Deck 6: The Family of Stars

A)Circini is cooler and larger than the Sun.
B)Circini is cooler and smaller than the Sun.
C)Circini is hotter and more luminous than the Sun.
D)Circini is hotter and less luminous than the Sun.

A)They are more luminous but have about the same temperature.
B)They are less luminous but have about the same temperature.
C)They are hotter but have about the same luminosity.
D)They are cooler but have about the same luminosity.

A)distance and diameter
B)temperature and distance
C)temperature and diameter
D)apparent magnitude and temperature

A)supergiants
B)giants
C)upper (more luminous) main-sequence stars
D)lower (less luminous) main-sequence stars

A)It will be more luminous than a visual binary.
B)It will also be observed as a spectroscopic binary.
C)It will show a constant Doppler shift in its spectral lines.
D)It will show two stars with variable proper motion.

A)Antares
B)Arcturus
C)HR 5337
D)Sirius B

A)above the main sequence
B)below the main sequence
C)on the lower main sequence
D)on the upper main sequence

A)supergiants
B)main-sequence stars
C)subgiants
D)dwarfs

A)We can't see the shape or tilt of the orbit.
B)We can't find the diameters of the stars.
C)We can't determine the luminosities of the stars.
D)The Doppler shift is not measurable.

A)They are narrower.
B)They are broader.
C)They are weaker.
D)They are stronger.

A)in the giant region
B)in the supergiant region
C)on the dwarf sequence
D)on the main sequence

A)in the upper left corner
B)in the upper right corner
C)in the lower left corner
D)in the lower right corner

A)Alnilam
B)Arcturus
C)HR 5337
D)Sirius B

A)Alnilam
B)Antares
C)Arcturus
D)Sirius B

A)brightness
B)position on the sky
C)luminosity
D)temperature

A)Sheat is cooler and larger than the Sun.
B)Sheat is cooler and smaller than the Sun.
C)Sheat is hotter and more luminous than the Sun.
D)Sheat is hotter and larger than the Sun.

A)apparent visual magnitude
B)luminosity class
C)spectral type
D)luminosity

A)at the centre of mass
B)farthest from the centre of mass
C)nearest the centre of mass
D)following the largest orbit

A)the Earth's orbit being larger
B)the stars being farther away
C)the Earth moving faster along its orbit
D)stars moving faster in their orbits

A)5 days
B)32.5 days
C)42.5 days
D)50 days

A)0.5 solar luminosities
B)2 solar luminosities
C)4 solar luminosities
D)11 solar luminosities

A)main-sequence stars
B)giant stars
C)supergiant stars
D)white dwarfs

A)the mass of each star
B)the diameter of each star
C)the orbital period
D)the sum of the stars' masses

A)brighter
B)dimmer
C)redder
D)bluer

A)radial velocity
B)proper motion
C)brightness
D)spectral type

A)2 parsecs
B)5 parsecs
C)20 parsecs
D)50 parsecs

A)a supergiant star
B)a main-sequence star
C)a giant star
D)a white dwarf

A)The primary in A is closer to the centre of mass than the primary in B.
B)The primary in A is farther from the centre of mass than the primary in B.
C)The orbital period of the stars in A is shorter than the orbital period of the stars in B.
D)The orbital period of the stars in A is longer than the orbital period of the stars in B.

A)Star A has a mass of 1 solar mass and star B has a mass of 6 solar masses.
B)Star A has a mass of 20 solar masses and star B has a mass of 6 solar masses.
C)Star A has a mass of 22.3 solar masses and star B has a mass of 3.7 solar masses.
D)Star A has a mass of 31.2 solar masses and star B has a mass of 5.2 solar masses.

A)2 to 1
B)1 to 2
C)2 to 3
D)3 to 2

A)? Cen
B)HR 4758
C)HD 39801
D)9 CMa

A)194 km
B)4656 km
C)350,000 km
D)700,000 km

A)? Cen
B)HR 4758
C)HD 39801
D)9 CMa

A)? Cen
B)HR 4758
C)HD 39801
D)9 CMa

A)1
B)2
C)3
D)4

A)Star B is one-tenth the mass of star A.
B)Star B is half the mass of star A.
C)Star B is twice the mass of star A.
D)Star B is ten times the mass of star A.

