# OpenStax Astronomy/Test 3 Study guide

## Astronomy midterm Test 3 Study Guide

This document should proper pagebreaks if printed using your browser's print option. On Chrome, Explorer, and Firefox, this option is available in the upper right hand corner of your screen. But, pagebreaks do not render properly if you use "Printable version" on Wikiversity's Print/export option on the left-hand sidebar.

At the end of this document
Attribution for the quizzes identifies where the questions were obtained
Study guide links reading materials and/or relevant equations.

### Astronomy midterm Test 3 Study Guide-v1s1

1.
incomplete rim
The incomplete rims seen in the figure are caused by:
___ a) vulcanism
___ b) low surface gravity
___ c) micrometeorite erosion
___ d) meteorite erosion
___ e) rilles

2. Rilles are caused by

___ a) impacts
___ b) meteorites
___ c) meteors
___ d) water
___ e) lava

3. In the Wikipedia excerpt on "Planetary Astronomy" the mechanism by which a meander grows over time was discussed. Which of the the following is best describes why meanders grow? (Pick only one best answer)

___ a) wind erosion
___ b) a combination of deposition and erosion
___ c) combination of erosion and underlying bedrock strength
___ d) occasional periods of intense flooding
___ e) combination of deposition and underlying bedrock strength

4. When imaged in visible light Venus appears like ______ rather than ______.

___ a) Venus ... Mars
___ b) an asteroid ... a terrestrial planet
___ c) a gas dwarf ... a rocky planet
___ d) Mars ... Venus

5. The clouds on Venus are made of

___ a) carbon dioxide
___ b) water
___ c) steam
___ d) nitrogen
___ e) sulfuric acid

6. The geology of Venus is predominantly

___ a) Picrite
___ b) Andesite
___ c) Basalt

7. Basalt is what type of rock?

___ a) Sedimentary
___ b) Metamorphic
___ c) Igneous

8. The rocks on Venus are mostly

___ a) associated with plate tectonics
___ b) from the seabed of a now non-existent ocean
___ c) from volcanoes

9. The rocky surface of the planet Venus can be detected when Venus is observed using infrared astronomy.

___ a) TRUE
___ b) FALSE

10. When Venus is viewed in the ultraviolet, its color appears brownish.

___ a) TRUE
___ b) FALSE

11. Moldavite is a mineral that may be associated with what radiation astronomy phenomenon?

___ a) evidence that Venus was once a comet
___ b) lightening strikes
___ c) predicting when currently dormant volcanoes will erupt
___ d) meteorite impacts and fireballs

12. According to Wikipedia, a "mineral" is a naturally occurring solid that

___ a) is heterogeneous
___ b) does not contain carbon
___ c) is by a chemical formula
___ d) contains carbon
___ e) has useful value

13. Which types of radiation astronomy directly observe the rocky-object surface of Venus?

___ a) X-ray astronomy
___ b) visual astronomy
___ c) radio astronomy
___ d) ultraviolet astronomy
___ e) infrared astronomy

14. One reason that Venus's atmosphere has more carbon dioxide than Earth's is that

___ a) Venus was too hot for oceans that could absorb the carbon dioxide
___ b) the mass of Venus is slightly higher
___ c) Venus has a lower magnetic field that disassociates carbon dioxide
___ d) Venus is exposed to a stronger solar wind strips away the other gasses

15. The surface temperature of Venus is about

___ a) 850 Fahrenheit (730 Kelvin or 230 Celsius)
___ b) 450 Fahrenheit (500 Kelvin or 66 Celsius)
___ c) 150 Fahrenheit (340 Kelvin or 66 Celsius)

16. The Venetian atmosphere consists of mostly carbon dioxide and

___ a) oxygen
___ b) helium
___ c) nitrogen
___ d) sulfuric acid
___ e) hydrogen

17.
Giovanni Schiaparelli 1877
Lowell circa 1914.
These drawings by Schiaparelli and Lowell were ultimately shown to be:

___ a) rift valleys
___ b) optical illusions
___ c) slip faults
___ d) subduction zones
___ e) rilles

18. Antipodal to the Tharsis bulge is

___ a) What Wikipedia contends IS an active volcano
___ b) the northern lowlands
___ c) What Wikipedia contends MIGHT BE an impact basin
___ d) What Wikipedia contends IS an impact basin
___ e) What Wikipedia contends MIGHT BE an active volcano

