Deck 15: Stellar Remnants: White Dwarfs, Neutron Stars, and Black Holes

A) planet
B) neutron star
C) white dwarf
D) black hole

A) Nova
B) Type Ia supernova
C) Type II supernova
D) Pulsar
E) None of these choices is correct.

A) Nova
B) Type I supernova
C) Type II supernova
D) Pulsar
E) None of these choices is correct.

A) white dwarf
B) neutron star
C) black hole
D) All of these choices are correct.

A) speed
B) mass
C) temperature
D) wavelength

A) Neutron stars
B) Pulsars
C) White dwarfs
D) Black holes

A) white dwarf
B) neutron star
C) black hole
D) planetary nebula

A) masses; surface temperatures
B) volumes; surface temperatures
C) surface temperatures; luminosities
D) luminosities; surface temperatures

A) hydrogen and oxygen
B) hydrogen and helium
C) carbon and oxygen
D) carbon and helium

A) the doppler effect
B) Wien's law
C) conservation of angular momentum
D) the Zeeman splitting of spectral lines

A) heat left over from their formation
B) chemical reactions on their surfaces
C) nuclear fusion in their cores
D) frictional heating from motions inside the white dwarfs

A) cool off and become a black dwarf.
B) explode as a type la supernova.
C) form a brown dwarf.
D) become the seed for a new star.

A) Nova
B) Type Ia supernova
C) Type II supernova
D) Pulsar
E) None of these choices is correct.

A) White dwarfs
B) Neutron stars
C) Pulsars
D) Black dwarfs

A) novae
B) Type I supernovae
C) Type II supernovae
D) X-ray bursts
E) None of these choices is correct.

A) When a neutron star collapses, the intensified magnetic field causes it to rotate much more quickly.
B) When a neutron star collapses, its rotation is kicked up by the ejected material from the supernova.
C) When a neutron star collapses, its rotation rate speeds up because of conservation of angular momentum.
D) The collapsing neutron star becomes hot and the fast rotation is the result of thermal energy.

A) 10
B) 100
C) 1,000
D) 1 million

A) magnetic field
B) spin rate
C) density
D) mass

A) optical
B) X-ray
C) infrared
D) radio
E) gamma ray

A) Wien's law
B) the doppler effect
C) their high temperature
D) the law of conservation of angular momentum

A) are how pulsars pulse.
B) carry material into black holes.
C) are traveling distortions of space and time.
D) do not carry energy.

A) explode as a supernova
B) become a pulsar
C) become a neutron star
D) become a black hole
E) All of these choices are correct.

A) They heat the interstellar medium and help keep Earth warm.
B) They liberate from the star's core the heavy elements of which we and Earth are made.
C) They destroy wandering stars that might otherwise collide with our Sun.
D) They bathe Earth in X-rays that may have helped life form.
E) They sterilized the young Earth and allowed life to originate by killing off competing bacteria.

A) remains the same.
B) always increases.
C) always decreases.
D) increases or decreases, depending on whether it shrinks or expands.

A) conservation of magnetic energy.
B) the law of action-reaction.
C) conservation of angular momentum.
D) the special theory of relativity.
E) None of these choices is correct.

A) V/R = constant.
B) VR = constant.
C) R/V = constant.
D) V²R = constant.
E) R²V = constant.

A) get five times faster.
B) get five times slower.
C) remain the same.
D) get 10 times faster.
E) get 25 times faster.

A) 20 km/sec.
B) 2,000 km/sec.
C) 200 km/sec.
D) 0.2 km/sec.
E) 400 km/sec.

A) observe them directly through the space-based telescopes.
B) look for voids (holes) in the star fields.
C) look for its effect on nearby companions.
D) search for radio waves from the accretion disk.

A) zero.
B) infinity.
C) unknown.
D) half the speed of light.
E) greater than the speed of light.

A) speed of sound
B) supersonic speed
C) speed of light
D) half the speed of light

A) electrons
B) very high energy gamma rays
C) visible light
D) very low energy radio waves
E) None of these choices is correct.

A) measuring its volume and density
B) the electromagnetic radiation it emits
C) how rapidly it is spinning
D) applying the modified version of Kepler's Third law, if the black hole is in a binary system

A) hotter than the Sun
B) less than 1 millionth of a degree
C) hotter than 1 million degrees
D) hotter than a white dwarf
E) Black holes do not have temperature.

A) gravitational
B) electromagnetic
C) seismic
D) nuclear

A) eventually suck in all of the universe.
B) implode due to its own gravity.
C) not change in any way.
D) slowly evaporate away through the emission of Hawking radiation.

A) Silicon
B) Nickel
C) Cobalt
D) Iron
E) Neon

A) They have extremely strong magnetic fields.
B) They have extremely fast rotation rates.
C) Their rotation axis is misaligned with their magnetic field axis.
D) Their surface expands and contracts rapidly, causing changes in brightness.

A) Silver
B) Gold
C) Uranium
D) Copper
E) Lead