Deck 16: The Evolution of the Universe

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.

A) the star formation rate in galaxies decreases with increasing redshift.
B) the expansion rate of the universe is increasing.
C) the cosmological constant is zero.
D) dark energy is negligible at the present time.

A) The gravity provided by the mass contained within the universe was predicted to slow the expansion.
B) The acceleration of the universe was predicted to increase.
C) Astronomers had not anticipated being able to observe supernovae at such large distances.
D) The universe was expected to lose, not gain energy.

A) The amount of space in between the galaxies is increasing.
B) All galaxies are moving away from us because we are at the center of the universe.
C) All galaxies are moving toward us because we are at the center of the universe.
D) Galaxies do not show redshifts.

A) The greater the density of the universe, the more black holes will form, which will devour surrounding material more quickly.
B) The greater the density of the universe, the more gravitationally bound the universe will be.
C) The greater the density of the universe, the more massive stars it will contain, and the faster it will evolve.
D) The greater the density of the universe, the more stars it will form over time, and the longer the universe will last.

A) Photons began to travel freely through the universe.
B) Neutrinos ceased to interact with normal matter.
C) Dark matter ceased to interact with normal matter.
D) Protons and neutrons combined to form nuclei such as deuterium and helium.

A) Yes, the debris made the first stars.
B) Yes, the debris made protons, neutrons, and electrons.
C) No, the Big Bang formed space and time.
D) No, the debris was already present.

A) near the Milky Way Galaxy
B) near the Virgo Cluster
C) near some unknown location on the other side of the universe
D) everywhere in the universe

A) 1 proton/m3.
B) 1 kg/m3.
C) 1 Earth mass/m3.
D) 1 solar mass/m3.

A) The universe is expanding.
B) The faintest galaxies look redder because their stars are younger.
C) Helium, lithium, and beryllium were made as the universe cooled after the initial Big Bang.
D) The early universe was very hot and dense.

A) Photons are not produced until the stars form.
B) At such high redshifts, photons are gravitationally lensed by the dark matter in the universe.
C) At such high redshifts, most of the photons are blocked by large amounts of cold gas and dust.
D) At such high redshifts, photons are heavily altered because they easily react with individual protons and electrons in the universe.

A) larger than
B) smaller than
C) the same as
D) independent of

A) synchrotron emission from the Crab Nebula.
B) emission from newly formed stars in the Orion Nebula.
C) cell phone usage.
D) photons leftover from the Big Bang.

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.

A) time.
B) mass.
C) density.
D) size.

A) Wluminous = 0.1, Wmatter = 0.3, WL = 0.7
B) Wluminous = 0.02, Wmatter = 0.5, WL = 0.5
C) Wluminous = 0, Wmatter = 0.1, WL = 0.9
D) Wluminous = 0.02, Wmatter = 0.3, WL = 0.7

A) gamma rays.
B) infrared.
C) microwaves.
D) ultraviolet.

A) brighter; the universe's expansion rate was decreasing with time
B) brighter; the universe was finite in size
C) fainter; the universe's expansion rate has been increasing with time
D) fainter; the universe was infinite in size

A) much hotter than it is today.
B) much colder than it is today.
C) composed entirely of radiation at early times.
D) composed entirely of stars at early times.

A) helium
B) neutrons
C) neutrinos
D) protons

A) helium
B) lithium
C) carbon
D) deuterium

A) Wmass + WL= 0
B) Wmass + WL = 1
C) Wluminous + WL = 1
D) Wluminous + WL = 0

A) why the universe consists mostly of matter.
B) why the Big Bang never made any antimatter.
C) why we have five fundamental forces in the universe today.
D) why the cosmic microwave background radiation is very smooth.

A) GUTs
B) quantum mechanics
C) inflation
D) dark energy

A) The other six spatial dimensions are tightly wrapped around each other and have not expanded.
B) The other nine spatial dimensions are too small to be noticeable.
C) The other seven spatial dimensions undergo inflation and flatten themselves out.
D) The other nine spatial dimensions wrap around each other and form the temporal dimension.

A) A universe as smooth as predicted by the cosmic microwave background radiation should not have formed as many galaxies as have been observed.
B) A universe as smooth as predicted by the cosmic microwave background radiation should have collapsed by now.
C) A universe as smooth as predicted by the cosmic microwave background radiation should be expanding much faster than we are now.
D) A universe as smooth as predicted by the cosmic microwave background radiation should never have occurred occur because quantum mechanical fluctuations would have been imprinted on it.

A) only electromagnetism, weak nuclear, and strong nuclear
B) only gravity and strong nuclear
C) only electromagnetism, gravity, and weak nuclear
D) all four known forces

A) It would look similar to our universe, but half of it would be composed of antimatter.
B) We would observe two universes, one an antimatter reflection of the other.
C) There would be no universe because all of the matter and antimatter would have been annihilated.
D) There would be a universe, but it would be completely composed of energy.

A) electromagnetic, gravity, strong nuclear, and weak nuclear
B) electroweak, gravity, magnetic, and nuclear
C) gravity, magnetism, strong nuclear, and weak nuclear
D) electrostrong, gravity, magnetic, and nuclear

A) Why do neutrinos have mass?
B) Why is the strong nuclear force much stronger than the weak nuclear force?
C) How is gravity related to the other three fundamental forces?
D) all of the above

A) when galaxies were first formed.
B) when hydrogen and helium were formed.
C) when gravity was quantum mechanical.
D) the time of recombination.

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.

A) It would have the same mass but opposite charge.
B) It would have the same charge but opposite spin.
C) It would have the opposite charge and higher mass.
D) It would have the opposite spin and higher mass.

A) the universe was <10-33 seconds old.
B) the universe expanded by a factor of approximately 1030.
C) the average energy of the vacuum of spacetime changed.
D) all of the above

A) Each universe is identical to every other.
B) Multiverses are not allowed by the laws of physics as we understand them.
C) The universes can never communicate with each other.
D) You have lived your exact same life in every universe.

A) our universe is so big.
B) the parallel universes cannot communicate with each other.
C) the other universes do not emit any light.
D) parallel universes destroy each other if they come into contact.

A) 1000 K
B) 100,000 K
C) 1 million K
D) 1 billion K

A) at the very moment the Big Bang occurred
B) about the time gravity separated out of the theory of everything
C) about the time the strong force separated out of the grand unified theory
D) about the time the weak force and electromagnetism separated

A) the strong force
B) electromagnetism
C) gravity
D) nucleosynthesis