Foundations of Astronomy (MindTap Course List)
14th Edition
ISBN: 9781337399920
Author: Michael A. Seeds, Dana Backman
Publisher: Cengage Learning
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Chapter 21, Problem 3P
What is the maximum angular diameter of Venus as seen from Earth? (Hint: Use the small-angle formula, Eq. 3-1.) (Note: Necessary data to derive the distance between the objects in that situation are given in the Celestial Profiles for Earth in Chapter 19 and Venus in this chapter.)
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Venus can be as bright as apparent magnitude −4.7 when at a distance of about 1 AU. How many times fainter would Venus look from a distance of 7 pc? Assume Venus has the same illumination phase from your new vantage point. (Hints: Recall the inverse square law; also, review the definition of apparent visual magnitudes. Note: 1 pc = 2.1 ✕ 105 AU).
[fill in the blank] times fainter
What would its apparent magnitude be?
Chapter 21 Solutions
Foundations of Astronomy (MindTap Course List)
Ch. 21 - Describe four ways Venus is similar to Earth...Ch. 21 - Why might you expect that Venuss surface...Ch. 21 - Describe and explain changes in Venuss surface...Ch. 21 - Describe sources and sinks of CO2, if any, on...Ch. 21 - Does Venuss surface experience meteorite impacts...Ch. 21 - Describe evidence of crustal movement (horizontal...Ch. 21 - Why isnt the crust of Venus broken into mobile...Ch. 21 - Do either Venus or Mars have composite volcanoes?...Ch. 21 - What evidence can you give that Venus once had...Ch. 21 - What evidence shows that Venus has been resurfaced...
Ch. 21 - Describe four ways Mars is similar to Earth today....Ch. 21 - How are todays atmospheres of Venus and Mars...Ch. 21 - Where is the oxygen on Mars today? How do you...Ch. 21 - Why doesnt Mars have folded mountain ranges like...Ch. 21 - Why isnt the crust of Mars broken into mobile...Ch. 21 - What were the canals on Mars eventually found to...Ch. 21 - How can planetary scientists estimate the ages of...Ch. 21 - Propose an explanation for the nearly pure CO2...Ch. 21 - Prob. 19RQCh. 21 - Describe sources and sinks of CO2, if any, on Mars...Ch. 21 - Does Marss surface experience any meteorite...Ch. 21 - Describe evidence of crustal movement (horizontal...Ch. 21 - What surface features on Mars today indicate that...Ch. 21 - Why are Phobos and Deimos non-spherical? Why is...Ch. 21 - How are a weather radar map and an image of a...Ch. 21 - Atmospheric jet streams on Venus travel at about...Ch. 21 - How long would radio signals take to travel from...Ch. 21 - What is the maximum angular diameter of Venus as...Ch. 21 - The Pioneer Venus orbiter circled Venus with a...Ch. 21 - Calculate the velocity of Venus as it orbits the...Ch. 21 - Prob. 6PCh. 21 - If the Magellan spacecraft transmitted radio...Ch. 21 - Prob. 8PCh. 21 - What is the angular size of Phobos observed from...Ch. 21 - Prob. 10PCh. 21 - Prob. 11PCh. 21 - Deimos is about 13 km in diameter and has a...Ch. 21 - Prob. 1SOPCh. 21 - Mercury averages only 0.39 AU from the Sun, Venus...Ch. 21 - The radius of Mars is about 3400 km, and its moons...Ch. 21 - Look at Figure 21-1. Compare temperature profiles...Ch. 21 - Look at the map of the Hawaiian chain of islands...Ch. 21 - Look at Figure 21-11. Which molecule(s) can escape...Ch. 21 - Volcano Sif Mons on Venus is shown in this radar...Ch. 21 - Olympus Mons on Mars is an enormous volcano. In...