19.
Martian lobate feature
The lobate feature shown in the figure is evidence of

}
___ a) wind erosion
___ b) plate tectonics
___ c) water flow
___ d) dust storms
___ e) lava flow

20. The Martian dichotomy separates

___ a) the crust from the mantle
___ b) the rift valley from the volcanoes
___ c) the highlands from the lowlands
___ d) the Tharsus buldge from Hellas basin
___ e) Valles Marineris from Olympus Mons

21. According to Wikipedia, ______ was formed due to swelling of the Tharsis bulge which caused the crust to collapse

___ a) Hellas basin
___ b) the northern lowlands
___ c) the southern lowlands
___ d) Valles Marineris
___ e) Elysium

22.
gray hematite
What is this hematite?

___ a) irrefutable evidence that Mars once had life
___ b) evidence that Mars once had active volcanoes
___ c) evidence that Mars once had oceans
___ d) controversial evidence that Mars once had life
___ e) evidence that Mars now has active volcanoes

23. The polar ice caps on Mars are ___

___ a) actually clouds above the surface of Mars
___ b) a nearly equal mix of water and carbon dioxide
___ c) caused by geysers
___ d) mostly water
___ e) mostly carbon dioxide

24. Liquid water cannot exist on Mars due to ___

___ a) the solar wind
___ b) high pressure
___ c) low pressure
___ d) high temperature
___ e) low temperature

25.
magnified Martian meteorite
What is at the center of this magnified image of a Martian meteorite? fragment?

___ a) controversial evidence that Mars once had life
___ b) evidence that Mars now has active volcanoes
___ c) evidence that Mars once had active volcanoes
___ d) evidence that Mars once had oceans
___ e) irrefutable evidence that Mars once had life

26. It is important to distinguish between molecules (collectively) in a gas and one individual molecule. This question is about an individual molecule. For a planet with a given mass, size, and density, which has the greater escape velocity?

___ a) the heavier molecule has the greater escape velocity
___ b) no molecules have escape velocity
___ c) the lighter molecule has the greater escape velocity
___ d) all molecules move at the escape velocity
___ e) all molecules have the same escape velocity

27. It is important to distinguish between molecules (collectively) in a gas and one individual molecule. This question is about a typical molecule in the gas. For a planet with a given mass, size, and density, which type of gas is more likely to escape?

___ a) all types of gas are equally likely to escape
___ b) atoms in a denser gas are more likely to escape
___ c) atoms in a hotter gas is more likely to escape
___ d) atoms in a colder gas are more likely to escape
___ e) atoms in a gas with more atomic mass are more likely to escape

28. Which type of gas is likely to have the faster particles?

___ a) a hot gas with high mass atoms
___ b) a cold gas with low mass atoms
___ c) all gasses on a given planet have the same speed
___ d) a cold gas with high mass atoms
___ e) a hot gas with low mass atoms

29. What is it about the isotopes of Argon-36 and Argon-38 that causes their relative abundance to be so unusual on Mars?

___ a) different speed
___ b) different half-life
___ c) identical abundance
___ d) different chemical properties
___ e) identical mass

30. In the formula, ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }v_{\mathrm {escape} }^{2}=G_{\mathrm {Newton} }{\frac {M_{\mathrm {planet} }m_{\mathrm {atom} }}{r_{\mathrm {planet} }}}}$, which of the following is FALSE?

___ a) the formula is valid for all launch angles
___ b) the formula can be used to estimate how fast an atom must move before exiting the planet
___ c) vescape is independent of matom
___ d) the formula is valid only if the particle is launched from the surface of planet of radius rplanet
___ e) the particle is assumed to have been launched vertically

31. What statement is FALSE about ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }\langle v_{\mathrm {atom} }^{2}\rangle _{ave}={\frac {1}{2}}k_{\mathrm {B} }T}$?

___ a) This equation does not involve the size or mass of the planet.
___ b) The average speed of a low mass particle is higher than the average speed of a high mass particle
___ c) Temperature is measured in Centigrades
___ d) The kinetic energy is directly proportional to temperature.
___ e) Temperature is measured in Kelvins

32. ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }\langle v_{\mathrm {atom} }^{2}\rangle _{ave}={\frac {1}{2}}k_{\mathrm {B} }T}$, where T is temperature on the Kelvin scale. This formula describes:

___ a) The speed of a typical atom, where m is the mass of the atom.
___ b) The the speed an atom needs to escape the planet, where m is the mass planet.
___ c) The speed an atom needs to orbit the planet, where m is the mass of the atom.
___ d) The speed an atom needs to escape the planet, where m is the mass of the atom.
___ e) The speed of a typical atom, where m is the mass of the planet.

