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Deck 21: Modern Cosmology

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Question
The critical density of the universe is approximately equal to

A) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
B) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
C) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
D) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . <div style=padding-top: 35px> .
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Question
The force that binds three quarks together to make up a proton or neutron is called the weak force.
Question
Why does the overall mass and energy density of the universe decide its ultimate fate?

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.
Question
The theory of inflation assumes that at some point in time dark energy will decay and the universe will expand rapidly by a factor of The theory of inflation assumes that at some point in time dark energy will decay and the universe will expand rapidly by a factor of .<div style=padding-top: 35px> .
Question
The three fundamental forces of nature are gravity,electromagnetism,and the strong force.
Question
Astronomers have confirmed the grand unified theory by observing that protons decay in laboratory experiments.
Question
Directly after the Big Bang,the universe was filled with a variety of charged particles,antiparticles,and photons.
Question
The ratio of the average density in all forms of matter (luminous and dark)in our universe to the critical density is approximately 0.3.
Question
Current observations suggest that the density of luminous matter,all matter and dark energy are

A) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> .
B) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> .
C) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> .
D) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <div style=padding-top: 35px> .
Question
During inflation when the universe was approximately 1 second old,its size grew by a factor of During inflation when the universe was approximately 1 second old,its size grew by a factor of .<div style=padding-top: 35px> .
Question
Dark energy is a force that continually decreases the expansion rate of the universe.
Question
Observations of Type I supernovae in distant galaxies confirm that the expansion of the universe is decreasing over time.
Question
The four fundamental forces of nature are gravity,electromagnetism,the weak force,and the strong force.
Question
The concept of inflation helps solve both the problems of the flatness of the universe and smoothness of the cosmic background radiation.
Question
The ratio of the density in luminous matter to the critical density is 0.3.
Question
The weak force mediates the beta decay of neutrons into protons,electrons,and antineutrinos.
Question
If the sum of the mass and energy density in the universe yields If the sum of the mass and energy density in the universe yields then the universe will recollapse in a Big Crunch.<div style=padding-top: 35px> then the universe will recollapse in a Big Crunch.
Question
The fact that The fact that is very close to 1 means that its value has always been very close to 1.<div style=padding-top: 35px> is very close to 1 means that its value has always been very close to 1.
Question
In the superstring theory that successfully unites gravity and quantum mechanics,the universe must have 11 dimensions (10 spatial and 1 temporal).
Question
If <strong>If today and there were no dark energy,the universe would</strong> A) expand forever. B) slow its expansion but never reverse it. C) stop expanding and eventually collapse. D) oscillate between expansion and collapse. <div style=padding-top: 35px> today and there were no dark energy,the universe would

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
Question
In order to produce an electron and a positron,a photon must have

A) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. <div style=padding-top: 35px> .
B) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. <div style=padding-top: 35px> .
C) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. <div style=padding-top: 35px> .
D) an infinite energy.
Question
What can simultaneously solve both the flatness and horizon problems in cosmology?

A) GUTs
B) Quantum mechanics
C) Inflation
D) Dark energy
Question
Why is the fact that the cosmic background radiation (CBR)is very smooth considered a problem?

A) A universe as smooth as predicted by the CBR should not have formed as many galaxies as have been observed.
B) A universe as smooth as predicted by the CBR should have collapsed by now.
C) A universe as smooth as predicted by the CBR should be expanding much faster than we are now.
D) A universe as smooth as predicted by the CBR should never occur because quantum mechanical fluctuations would have been imprinted on it.
Question
To determine how the expansion rate of the universe has changed over time,astronomers must measure __________ for a sample of Type I supernovae in distant galaxies.

A) redshift and luminosity
B) redshift and brightness
C) distance and luminosity
D) distance and brightness
Question
The universe can be infinite in size for which shapes of the universe?

A) Open
B) Closed
C) Flat
D) Open and flat
Question
In the 1990s,astronomers found that distant Type I supernova were __________ than they expected,leading them to conclude that __________.

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
Question
The flatness problem arises because only a universe with __________ can have that value forever.

A) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Inflation happened

A) when the universe was <strong>Inflation happened</strong> A) when the universe was s old. B) when the universe expanded by a factor of approximately . C) when the average energy of the vacuum of spacetime changed. D) All of the above <div style=padding-top: 35px> s old.
B) when the universe expanded by a factor of approximately <strong>Inflation happened</strong> A) when the universe was s old. B) when the universe expanded by a factor of approximately . C) when the average energy of the vacuum of spacetime changed. D) All of the above <div style=padding-top: 35px> .
C) when the average energy of the vacuum of spacetime changed.
D) All of the above
Question
In a closed (spherical)universe,the sum of the angles in a triangle is

A) 180 degrees.
B) < 180 degrees.
C) > 180 degrees.
D) 240 degrees.
Question
Which of the following are NOT considered carrier particles used to mediate forces between other particles?

A) Photons
B) Gluons
C) Quarks
D) W+ particles
Question
Which was a triumph of quantum electrodynamics (QED)?

A) QED predicted the existence of three carrier particles before they were discovered in laboratory experiments.
B) QED unites the strong and weak nuclear forces.
C) QED is an example of a theory of everything.
D) QED successfully explains the origin of quantum mechanical fluctuations in the CBR.
Question
If the fate of the universe were determined SOLELY by what we currently know to be the total mass of the universe in luminous and dark matter (excluding dark energy),astronomers would predict that we live in a universe that will

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
Question
How does the addition of a nonzero cosmological constant affect the expansion of the universe?

A) It is possible for the mass density of the universe to be below the critical density and still collapse.
B) It is possible for the density of the universe to be below the critical density and still expand forever.
C) It is impossible to have a collapsing universe,regardless of its density.
D) It is impossible to have an expanding universe,regardless of its density.
Question
Is Einstein's "biggest blunder" still considered a mistake?

A) No,the cosmological constant is nonzero.
B) Yes,the cosmological constant turned out to be zero.
C) Somewhat,because he could have predicted that the universe was expanding even before Hubble observed it.
D) Both a and c are correct.
Question
The standard model of particle physics is incomplete because it leaves which question(s)unanswered?

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
Question
Due to the fact that we live in a universe with an accelerating expansion rate,the actual age of the universe is __________ the Hubble time.

A) larger than
B) smaller than
C) the same as
D) independent of
Question
How would astronomers describe the antiparticle of an electron?

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.
Question
Observations of Type I supernovae in distant galaxies have shown that

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.
Question
If <strong>If today and dark energy was a cosmological constant,the universe will</strong> A) expand forever. B) slow its expansion but never reverse it. C) stop expanding and eventually collapse. D) oscillate between expansion and collapse. <div style=padding-top: 35px> today and dark energy was a cosmological constant,the universe will

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
Question
Why would it be very improbable for our universe to have <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . <div style=padding-top: 35px> ?

A) It would quickly evolve to have a much different value of <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . <div style=padding-top: 35px> .
B) In order to exist,every universe must have <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . <div style=padding-top: 35px> .
C) We know <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . <div style=padding-top: 35px> ,based on the average density of galaxies.
D) The fluctuation in the CBR tell us that <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . <div style=padding-top: 35px> .
Question
In the superstring theory that successfully unites gravity and quantum mechanics,the universe must have

A) 11 dimensions (10 spatial and 1 temporal).
B) 4 dimensions (3 spatial and 1 temporal).
C) 9 dimensions (8 spatial and 1 temporal).
D) 6 dimensions (3 spatial and 3 temporal).
Question
What will happen to the expansion of the universe in the future if: What will happen to the expansion of the universe in the future if: ,and ?<div style=padding-top: 35px> What will happen to the expansion of the universe in the future if: ,and ?<div style=padding-top: 35px> ,and What will happen to the expansion of the universe in the future if: ,and ?<div style=padding-top: 35px> ?
Question
Soon after the Big Bang,we believe the four fundamental forces of nature were united into one superforce,and __________ was the first to split off from the others.

A) the strong force
B) electromagnetism
C) gravity
D) nucleosynthesis
Question
Why does the critical mass density of the universe depend on the value of Hubble's constant, Why does the critical mass density of the universe depend on the value of Hubble's constant, ?<div style=padding-top: 35px> ?
Question
When the universe was __________ old,approximately 24 percent of the normal matter in it had been turned into helium.