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- Venus can be as bright as apparent magnitude -4.7 when at a distance of about 1 AU. How many times fainter would Venus look from a distance of 5 pc? Assume Venus has the same illumination phase from your new vantage point. (Hints: Recall the inverse square law; also, review the definition of apparent visual magnitudes. ote: 1 pc = 2.1 x 10° AU). times fainter What would its apparent magnitude be? Need Help? Read Itarrow_forwardVenus can be as bright as apparent magnitude −4.7 when at a distance of about 1 AU. How many times fainter would Venus look from a distance of 7 pc? Assume Venus has the same illumination phase from your new vantage point. (Hints: Recall the inverse square law; also, review the definition of apparent visual magnitudes. Note: 1 pc = 2.1 ✕ 105 AU). What would its apparent magnitude be?arrow_forwardVenus can be as bright as apparent magnitude -4.7 when at a distance of about 1 AU. How many times fainter would Venus look from a distance of 5 pc? Assume Venus has the same illumination phase from your new vantage point. (Hints: Recall the inverse square law; also, review the definition of apparent visual magnitudes. Note: 1 pc = 2.1 x 105 AU). times fainter What would its apparent magnitude be?arrow_forward
- What is the distance from the sun to venus written in the scientific notation Please make sure to include your unitsarrow_forwardWhat is the maximum angular diameter of the dwarf planet Ceres when it is closest to Earth? Could Earth-based telescopes detect surface features? Could the Hubble Space Telescope? (Hint: Use the small-angle formula, Eq. 3-1.) (Notes: Ceress average distance from the Sun is 2.8 AU and its diameter is 950 km. The best angular resolution of Earth-based telescopes at visual wavelengths is about 1 arc second and of Hubble about 0.1 arc second.)arrow_forwardVenus can be as bright as apparent magnitude 4.7 when at a distance of about 1 AU. How many times fainter would Venus look from a distance of 1 pc? What would its apparent magnitude be? Assume Venus has the same illumination phase from your new vantage point. (Hints: Recall the inverse square law, Section 9-2a; also, review the definition of apparent visual magnitudes, Chapter 2.) (Note: 1 pc = 2.1 105 AU.)arrow_forward
- At an average opposition, the Earth and Mars are separated by 0.52 AU. Suppose an astronomer observes Mars at opposition and that seeing blurs the images to a resolution of 1.0 seconds of arc. What is the smallest surface feature the astronomer would be able to resolve on Mars? How does this size compare with the diameter of Mars?arrow_forwardThe Mars Robotic Lander for which we are making these calculations is designed to return samples of rock from Mars after a long time of collecting samples, exploring the area around the landing site, and making chemical analyses of rocks and dust in the landing area. One synodic period is required for Earth to be in the same place relative to mars as when it landed. Calculate the synodic period (in years) using the following formula: 1/Psyn = (1/PEarth) - (1/PMars) where PEarth is the sidereal period of the Earth (1 year) and PMars is the sidereal period of Mars. If 3/4 of a Martian year was spent collecting samples and exploring the terrain around the landing site, calculate how long the Mars Robotic Lander expedition took!arrow_forwardIn the previous lab, we calculated the area in between Mars' and Jupiter's orbit to be ~1.6e18 km2. Since there are roughly 750,000 asteroids, how much area (in km2) is available for one asteroid? Use this calculation to argue whether you are likely (or not) to hit an asteroid while flying through the asteroid belt. (Hint: To answer the first part of the question, find the area per asteroid)arrow_forward
- the area in between Mars' and Jupiter's orbit to be ~1.6e18 km2. Since there are roughly 750,000 asteroids, how much area (in km2) is available for one asteroid? Use this calculation to argue whether you are likely (or not) to hit an asteroid while flying through the asteroid belt. (Hint: To answer the first part of the question, find the area per asteroid)arrow_forwardA Sense of Proportion: Mercury averages only 0.39 AU from the Sun, Venus 0.72 AU and Mars 1.52 AU. If you built a model solar system and represent the average distance from the Sun to Earth as 10 inches, how far would you place Mercury, Venus and Mars from the Sun?arrow_forwardDescribe two anomalous features of the rotation of Venus and what might account for them.arrow_forward
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