33. How does the density of a Galilean moon depend on its distance from Jupiter?

___ a) the density of the moons is unknown
___ b) all the moons have nearly the same density
___ c) the more dense moon is closer to Jupiter (always)
___ d) the less dense moon is closer to Jupiter (always)
___ e) the most dense moon is neither the closest nor the most distant

34. How does the mass of a Galilean moon depend on its distance from the central body?

___ a) all the moons have nearly the same mass
___ b) the most massive moon is neither the closest nor the most distant
___ c) the less massive moon is closer to Jupiter (always)
___ d) the mass of the moons is unknown
___ e) the more massive moon is closer to Jupiter (always)

35. Does Jupiter's moon Io have craters?

___ a) yes, from impacts
___ b) yes, from volcanoes
___ c) yes, about half from impacts and the others from volcanoes
___ d) no, the surface is too old
___ e) no, the surface is too new

36. The mechanism that heats the cores of the Galilean moons is

___ a) radioactive decay of heavy elements
___ b) tides from the other moons and Jupiter
___ c) radiation from the Sun
___ d) tides from Jupiter
___ e) radiation from the Sun and from Jupiter

37. Immediately after publication of Newton's laws of physics (Principia), it was possible to "calculate" the mass of Jupiter. What important caveat applied to this calculation?

___ a) tides from the other moons and Jupiter.
___ b) Only the mass of Jupiter relative to that of the Sun could be determined.
___ c) They needed to wait over a decade for Jupiter to make approximately one revolution around the Sun.
___ d) The different moons yielded slightly different values for the mass of Jupiter.
___ e) The different moons yielded vastly different values for the mass of Jupiter.

38. Ganymede, Europa, and Io have ratios in __________ that are 1:2:4.

___ a) orbital period
___ b) density
___ c) Two other answers are correct (making this the only true answer).
___ d) rotational period
___ e) Argon isotope abundance

39. Which of Jupiter's moons has an anhydrous core?

___ a) Two other answers are correct (making this the only true answer).
___ b) Ganymede
___ c) Io
___ d) Europa
___ e) Ganymede

40. The 1982 Voyager flyby of Miranda (a moon of Uranus) established that _____

___ a) Miranda has the largest active volcano in the solar system
___ b) Miranda probably has an iron core
___ c) Two other answers are correct (making this the only true answer).
___ d) inspired a theory a previous incarnation was destroyed by a collision
___ e) Miranda has geysers.

41. It has been suggested that Miranda's "racetrack"

___ a) is antipodal to an impact crater
___ b) Two other answers are correct (making this the only true answer).
___ c) is an impact crater
___ d) is associated with tidal heating
___ e) is a series of rifts created by an upwelling of warm ice

42. According to Wikipedia, the largest lakes on Titan are probably fed by

___ a) rivers from the highlands
___ b) geysers
___ c) underground aquifers
___ d) methane rain
___ e) liquid water rain

43.

The bright spot on Saturn's moon Titan is
___ a) a lake
___ b) a volcano
___ c) aurora borealis (northern lights)
___ d) solar wind particles striking the atmosphere
___ e) lightening

44. One "year" on Saturn's largest moon Titan lasts

___ a) 3 hours
___ b) 30 hours
___ c) 30 years
___ d) 300 days
___ e) 3 years

45.

The photographs compare
___ a) wet and dry seasons
___ b) winter windstorms and summer doldrums
___ c) summer windstorms and winter doldrums
___ d) Titan and Earth
___ e) northern and southern hemispheres

46. The liquid water ocean of Saturn's largest moon Titan,

___ a) is known to contain life
___ b) explains how the elevation of a smooth planet seems to rise and fall
___ c) Two other answers are correct
___ d) is postulated to cover 15-30% of its surface
___ e) is less than one meter in depth

47.