A) 5 minutes
B) 8 hours
C) 1,000 years
D) 4.5 billion years
Question
What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K <div style=padding-top: 35px> the CBR at any point in time has a blackbody spectrum that peaks at <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K <div style=padding-top: 35px> ,and the mass of a single electron is <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K <div style=padding-top: 35px> .

A) 2,000 K
B) 400,000 K
C) 4 million K
D) 2 billion K
Question
In some particle physics theories,the universe must have more than three spatial dimensions,but we experience only three.Why would we not see the other spatial dimensions?

A) The other seven 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 another and form the temporal dimension.
Question
Why does a unified force split to become two separate forces?

A) The universe expands so much that carrier particles become too dense.
B) The energy in the CBR becomes less than the mass of the unified force's carrier particles.
C) Dark energy becomes significant at later times and forces the two to split.
D) The spatial dimensions split and so must the forces.
Question
If you found a globular cluster that had an age of 20 billion years,what cosmological observations would conflict with this observation?
Question
By the time the universe was 5 minutes old,approximately 24 percent of the normal matter in it had been turned into

A) protons.
B) neutrons.
C) hydrogen.
D) helium.
Question
What would the universe be like if there were complete symmetry between matter and antimatter?

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.
Question
A grand unified theory unites which forces?

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
Question
Even with infinitely powerful telescopes,we can look back in time only until

A) when galaxies were first formed.
B) when hydrogen and helium were formed.
C) when gravity was quantum mechanical.
D) the time of recombination.
Question
Grand unified theories are very attractive because they can explain

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 CBR is very smooth.
Question
If dark energy is currently causing the expansion rate of the universe to increase with time,does this mean that you should worry that the Sun,the Earth,and your body itself are expanding? Why or why not?
Question
At what stage in the universe's history do we think the asymmetry between matter and antimatter was created?

A) At the very moment the Big Bang occurred
B) Around the time gravity separated out of the theory of everything
C) Around the time the strong force separated out of the grand unified theory
D) Around the time the weak force and electromagnetism separated
Question
What are two observations that when combined tell us that the universe has What are two observations that when combined tell us that the universe has and is flat?<div style=padding-top: 35px> and is flat?
Question
To verify whether or not some grand unified theories are correct,physicists are searching for

A) the Big Rip.
B) mini-black holes.
C) protons that decay.
D) dark matter that decays.
Question
As the universe cooled shortly after the Big Bang,which was the first fundamental force to separate itself out from the others?

A) Electromagnetism
B) Gravity
C) The strong force
D) The weak force
Question
The critical mass density of the universe today is The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is .<div style=padding-top: 35px> .Using the current observed value of The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is .<div style=padding-top: 35px> ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is .<div style=padding-top: 35px> .
Question
What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is .<div style=padding-top: 35px> ,the CBR at any point in time has a blackbody spectrum that peaks at What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is .<div style=padding-top: 35px> ,and the mass of a single proton is What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is .<div style=padding-top: 35px> .
Question
Explain why astronomers cannot accurately model the exact history of the universe in the first few fractions of a second after the Big Bang?
Question
Describe the four fundamental forces of nature by listing their names and describing what effect each force has on objects in the universe.
Question
In quantum electrodynamics (QED),what mediates the electromagnetic force between particles?
Question
Why does the sum of Why does the sum of and determine the shape of our universe?<div style=padding-top: 35px> and Why does the sum of and determine the shape of our universe?<div style=padding-top: 35px> determine the shape of our universe?
Question
According to superstring theory,how are different varieties of elementary particles similar? How do they differ?
Question
What can solve the flatness and horizon problem in cosmology,and why?
Question
What is the difference between a grand unified theory and a theory of everything?
Question
What is the "flatness problem" in cosmology?
Question
What is the name of the particle that mediates the electromagnetic force in quantum electrodynamics (QED)and the strong force in quantum chromodynamics (QCD)?
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Deck 21: Modern Cosmology
1
The critical density of the universe is approximately equal to

A) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . .
B) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . .
C) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . .
D) <strong>The critical density of the universe is approximately equal to</strong> A) . B) . C) . D) . .
. .
2
The force that binds three quarks together to make up a proton or neutron is called the weak force.
False
3
Why does the overall mass and energy density of the universe decide its ultimate fate?

