Deck 18: The Stars

A) mass.
B) color.
C) composition.
D) age.

A) the absence of an atmosphere to affect light from space.
B) the absence of background radiation from the earth that may swamp faint signals from space.
C) less cost.
D) the ability to see the entire sky.

A) variations in their brightnesses.
B) variations in their colors.
C) turbulent movements in their atmospheres.
D) turbulent movements in the earth's atmosphere.

A) have cool interiors surrounded by hot atmospheres.
B) have hot interiors surrounded by cool atmospheres.
C) have hot interiors surrounded by hot atmospheres.
D) have cool interiors surrounded by cool atmospheres.

A) the star's magnetic field
B) the star's temperature
C) the star's relative motion toward or away from us
D) the star's composition
E) All of the above

A) are hotter than the rest of the solar surface.
B) are dark clouds floating in the solar atmosphere.
C) occur at random intervals.
D) are correlated with a number of terrestrial effects.

A) liquid hydrogen.
B) molecules.
C) neutral atoms.
D) ions.

A) auroras.
B) the earth's magnetic field.
C) volcanic eruptions.
D) shortwave radio communications.

A) is designed for high magnifications.
B) uses a single lens.
C) uses a single mirror.
D) uses a number of smaller mirrors.

A) has a magnetic field.
B) is moving toward us.
C) is moving away from us.
D) is moving across our line of sight.

A) radioactivity.
B) nuclear fission.
C) nuclear fusion.
D) combustion.

A) auroras.
B) the airglow of the night sky.
C) comet heads.
D) comet tails.

A) hydrogen and helium.
B) hydrogen and oxygen.
C) oxygen and nitrogen.
D) carbon and iron.

A) no atmosphere.
B) an atmosphere just above its surface only.
C) an atmosphere that extends only as far as the earth.
D) an atmosphere that extends well out into the solar system.

A) unusually small star.
B) unusually large star.
C) unusually hot star.
D) rather ordinary star.

A) 27 days.
B) 6 months.
C) 3 years.
D) 11 years.

A) 600 K.
B) 6000 K.
C) 14 million K.
D) 14 billion K.

A) planets
B) main-sequence stars
C) red giants
D) supernovas

A) better resolve objects close together in the sky.
B) gather more light from faint objects.
C) be modified to correct for flickering images due to atmospheric turbulence.
D) All of these choices.

A) are young stars.
B) are old stars.
C) may be of any age.
D) are extremely rare.

A) blue.
B) white.
C) yellow.
D) red.

A) white.
B) yellow.
C) blue.
D) red.

A) high temperatures and large masses.
B) high temperatures and small masses.
C) low temperatures and large masses.
D) low temperatures and small masses.

A) for a few thousand years longer.
B) for a few million years longer.
C) for a few billion years longer.
D) forever.

A) members of the main sequence.
B) red giants.
C) white dwarfs.
D) scattered at random.

A) temperature and mass.
B) temperature and brightness.
C) temperature and luminosity.
D) mass and apparent brightness.

A) 1 light-minute away.
B) 4 light-years away.
C) 300 light-years away.
D) 4000 light-years away.

A) are very bright, easily seen stars.
B) have luminosities related to their periods of variation.
C) have very short periods of variation.
D) all lie in the constellation Cepheus.

A) hold it together as a single body.
B) produce a temperature high enough for it to glow.
C) produce a temperature high enough for nuclear reactions to start.
D) turn its interior into liquid hydrogen.

A) the size of a large house.
B) 20 km in diameter.
C) the size of the moon.
D) the size of Jupiter.

A) comets.
B) meteoroids.
C) eclipses.
D) auroras.

A) are not very bright.
B) have relatively low surface temperatures.
C) represent the initial stage in a star's cycle.
D) are among the densest objects in the universe.

A) the sun.
B) white dwarfs.
C) red giants.
D) pulsars.

A) only if it is part of a double-star system.
B) by comparing its luminosity and brightness.
C) from its color.
D) from its position in the HR diagram.

A) comparable in size with the earth.
B) comparable in mass with the sun.
C) extremely hot.
D) extremely bright.

A) part of the main sequence.
B) part of a binary-star system.
C) be a Cepheid variable.
D) be relatively close.

A) colored clouds.
B) comet tails.
C) excited gases in the lower atmosphere.
D) excited gases in the upper atmosphere.

A) temperatures.
B) diameters.
C) densities.
D) masses.

A) lower its density.
B) cooler it is.
C) brighter it is.
D) shorter its lifetime.

A) breaks up into several smaller stars.
B) cools down into a white dwarf.
C) expands into a red giant.
D) explodes into a supernova.

A) from the sun.
B) from the black hole at the center of our galaxy.
C) from a nearby neutron star.
D) that may have caused biological extinctions in the past.

A) visible to the naked eye.
B) present in the solar system.
C) relatively rare.
D) relatively common.

A) a white dwarf.
B) a neutron star.
C) a planetary nebula.
D) the earth.

A) stars with small masses.
B) stars with large masses.
C) white dwarfs.
D) black dwarfs.

A) are members of the main sequence.
B) are on the way to becoming white dwarfs.
C) do not have enough mass to become true stars.
D) are extremely rare.

A) strong electric field.
B) strong magnetic field.
C) strong gravitational field.
D) absorbing atmosphere.

A) white dwarfs.
B) red dwarfs.
C) brown dwarfs.
D) black dwarfs.

A) breaks up into several smaller stars.
B) cools down into a white dwarf.
C) expands into a red giant.
D) explodes into a supernova.

A) small in size.
B) in rapid rotation.
C) composed largely of neutrons.
D) members of the main sequence.

A) members of the main sequence.
B) red giants.
C) white dwarfs.
D) supernovas.

A) the earth's interior.
B) the sun's interior.
C) supernova explosions.
D) black holes.

A) neutron star.
B) white dwarf.
C) red dwarf.
D) red giant.