The black spot in this image of Jupiter is
___ a) a solar eclipse
___ b) an electric storm
___ c) the shadow of a moon
___ d) Two other answers are correct (making this the only true answer).
___ e) a magnetic storm

48. Which of the following statements is FALSE?

___ a) Jupiter emits more energy than it receives from the Sun
___ b) Jupiter has four large moons and many smaller ones
___ c) The Great Red Spot is a storm that has raged for over 300 years
___ d) Jupiter has a system of rings
___ e) Jupiter is the largest known planet

49. What is the mechanism that heats the interior of Jupiter?

___ a) rain
___ c) magnetism
___ d) tides
___ e) electricity

50. Why is Jupiter an oblate spheroid?

___ a) rotation about axis
___ b) tides from the Jupiter's moons
___ c) tides from the Sun
___ d) revolution around Sun
___ e) tides from other gas planets

51. What statement best describes the Wikipedia's explanation of the helium (He) content of Jupiter's upper atmosphere (relative to the hydrogen (H) content)?

___ a) Jupiter and the Sun have nearly the same ratio of He to H.
___ b) Jupiter's atmosphere has 80% more He because Jupiter's hydrogen fell to the core.
___ c) Jupiter's atmosphere has 80% more He because Jupiter's hydrogen escaped into space.
___ d) Jupiter's atmosphere has only 80% as much helium because the He escaped into space.
___ e) Jupiter's atmosphere has only 80% as much helium because the He fell to the core.

52. Where is the Sun-Jupiter barycenter?

___ a) At the center of Jupiter
___ b) The question remains unresolved
___ c) Just above the Sun's surface
___ d) Just above Jupiter's surface
___ e) At the center of the Sun

53. The barycenter of two otherwise isolated celestial bodies is?

___ a) both of these are true
___ b) the focal point of two elliptical orbital paths
___ c) a place where two bodies exert equal and opposite gravitational forces

54. Knowing the barycenter of two stars is useful because it tells us the total mass

___ a) TRUE
___ b) FALSE

55. Knowing the barycenter of two stars is useful because it tells us the ratio of the two masses

___ a) TRUE
___ b) FALSE

56. Although there is some doubt as to who discovered Jupiter's great red spot, it is generally credited to

___ a) Galileo in 1605
___ b) Messier in 1771
___ c) Newton in 1668
___ d) Cassini in 1665
___ e) Tycho in

57. The bands in the atmosphere of Jupiter are associated with a patter of alternating wind velocities that are

___ a) easterly and westerly
___ b) updrafts and downdrafts
___ c) both of these

58. As one descends down to Jupiter's core, the temperature

___ a) stays about the same
___ b) decreases
___ c) increases

59. Which of the following is NOT used to measure the mass of a planet

___ a) the motion of an artificial satellite
___ b) the motion of a moon
___ c) the rotation of the planet about its axis
___ d) the motion of a neighboring planet
___ e) all of these have been used

60. What is unusual about calculations of the mass of Pluto made in the early part of the 20th century?

___ a) It was the first time a planet's period of orbit around the sun was used to calculate the planet's mass
___ b) The estimates were too low. Pluto was actually more massive than they thought.
___ c) The estimates were high. Pluto was less massive than they calculated
___ d) It was the first time a moon was used to calculate the mass of a planet
___ e) The estimates were correct to within less than 10%

61. Why was the discovery of Pluto peculiar?

___ a) It was discovered during a survey looking for stars
___ b) It was the first time a planet's period of orbit around the sun was used to calculate the planet's mass
___ c) It was seen by Galileo, who thought it was a star
___ d) It was seen by Halley, who was looking for comets
___ e) It was discovered by a calculation based on flawed assumptions

62. Which of the following is NOT used to measure the mass of a planet

___ a) the motion of an artificial satellite
___ b) the motion of a moon
___ c) the motion of a neighboring planet
___ d) all of these have been used

63. Which statement describes the relation between Pluto and Neptune

___ a) Pluto's orbit intersects Neptune's orbit an the two bodies will eventually collide
___ b) Pluto's orbit intersects Neptune's orbit but they don't collide because of an orbital resonance between the two
___ c) Pluto's orbit intersects Neptune's orbit but they avoid each other because Pluto's mass is too small
___ d) Pluto's orbit lies outside Neptune's orbit

#### Key to Astronomy midterm Test 3 Study Guide-v1s1

1.
incomplete rim
The incomplete rims seen in the figure are caused by:
+ a) vulcanism
- b) low surface gravity
- c) micrometeorite erosion
- d) meteorite erosion
- e) rilles

