed of...Ch. 15 -
35. On Venus, the sun rises in the west. This is...Ch. 15 -
36. The “sister” planet to Earth...Ch. 15 -
37. What feature on Mars was considered by some...Ch. 15 -
38. Jupiter radiates twice as much energy as it...Ch. 15 -
39. The Great Red Spot is thought to be
a. a...Ch. 15 -
40. The metallic hydrogen that surrounds the core...Ch. 15 -
41. A shooting star is a...Ch. 15 -
1. Describe the protoplanet nebular model of the...Ch. 15 -
2. What are the basic differences between the...Ch. 15 -
3. Describe the surface and atmospheric...Ch. 15 -
4. What evidence exists that Mars at one time had...Ch. 15 -
5. Describe the internal structure of Jupiter and...Ch. 15 -
6. What are the rings of Saturn?
Ch. 15 -
7. Describe some of the unusual features found on...Ch. 15 -
8. What are the similarities and the differences...Ch. 15 -
9. Give one idea about why the Great Red Spot...Ch. 15 -
10. What is so unusual about the motions and...Ch. 15 -
11. What evidence exists today that the number of...Ch. 15 -
12. Using the properties of the planets other...Ch. 15 -
13. What are “shooting stars”? Where do they come...Ch. 15 -
14. What is an asteroid? What evidence indicates...Ch. 15 -
15. Where do comets come from? Why are...Ch. 15 -
16. What is a meteor? What is the most likely...Ch. 15 -
17. What is a meteorite? What is the most likely...Ch. 15 -
18. Technically speaking, what is wrong with...Ch. 15 -
19. What are the primary differences between the...Ch. 15 -
1. What are the significant similarities and...Ch. 15 - Prob. 2FFACh. 15 -
3. Evaluate the statement that Venus is Earth's...Ch. 15 -
4. Describe the possibility and probability of...Ch. 15 -
5. Provide arguments that Pluto should be...Ch. 15 -
6. Explain why is it difficult to count the...Ch. 15 - Prob. 1IICh. 15 -
1. Based on the density and diameter in km...Ch. 15 - Prob. 2PEBCh. 15 -
3. A scale model of the solar system is being...Ch. 15 -
4. How many times has Uranus rotated on its axis...Ch. 15 -
5. An elementary school class is building a scale...Ch. 15 -
6. A class is building scale models of the...Ch. 15 - Prob. 7PEBCh. 15 -
8. A 1 cm thick piece of lead with a surface area...Ch. 15 -
9. Assume an astronaut at a space station on Mars...Ch. 15 -
10. What is the mass of the Sun, in kilograms,...Ch. 15 -
11. What is the mass of the Sun, in kilograms,...Ch. 15 -
12. Based on Kepler’s third law, what is the...Ch. 15 -
13. Based on Kepler’s third law, what is the...Ch. 15 - Prob. 14PEBCh. 15 -
15. Assuming a circular orbit, what is the...
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.Similar questions
- Give four ways to demonstrate that Earth is spherical.arrow_forwardThe day on Mars is 1.026 Earth-days long. The martian year lasts 686.98 Earth-days. The two moons of Mars take 0.32 Earth-day (for Phobos) and 1.26 Earth-days (for Deimos) to circle the planet. You are given the task of coming up with a martian calendar for a new Mars colony. Would a solar or lunar calendar be better for tracking the seasons?arrow_forwardWe need to create a scale model of the solar system (by shrinking the sun down to the size of a basketball or ~30cm). First, we will need to scale down actual solar system dimensions (planet diameters and average orbital radiuses) by converting our units. There are two blank spaces in the table below. We will effectively fill in the missing data in the next set of questions. Use the example below to help you. Example: What is the scaled diameter of Mercury if the Sun is scaled to the size of a basketball (30 cm)? The actual diameter of Mercury is 4879 km The Sun's diameter is 1392000 km If the Sun is to be reduced to the size of a basketball, then the conversion we need for this equation will be: 30cm1392000km Here is how we run the conversion: 4879km×30cm1392000km=0.105cm or 0.11cm if we were to round our answer. This means that if the sun in our model is the size of a basketball, Mercury is the size of a grain of sand. We can also see by looking at the table, that we would…arrow_forward
- any scale model for solar system the sun is represented by an object that is 4.5 feet in the diameter how large would a scale earth need to be in feet in this modelarrow_forwardIf there were a planet about 9 times as far from the Sun as Earth is, what would its solar constant be? The solar constant of the Earth is 1350 watts per square meter. This question is not multiple choice. Provide an answer that is in watts per square meter (round to the nearest 10 watts per square meter).arrow_forwardThe planetarium is making a scale model of the solar system. If they use a basketball to represent the sun. How far from the basketball should the earth be?arrow_forward
- The Sun’s center is at one focus of Earth’s orbit. How far from this focus is the other focus, (a) in meters and (b) in terms of the solar radius, 6.96 *10^8 m? The eccentricity is 0.0167, and the semimajor axis is 1.50 * 10^11 m.arrow_forwardWhat is the size of the sunarrow_forwardhow many seconds are in a mars year that has approx 678 earth days ?arrow_forward
- Which of the following incidents will cause the solar constant of a planet to decrease? Select all that apply: a. the planet moves farther from the sun b. the planet’s albedo increases c. the planet’s atmosphere thins d. the sun’s total energy output decreasesarrow_forwardThe distance between Jupiter and the sun is usually measured in astronomical units.one astronomical unit is defined as:...arrow_forward
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