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.
The greater the density of the universe,the more gravitationally bound the universe will be.
4
The theory of inflation assumes that at some point in time dark energy will decay and the universe will expand rapidly by a factor of The theory of inflation assumes that at some point in time dark energy will decay and the universe will expand rapidly by a factor of . .
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5
The three fundamental forces of nature are gravity,electromagnetism,and the strong force.
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6
Astronomers have confirmed the grand unified theory by observing that protons decay in laboratory experiments.
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7
Directly after the Big Bang,the universe was filled with a variety of charged particles,antiparticles,and photons.
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8
The ratio of the average density in all forms of matter (luminous and dark)in our universe to the critical density is approximately 0.3.
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9
Current observations suggest that the density of luminous matter,all matter and dark energy are

A) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . .
B) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . .
C) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . .
D) <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . , <strong>Current observations suggest that the density of luminous matter,all matter and dark energy are</strong> A) , . B) , , . C) , , . D) , , . .
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10
During inflation when the universe was approximately 1 second old,its size grew by a factor of During inflation when the universe was approximately 1 second old,its size grew by a factor of . .
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11
Dark energy is a force that continually decreases the expansion rate of the universe.
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12
Observations of Type I supernovae in distant galaxies confirm that the expansion of the universe is decreasing over time.
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13
The four fundamental forces of nature are gravity,electromagnetism,the weak force,and the strong force.
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14
The concept of inflation helps solve both the problems of the flatness of the universe and smoothness of the cosmic background radiation.
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15
The ratio of the density in luminous matter to the critical density is 0.3.
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16
The weak force mediates the beta decay of neutrons into protons,electrons,and antineutrinos.
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17
If the sum of the mass and energy density in the universe yields If the sum of the mass and energy density in the universe yields then the universe will recollapse in a Big Crunch. then the universe will recollapse in a Big Crunch.
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18
The fact that The fact that is very close to 1 means that its value has always been very close to 1. is very close to 1 means that its value has always been very close to 1.
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19
In the superstring theory that successfully unites gravity and quantum mechanics,the universe must have 11 dimensions (10 spatial and 1 temporal).
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20
If <strong>If today and there were no dark energy,the universe would</strong> A) expand forever. B) slow its expansion but never reverse it. C) stop expanding and eventually collapse. D) oscillate between expansion and collapse. today and there were no dark energy,the universe would

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
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21
In order to produce an electron and a positron,a photon must have

A) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. .
B) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. .
C) <strong>In order to produce an electron and a positron,a photon must have</strong> A) . B) . C) . D) an infinite energy. .
D) an infinite energy.
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22
What can simultaneously solve both the flatness and horizon problems in cosmology?

A) GUTs
B) Quantum mechanics
C) Inflation
D) Dark energy
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23
Why is the fact that the cosmic background radiation (CBR)is very smooth considered a problem?

A) A universe as smooth as predicted by the CBR should not have formed as many galaxies as have been observed.
B) A universe as smooth as predicted by the CBR should have collapsed by now.
C) A universe as smooth as predicted by the CBR should be expanding much faster than we are now.
D) A universe as smooth as predicted by the CBR should never occur because quantum mechanical fluctuations would have been imprinted on it.
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24
To determine how the expansion rate of the universe has changed over time,astronomers must measure __________ for a sample of Type I supernovae in distant galaxies.

A) redshift and luminosity
B) redshift and brightness
C) distance and luminosity
D) distance and brightness
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25
The universe can be infinite in size for which shapes of the universe?

A) Open
B) Closed
C) Flat
D) Open and flat
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26
In the 1990s,astronomers found that distant Type I supernova were __________ than they expected,leading them to conclude that __________.

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
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27
The flatness problem arises because only a universe with __________ can have that value forever.

A) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D)
B) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D)
C) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D)
D) <strong>The flatness problem arises because only a universe with __________ can have that value forever.</strong> A) B) C) D)
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28
Inflation happened

A) when the universe was <strong>Inflation happened</strong> A) when the universe was s old. B) when the universe expanded by a factor of approximately . C) when the average energy of the vacuum of spacetime changed. D) All of the above s old.
B) when the universe expanded by a factor of approximately <strong>Inflation happened</strong> A) when the universe was s old. B) when the universe expanded by a factor of approximately . C) when the average energy of the vacuum of spacetime changed. D) All of the above .
C) when the average energy of the vacuum of spacetime changed.
D) All of the above
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29
In a closed (spherical)universe,the sum of the angles in a triangle is

A) 180 degrees.
B) < 180 degrees.
C) > 180 degrees.
D) 240 degrees.
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30
Which of the following are NOT considered carrier particles used to mediate forces between other particles?

A) Photons
B) Gluons
C) Quarks
D) W+ particles
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31
Which was a triumph of quantum electrodynamics (QED)?

A) QED predicted the existence of three carrier particles before they were discovered in laboratory experiments.
B) QED unites the strong and weak nuclear forces.
C) QED is an example of a theory of everything.
D) QED successfully explains the origin of quantum mechanical fluctuations in the CBR.
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32
If the fate of the universe were determined SOLELY by what we currently know to be the total mass of the universe in luminous and dark matter (excluding dark energy),astronomers would predict that we live in a universe that will

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
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33
How does the addition of a nonzero cosmological constant affect the expansion of the universe?

A) It is possible for the mass density of the universe to be below the critical density and still collapse.
B) It is possible for the density of the universe to be below the critical density and still expand forever.
C) It is impossible to have a collapsing universe,regardless of its density.
D) It is impossible to have an expanding universe,regardless of its density.
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34
Is Einstein's "biggest blunder" still considered a mistake?

A) No,the cosmological constant is nonzero.
B) Yes,the cosmological constant turned out to be zero.
C) Somewhat,because he could have predicted that the universe was expanding even before Hubble observed it.
D) Both a and c are correct.
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35
The standard model of particle physics is incomplete because it leaves which question(s)unanswered?

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
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36
Due to the fact that we live in a universe with an accelerating expansion rate,the actual age of the universe is __________ the Hubble time.

A) larger than
B) smaller than
C) the same as
D) independent of
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37
How would astronomers describe the antiparticle of an electron?

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.
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38
Observations of Type I supernovae in distant galaxies have shown that

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.
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39
If <strong>If today and dark energy was a cosmological constant,the universe will</strong> A) expand forever. B) slow its expansion but never reverse it. C) stop expanding and eventually collapse. D) oscillate between expansion and collapse. today and dark energy was a cosmological constant,the universe will

A) expand forever.
B) slow its expansion but never reverse it.
C) stop expanding and eventually collapse.
D) oscillate between expansion and collapse.
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40
Why would it be very improbable for our universe to have <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . ?

A) It would quickly evolve to have a much different value of <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . .
B) In order to exist,every universe must have <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . .
C) We know <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . ,based on the average density of galaxies.
D) The fluctuation in the CBR tell us that <strong>Why would it be very improbable for our universe to have ?</strong> A) It would quickly evolve to have a much different value of . B) In order to exist,every universe must have . C) We know ,based on the average density of galaxies. D) The fluctuation in the CBR tell us that . .
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41
In the superstring theory that successfully unites gravity and quantum mechanics,the universe must have

A) 11 dimensions (10 spatial and 1 temporal).
B) 4 dimensions (3 spatial and 1 temporal).
C) 9 dimensions (8 spatial and 1 temporal).
D) 6 dimensions (3 spatial and 3 temporal).
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42
What will happen to the expansion of the universe in the future if: What will happen to the expansion of the universe in the future if: ,and ? What will happen to the expansion of the universe in the future if: ,and ? ,and What will happen to the expansion of the universe in the future if: ,and ? ?
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43
Soon after the Big Bang,we believe the four fundamental forces of nature were united into one superforce,and __________ was the first to split off from the others.

A) the strong force
B) electromagnetism
C) gravity
D) nucleosynthesis
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44
Why does the critical mass density of the universe depend on the value of Hubble's constant, Why does the critical mass density of the universe depend on the value of Hubble's constant, ? ?
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45
When the universe was __________ old,approximately 24 percent of the normal matter in it had been turned into helium.