2. Rilles are caused by

- a) impacts
- b) meteorites
- c) meteors
- d) water
+ e) lava

3. In the Wikipedia excerpt on "Planetary Astronomy" the mechanism by which a meander grows over time was discussed. Which of the the following is best describes why meanders grow? (Pick only one best answer)

- a) wind erosion
+ b) a combination of deposition and erosion
- c) combination of erosion and underlying bedrock strength
- d) occasional periods of intense flooding
- e) combination of deposition and underlying bedrock strength

4. When imaged in visible light Venus appears like ______ rather than ______.

- a) Venus ... Mars
- b) an asteroid ... a terrestrial planet
+ c) a gas dwarf ... a rocky planet
- d) Mars ... Venus

5. The clouds on Venus are made of

- a) carbon dioxide
- b) water
- c) steam
- d) nitrogen
+ e) sulfuric acid

6. The geology of Venus is predominantly

- a) Picrite
- b) Andesite
+ c) Basalt

7. Basalt is what type of rock?

- a) Sedimentary
- b) Metamorphic
+ c) Igneous

8. The rocks on Venus are mostly

- a) associated with plate tectonics
- b) from the seabed of a now non-existent ocean
+ c) from volcanoes

9. The rocky surface of the planet Venus can be detected when Venus is observed using infrared astronomy.

- a) TRUE
+ b) FALSE

10. When Venus is viewed in the ultraviolet, its color appears brownish.

- a) TRUE
+ b) FALSE

11. Moldavite is a mineral that may be associated with what radiation astronomy phenomenon?

- a) evidence that Venus was once a comet
- b) lightening strikes
- c) predicting when currently dormant volcanoes will erupt
+ d) meteorite impacts and fireballs

12. According to Wikipedia, a "mineral" is a naturally occurring solid that

- a) is heterogeneous
- b) does not contain carbon
+ c) is by a chemical formula
- d) contains carbon
- e) has useful value

13. Which types of radiation astronomy directly observe the rocky-object surface of Venus?

- a) X-ray astronomy
- b) visual astronomy
+ c) radio astronomy
- d) ultraviolet astronomy
- e) infrared astronomy

14. One reason that Venus's atmosphere has more carbon dioxide than Earth's is that

+ a) Venus was too hot for oceans that could absorb the carbon dioxide
- b) the mass of Venus is slightly higher
- c) Venus has a lower magnetic field that disassociates carbon dioxide
- d) Venus is exposed to a stronger solar wind strips away the other gasses

15. The surface temperature of Venus is about

+ a) 850 Fahrenheit (730 Kelvin or 230 Celsius)
+ b) 450 Fahrenheit (500 Kelvin or 66 Celsius)
+ c) 150 Fahrenheit (340 Kelvin or 66 Celsius)

16. The Venetian atmosphere consists of mostly carbon dioxide and

- a) oxygen
- b) helium
+ c) nitrogen
- d) sulfuric acid
- e) hydrogen

17.
Giovanni Schiaparelli 1877
Lowell circa 1914.
These drawings by Schiaparelli and Lowell were ultimately shown to be:

- a) rift valleys
+ b) optical illusions
- c) slip faults
- d) subduction zones
- e) rilles

18. Antipodal to the Tharsis bulge is

- a) What Wikipedia contends IS an active volcano
- b) the northern lowlands
- c) What Wikipedia contends MIGHT BE an impact basin
+ d) What Wikipedia contends IS an impact basin
- e) What Wikipedia contends MIGHT BE an active volcano

19.
Martian lobate feature
The lobate feature shown in the figure is evidence of

}
- a) wind erosion
- b) plate tectonics
- c) water flow
- d) dust storms
+ e) lava flow

20. The Martian dichotomy separates

- a) the crust from the mantle
- b) the rift valley from the volcanoes
+ c) the highlands from the lowlands
- d) the Tharsus buldge from Hellas basin
- e) Valles Marineris from Olympus Mons

21. According to Wikipedia, ______ was formed due to swelling of the Tharsis bulge which caused the crust to collapse

- a) Hellas basin
- b) the northern lowlands
- c) the southern lowlands
+ d) Valles Marineris
- e) Elysium

22.
gray hematite
What is this hematite?