A)the spectral type M stars
B)the spectral type O stars
C)those that are located in the lower right of the H-R diagram
D)those that are located in the lower left of the H-R diagram

A)the ratio of the angular separation from the centre of mass of each of the stars
B)the semi major axis and period of the orbit
C)the radial velocities of the two stars
D)the time required for the small star to eclipse the larger star

A)It would be less than +5.
B)It would be exactly +5.
C)It would be greater than +5.
D)More information on the star's luminosity would be required to answer this question.

A)by combining the apparent magnitude with the star's parallax
B)by measuring the period of variability in the star's apparent magnitude
C)by studying the absorption line width in the spectrum of the star
D)by observing the angular size of the star's image in a photograph or digital image

A)Some stars are occasionally eclipsed by the Moon, so they must be nearby.
B)Some stars vary in brightness caused by sunspots that we can see because they are so close.
C)Some stars appear to be extremely bright and must therefore be very close to us.
D)Some stars appear to move periodically back and forth against the background stars because of the Earth's movement around the Sun.

A)Apply the mass-luminosity relation.
B)Measure its orbit around another star.
C)Measure its radius, then compute its volume and multiply by density to get the mass.
D)Apply the mass-temperature relation.

A)Study the pattern of absorption lines from various atoms.
B)Study the relative intensities of light measured through different photometric filters.
C)Study the peak wavelength of the star's continuum blackbody spectrum.
D)Study the pattern of emission lines on the star's spectrum.

A)They are close to Earth.
B)They are very luminous.
C)They are main-sequence stars.
D)They are red dwarfs.

A)Apply the mass-temperature relation.
B)Measure its orbit around another star.
C)Measure its radius, then compute its volume and multiply by density to get the mass.
D)Compute its spectroscopic parallax, then apply the mass-luminosity relation.

A)twice as bright
B)four times as bright
C)16 times as bright
D)4000 times as bright

A)mass
B)radius
C)luminosity
D)temperature

A)Much less than 1 solar mass.
B)About 1 solar mass.
C)About 10 solar masses.
D)About 100 solar masses.

A)α For
B)o Cet
C)ƴ Tri
D)

A)By continuously focusing our eyes on distant objects, we can determine distance.
B)Since our eyes are separated, the brain interprets the relative look angles of the two eyes in terms of distance to the object viewed.
C)Our eyes can measure the time it takes light to travel from an object, and from this we get distance.
D)As we move our heads from side to side, our brain compares look angles from each of these positions to work out the distance to the object viewed.

A)studying its continuous spectrum
B)studying its line absorption spectrum
C)measuring the star's luminosity and diameter
D)measuring the star's parallax

A)They are always cooler.
B)They are always larger.
C)They are always smaller.
D)They are always more massive.

A)The one with the larger radius will always have the greater luminosity.
B)The one with the higher surface temperature will always have the greater luminosity.
C)The one with the smaller absolute magnitude will always have the greater luminosity.
D)The one with the largest distance will always have the greater luminosity.

A)stars of high luminosity
B)stars of low luminosity
C)nearby stars
D)distant stars

A)Surface temperature affects which elements are solid, liquid, or gaseous.
B)Surface temperature determines the luminosity of the star.
C)Surface temperature affects which elements can escape from the surface of the star.
D)Surface temperature determines the velocity of collision rates of atoms and ions.

A)Red main-sequence stars, because there are so many of them.
B)Luminous stars, because they are bright and easy to find.
C)Stars like the Sun, because the Sun is a typical star.
D)White dwarf stars, because they are so old.

A)Sirius B must be much smaller than Sirius A.
B)Sirius B must be much larger than Sirius A.
C)Sirius B must be much more massive than Sirius A.
D)Sirius B must be much less massive than Sirius A.

A)They have high temperatures.
B)They are very luminous.
C)They are main-sequence stars.
D)They are red dwarfs.

A)α For
B)o Cet
C)ƴ Tri
D)