A) 5 minutes
B) 8 hours
C) 1,000 years
D) 4.5 billion years
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46
What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K the CBR at any point in time has a blackbody spectrum that peaks at <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K ,and the mass of a single electron is <strong>What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create an electron and positron pair? Note that a photon has an energy equal to the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single electron is .</strong> A) 2,000 K B) 400,000 K C) 4 million K D) 2 billion K .

A) 2,000 K
B) 400,000 K
C) 4 million K
D) 2 billion K
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47
In some particle physics theories,the universe must have more than three spatial dimensions,but we experience only three.Why would we not see the other spatial dimensions?

A) The other seven 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 another and form the temporal dimension.
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48
Why does a unified force split to become two separate forces?

A) The universe expands so much that carrier particles become too dense.
B) The energy in the CBR becomes less than the mass of the unified force's carrier particles.
C) Dark energy becomes significant at later times and forces the two to split.
D) The spatial dimensions split and so must the forces.
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49
If you found a globular cluster that had an age of 20 billion years,what cosmological observations would conflict with this observation?
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50
By the time the universe was 5 minutes old,approximately 24 percent of the normal matter in it had been turned into

A) protons.
B) neutrons.
C) hydrogen.
D) helium.
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51
What would the universe be like if there were complete symmetry between matter and antimatter?

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.
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52
A grand unified theory unites which forces?

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
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53
Even with infinitely powerful telescopes,we can look back in time only until

A) when galaxies were first formed.
B) when hydrogen and helium were formed.
C) when gravity was quantum mechanical.
D) the time of recombination.
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54
Grand unified theories are very attractive because they can explain

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 CBR is very smooth.
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Unlock for access to all 70 flashcards in this deck.
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55
If dark energy is currently causing the expansion rate of the universe to increase with time,does this mean that you should worry that the Sun,the Earth,and your body itself are expanding? Why or why not?
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56
At what stage in the universe's history do we think the asymmetry between matter and antimatter was created?

A) At the very moment the Big Bang occurred
B) Around the time gravity separated out of the theory of everything
C) Around the time the strong force separated out of the grand unified theory
D) Around the time the weak force and electromagnetism separated
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57
What are two observations that when combined tell us that the universe has What are two observations that when combined tell us that the universe has and is flat? and is flat?
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58
To verify whether or not some grand unified theories are correct,physicists are searching for

A) the Big Rip.
B) mini-black holes.
C) protons that decay.
D) dark matter that decays.
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59
As the universe cooled shortly after the Big Bang,which was the first fundamental force to separate itself out from the others?

A) Electromagnetism
B) Gravity
C) The strong force
D) The weak force
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60
The critical mass density of the universe today is The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is . .Using the current observed value of The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is . ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is The critical mass density of the universe today is .Using the current observed value of ,what is the average density of protons in the universe? If they were spread evenly throughout the universe,what would be their typical separation? Note that the mass of the proton is . .
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61
What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is . ,the CBR at any point in time has a blackbody spectrum that peaks at What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is . ,and the mass of a single proton is What was the temperature of the universe when a typical CBR photon was no longer able to spontaneously create a proton and antiproton pair? Note that a photon has an energy equal to ,the CBR at any point in time has a blackbody spectrum that peaks at ,and the mass of a single proton is . .
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62
Explain why astronomers cannot accurately model the exact history of the universe in the first few fractions of a second after the Big Bang?
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63
Describe the four fundamental forces of nature by listing their names and describing what effect each force has on objects in the universe.
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64
In quantum electrodynamics (QED),what mediates the electromagnetic force between particles?
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65
Why does the sum of Why does the sum of and determine the shape of our universe? and Why does the sum of and determine the shape of our universe? determine the shape of our universe?
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66
According to superstring theory,how are different varieties of elementary particles similar? How do they differ?
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67
What can solve the flatness and horizon problem in cosmology,and why?
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68
What is the difference between a grand unified theory and a theory of everything?
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69
What is the "flatness problem" in cosmology?
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70
What is the name of the particle that mediates the electromagnetic force in quantum electrodynamics (QED)and the strong force in quantum chromodynamics (QCD)?
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