- a) irrefutable evidence that Mars once had life
- b) evidence that Mars once had active volcanoes
+ c) evidence that Mars once had oceans
- d) controversial evidence that Mars once had life
- e) evidence that Mars now has active volcanoes

23. The polar ice caps on Mars are ___

- a) actually clouds above the surface of Mars
- b) a nearly equal mix of water and carbon dioxide
- c) caused by geysers
+ d) mostly water
- e) mostly carbon dioxide

24. Liquid water cannot exist on Mars due to ___

- a) the solar wind
- b) high pressure
+ c) low pressure
- d) high temperature
- e) low temperature

25.
magnified Martian meteorite
What is at the center of this magnified image of a Martian meteorite? fragment?

+ a) controversial evidence that Mars once had life
- b) evidence that Mars now has active volcanoes
- c) evidence that Mars once had active volcanoes
- d) evidence that Mars once had oceans
- e) irrefutable evidence that Mars once had life

26. It is important to distinguish between molecules (collectively) in a gas and one individual molecule. This question is about an individual molecule. For a planet with a given mass, size, and density, which has the greater escape velocity?

- a) the heavier molecule has the greater escape velocity
- b) no molecules have escape velocity
- c) the lighter molecule has the greater escape velocity
- d) all molecules move at the escape velocity
+ e) all molecules have the same escape velocity

27. It is important to distinguish between molecules (collectively) in a gas and one individual molecule. This question is about a typical molecule in the gas. For a planet with a given mass, size, and density, which type of gas is more likely to escape?

- a) all types of gas are equally likely to escape
- b) atoms in a denser gas are more likely to escape
+ c) atoms in a hotter gas is more likely to escape
- d) atoms in a colder gas are more likely to escape
- e) atoms in a gas with more atomic mass are more likely to escape

28. Which type of gas is likely to have the faster particles?

- a) a hot gas with high mass atoms
- b) a cold gas with low mass atoms
- c) all gasses on a given planet have the same speed
- d) a cold gas with high mass atoms
+ e) a hot gas with low mass atoms

29. What is it about the isotopes of Argon-36 and Argon-38 that causes their relative abundance to be so unusual on Mars?

+ a) different speed
- b) different half-life
- c) identical abundance
- d) different chemical properties
- e) identical mass

30. In the formula, ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }v_{\mathrm {escape} }^{2}=G_{\mathrm {Newton} }{\frac {M_{\mathrm {planet} }m_{\mathrm {atom} }}{r_{\mathrm {planet} }}}}$, which of the following is FALSE?

+ a) the formula is valid for all launch angles
- b) the formula can be used to estimate how fast an atom must move before exiting the planet
- c) vescape is independent of matom
- d) the formula is valid only if the particle is launched from the surface of planet of radius rplanet
- e) the particle is assumed to have been launched vertically

31. What statement is FALSE about ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }\langle v_{\mathrm {atom} }^{2}\rangle _{ave}={\frac {1}{2}}k_{\mathrm {B} }T}$?

- a) This equation does not involve the size or mass of the planet.
- b) The average speed of a low mass particle is higher than the average speed of a high mass particle
+ c) Temperature is measured in Centigrades
- d) The kinetic energy is directly proportional to temperature.
- e) Temperature is measured in Kelvins

32. ${\displaystyle {\frac {1}{2}}m_{\mathrm {atom} }\langle v_{\mathrm {atom} }^{2}\rangle _{ave}={\frac {1}{2}}k_{\mathrm {B} }T}$, where T is temperature on the Kelvin scale. This formula describes:

+ a) The speed of a typical atom, where m is the mass of the atom.
- b) The the speed an atom needs to escape the planet, where m is the mass planet.
- c) The speed an atom needs to orbit the planet, where m is the mass of the atom.
- d) The speed an atom needs to escape the planet, where m is the mass of the atom.
- e) The speed of a typical atom, where m is the mass of the planet.

