Deck 15: The Milky Way Galaxy

A) are the only low mass stars in the disk.
B) are only found in globular clusters.
C) are primarily O and B supergiants.
D) move at an angle across the disk.
E) emit cosmic rays.

A) III & IV
B) I & II
C) II
D) IV
E) I,II,& III

A) I
B) IV
C) I & IV
D) II & IV
E) I & III

A) as material accreted around a massive black hole currently at the center of our galaxy.
B) from a large cloud of material that formed stars and star clusters and slowly flattened to a disk.
C) from material that had been ejected in the violent explosion of a dying galaxy.
D) as a result of mergers between several smaller groups of gas,dust,and stars.
E) as two massive galaxies collided.

A) is stronger than the magnetic field of the sun.
B) traps cosmic rays in the disk of the galaxy.
C) creates the spiral density waves that initiate star formation.
D) forces the halo stars to follow highly inclined orbits.
E) produces 21-cm radiation that allows us to map the spiral arms.

A) had circular orbits.
B) had highly elliptical orbits.
C) were population I stars.
D) all had orbits in the same plane.

A) I & III
B) I & IV
C) II & III
D) II & IV
E) I,III,& IV

A) (-1)
B) 0
C) (-4)
D)( -6)
E) The absolute magnitude of a Cepheid variable cannot be determined unless its distance is known.

A) rotates faster than expected in its outer region.
B) rotates more slowly than expected in its outer region.
C) rotates faster than expected in its inner region.
D) rotates more slowly than expected in its inner region.
E) is much flatter than expected.

A) contains stars that are primarily population I stars.
B) contains relatively large amounts of gas and dust.
C) contains stars primarily associated with the spherical component of our galaxy.
D) contains stars primarily associated with the disk component of our galaxy.
E) a,b,and d

A) circular orbits
B) randomly inclined orbits
C) higher metal abundance
D) young stars
E) star formation regions

A) they did not count the brightest stars.
B) they did not study the southern sky.
C) they did not have large enough telescopes.
D) they only observed stars in the disk of the galaxy and not the halo.
E) they did not know about interstellar dust clouds.

A) old stars destroy heavy elements as they age.
B) young stars burn their nuclear fuels faster.
C) heavy elements were made in previous generations of stars.
D) all of the above
E) heavy elements haven't had time to settle to the core of these younger stars.

A) is the process by which energy is produced at the center of the galaxy.
B) is the process by which hydrogen and helium are converted into heavier elements.
C) describes the structure of a globular cluster.
D) describes how the magnetic field of the galaxy traps cosmic rays.
E) describes the method by which neutral hydrogen produces 21 cm radiation.

A) Ursa Minor.
B) Ursa Major.
C) Sagittarius.
D) Orion.
E) Monoceros.

A) a globular cluster.
B) an open cluster.
C) an association.
D) a spherical component.
E) an accretion disk.

A) indicates that they were formed before the population II stars.
B) indicates that the material they formed from had been enriched with material from supernovae.
C) indicates that they contain very few heavy metals compared to halo stars.
D) depends on the temperature of the star.
E) depends on the mass of the star.

A) showed that the Sun was located in the center of the system of planets making up our Galaxy.
B) showed that our Galaxy is a round ball on which we live.
C) showed that our Galaxy has 9 stars
D) used globular clusters to determine the location of the center of the galaxy.
E) was completed by William and Caroline Herschel.

A) 100 pc
B) 10,000 pc
C) 20 pc
D) 300 pc
E) 2500 pc

A) is not visible at optical wavelengths.
B) produces gamma rays.
C) must be less than 10 AU in diameter.
D) all of the above
E) none of the above

A) Measuring the metallicity of Population II stars.
B) Finding the turnoff point in the H-R diagram of globular clusters.
C) From the motion of stars in the galactic halo.
D) Counting the number of open clusters in the spiral arms.

A) He plotted the distribution of open clusters.
B) He plotted the distribution of globular clusters.
C) He made star counts in every direction of the galactic disk.
D) He measured the amount of dust obscuration in every direction of the galactic disk.

A) He determined the proper motion of globular clusters in the outer disk of the galaxy.
B) He found the distance to individual Cepheid variables free floating in the halo.
C) He found the distance to open clusters found throughout the disk of the galaxy.
D) He found the distance to globular clusters distributed about the center of the galaxy.

A) arms have high Doppler shifts.
B) gas in the spiral arms is hot enough to emit photons.
C) dust in spiral arms is more dense than it is between the spiral arms.
D) gas in spiral arms is more dense than it is between the spiral arms.
E) stars in the spiral arms emit most of their energy at radio wavelengths.

A) Small velocities are seen at large distances from the galactic center.
B) Small velocities are seen at distances close to the galactic center.
C) Large velocities are seen at large distances from the galactic center.
D) Large velocities are seen at distances close to the galactic center.

A) A
B) B
C) C
D) D

A) all spiral arms would be dust free.
B) all galaxies would have grand design spiral patterns.
C) the Milky Way would be more massive than observed.
D) the Milky Way wouldn't have any spiral arms.
E) the halo component of the Milky way would show spiral arms as well.

A) the nine known planets
B) only stars
C) stars,dust,and gas
D) quasars
E) only black holes

A) reveal that our galaxy is a grand design spiral.
B) map the location of Hot O and B stars by the radio radiation they emit.
C) reveal that the spiral arms are winding up and growing closer together.
D) reveal that the sun is currently located in the center of a spiral arm.
E) map the location of dense neutral hydrogen clouds.

A) They formed in the disk and later were ejected to the halo.
B) They formed in other galaxies and were captured by close interactions.
C) They build over time from the collision of stars in the halo.
D) They formed early on during the free-fall collapse of the proto-galactic material.

A) spiral arm
B) globular cluster
C) planet
D) black hole

A) Cygnus X-1.
B) the Orion arm.
C) the sun.
D) Sagittarius A*.

A) 1 light year across
B) 10 light years across
C) 100 light years across
D) 1000 light years across
E) 100,000 light years across

A) there aren't any galaxies in those directions
B) dust in the Milky Way blots out our view of galaxies in those directions
C) the missing mass is in those directions
D) the Big Bang has blown galaxies away from those directions

A) the location of dense neutral hydrogen clouds.
B) the location of population II stars.
C) the location of population I stars.
D) the location of the galactic corona.
E) the location of giant molecular clouds.

A) Low luminosity.
B) Poor metal content compared to the Sun.
C) Old age.
D) All of the above.