33. How does the density of a Galilean moon depend on its distance from Jupiter?

- a) the density of the moons is unknown
- b) all the moons have nearly the same density
+ c) the more dense moon is closer to Jupiter (always)
- d) the less dense moon is closer to Jupiter (always)
- e) the most dense moon is neither the closest nor the most distant

34. How does the mass of a Galilean moon depend on its distance from the central body?

- a) all the moons have nearly the same mass
+ b) the most massive moon is neither the closest nor the most distant
- c) the less massive moon is closer to Jupiter (always)
- d) the mass of the moons is unknown
- e) the more massive moon is closer to Jupiter (always)

35. Does Jupiter's moon Io have craters?

- a) yes, from impacts
+ b) yes, from volcanoes
- c) yes, about half from impacts and the others from volcanoes
- d) no, the surface is too old
- e) no, the surface is too new

36. The mechanism that heats the cores of the Galilean moons is

- a) radioactive decay of heavy elements
+ b) tides from the other moons and Jupiter
- c) radiation from the Sun
- d) tides from Jupiter
- e) radiation from the Sun and from Jupiter

37. Immediately after publication of Newton's laws of physics (Principia), it was possible to "calculate" the mass of Jupiter. What important caveat applied to this calculation?

- a) tides from the other moons and Jupiter.
+ b) Only the mass of Jupiter relative to that of the Sun could be determined.
- c) They needed to wait over a decade for Jupiter to make approximately one revolution around the Sun.
- d) The different moons yielded slightly different values for the mass of Jupiter.
- e) The different moons yielded vastly different values for the mass of Jupiter.

38. Ganymede, Europa, and Io have ratios in __________ that are 1:2:4.

- a) orbital period
- b) density
+ c) Two other answers are correct (making this the only true answer).
- d) rotational period
- e) Argon isotope abundance

39. Which of Jupiter's moons has an anhydrous core?

- a) Two other answers are correct (making this the only true answer).
- b) Ganymede
+ c) Io
- d) Europa
- e) Ganymede

40. The 1982 Voyager flyby of Miranda (a moon of Uranus) established that _____

- a) Miranda has the largest active volcano in the solar system
- b) Miranda probably has an iron core
- c) Two other answers are correct (making this the only true answer).
+ d) inspired a theory a previous incarnation was destroyed by a collision
- e) Miranda has geysers.

41. It has been suggested that Miranda's "racetrack"

- a) is antipodal to an impact crater
+ b) Two other answers are correct (making this the only true answer).
- c) is an impact crater
- d) is associated with tidal heating
- e) is a series of rifts created by an upwelling of warm ice

42. According to Wikipedia, the largest lakes on Titan are probably fed by

- a) rivers from the highlands
- b) geysers
+ c) underground aquifers
- d) methane rain
- e) liquid water rain

43.

The bright spot on Saturn's moon Titan is
+ a) a lake
- b) a volcano
- c) aurora borealis (northern lights)
- d) solar wind particles striking the atmosphere
- e) lightening

44. One "year" on Saturn's largest moon Titan lasts

- a) 3 hours
- b) 30 hours
+ c) 30 years
- d) 300 days
- e) 3 years

45.

The photographs compare
- a) wet and dry seasons
- b) winter windstorms and summer doldrums
- c) summer windstorms and winter doldrums
+ d) Titan and Earth
- e) northern and southern hemispheres

46. The liquid water ocean of Saturn's largest moon Titan,

- a) is known to contain life
+ b) explains how the elevation of a smooth planet seems to rise and fall
- c) Two other answers are correct
- d) is postulated to cover 15-30% of its surface
- e) is less than one meter in depth

47.

The black spot in this image of Jupiter is
- a) a solar eclipse
- b) an electric storm
- c) the shadow of a moon
+ d) Two other answers are correct (making this the only true answer).
- e) a magnetic storm

48. Which of the following statements is FALSE?

- a) Jupiter emits more energy than it receives from the Sun
- b) Jupiter has four large moons and many smaller ones
- c) The Great Red Spot is a storm that has raged for over 300 years
- d) Jupiter has a system of rings
+ e) Jupiter is the largest known planet

49. What is the mechanism that heats the interior of Jupiter?

+ a) rain
- c) magnetism
- d) tides
- e) electricity

50. Why is Jupiter an oblate spheroid?

+ a) rotation about axis
- b) tides from the Jupiter's moons
- c) tides from the Sun
- d) revolution around Sun
- e) tides from other gas planets

51. What statement best describes the Wikipedia's explanation of the helium (He) content of Jupiter's upper atmosphere (relative to the hydrogen (H) content)?

- a) Jupiter and the Sun have nearly the same ratio of He to H.
- b) Jupiter's atmosphere has 80% more He because Jupiter's hydrogen fell to the core.
- c) Jupiter's atmosphere has 80% more He because Jupiter's hydrogen escaped into space.
- d) Jupiter's atmosphere has only 80% as much helium because the He escaped into space.
+ e) Jupiter's atmosphere has only 80% as much helium because the He fell to the core.

52. Where is the Sun-Jupiter barycenter?

- a) At the center of Jupiter
- b) The question remains unresolved
+ c) Just above the Sun's surface
- d) Just above Jupiter's surface
- e) At the center of the Sun

53. The barycenter of two otherwise isolated celestial bodies is?

- a) both of these are true
+ b) the focal point of two elliptical orbital paths
- c) a place where two bodies exert equal and opposite gravitational forces

54. Knowing the barycenter of two stars is useful because it tells us the total mass

- a) TRUE
+ b) FALSE

55. Knowing the barycenter of two stars is useful because it tells us the ratio of the two masses

+ a) TRUE
- b) FALSE

56. Although there is some doubt as to who discovered Jupiter's great red spot, it is generally credited to

- a) Galileo in 1605
- b) Messier in 1771
- c) Newton in 1668
+ d) Cassini in 1665
- e) Tycho in

57. The bands in the atmosphere of Jupiter are associated with a patter of alternating wind velocities that are

- a) easterly and westerly
- b) updrafts and downdrafts
+ c) both of these

58. As one descends down to Jupiter's core, the temperature

- a) stays about the same
- b) decreases
+ c) increases

59. Which of the following is NOT used to measure the mass of a planet

- a) the motion of an artificial satellite
- b) the motion of a moon
+ c) the rotation of the planet about its axis
- d) the motion of a neighboring planet
- e) all of these have been used

60. What is unusual about calculations of the mass of Pluto made in the early part of the 20th century?

- a) It was the first time a planet's period of orbit around the sun was used to calculate the planet's mass
- b) The estimates were too low. Pluto was actually more massive than they thought.
+ c) The estimates were high. Pluto was less massive than they calculated
- d) It was the first time a moon was used to calculate the mass of a planet
- e) The estimates were correct to within less than 10%

61. Why was the discovery of Pluto peculiar?

- a) It was discovered during a survey looking for stars
- b) It was the first time a planet's period of orbit around the sun was used to calculate the planet's mass
- c) It was seen by Galileo, who thought it was a star
- d) It was seen by Halley, who was looking for comets
+ e) It was discovered by a calculation based on flawed assumptions

62. Which of the following is NOT used to measure the mass of a planet

- a) the motion of an artificial satellite
- b) the motion of a moon
- c) the motion of a neighboring planet
+ d) all of these have been used

63. Which statement describes the relation between Pluto and Neptune

- a) Pluto's orbit intersects Neptune's orbit an the two bodies will eventually collide
+ b) Pluto's orbit intersects Neptune's orbit but they don't collide because of an orbital resonance between the two
- c) Pluto's orbit intersects Neptune's orbit but they avoid each other because Pluto's mass is too small
- d) Pluto's orbit lies outside Neptune's orbit

Attribution (for quiz questions) under CC-by-SA license
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Planetary_science_questions&oldid=1298071
http://en.wikiversity.org/w/index.php?title=Venus/Quiz&oldid=1388298
http://en.wikiversity.org/w/index.php?title=Quizbank/Contributed_questions&oldid=1388791
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Mars/questions&oldid=1327222
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Why_planets_lose_their_atmospheres/questions&oldid=1204943
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Galilean_moons_of_Jupiter/questions&oldid=1293955
https//en.wikiversity.org/w/index.php?title=Astronomy_college_course/Miranda_and_Titan/questions&oldid=1293943
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Jupiter/questions&oldid=1388646
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Pluto_and_planetary_mass_quiz&oldid=1388652
Study guide
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Planetary_science&oldid=1204930
Venus
w:Atmosphere of Venus
w:Venus
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Mars&oldid=1327223
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Why_planets_lose_their_atmospheres&oldid=1388258
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Galilean_moons_of_Jupiter&oldid=1326527
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Miranda_and_Titan&oldid=1204929
http://en.wikiversity.org/w/index.php?title=Astronomy_college_course/Jupiter&oldid=1204919
http://en.wikipedia.org/w/index.php?title=Jupiter&oldid=664015766
http://en.wikipedia.org/w/index.php?title=Atmosphere_of_Jupiter&oldid=664309417
http://en.wikipedia.org/w/index.php?title=Pluto&oldid=664428172