Exam 17: The Beginning of Time

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By the time helium nuclei could exist in...

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A) Small
B) Dense
C) Hot
D) Filled with intense radiation

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A

A) Accelerating
B) Coasting
C) Critical
D) Recollapsing

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A) 1 million years
B) 380,000 years
C) 300 years
D) 3 minutes
E) 10⁻¹⁰ seconds

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A) It is the result of a mixture of radiation from many independent sources, such as stars and galaxies.
B) Its spectrum corresponds to a temperature of just under 3 degrees above absolute zero.
C) With the exception of very small variations, it appears essentially the same in all directions in which we look into space.
D) It is thought to be radiation that began its journey to our telescopes when the universe was about 380,000 years old.

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A) The expansion of universe starting with the instant after the Big Bang
B) A sudden expansion of the universe driven by the energy released when the strong and electroweak forces froze out from the GUT force
C) The rapid expansion of the universe, driven by white dwarf supernova, that we still observe today
D) The sudden release of photons when particles and antiparticles annihilate each other
E) The photons released when electrons and protons first combined, forming the Cosmic Microwave Background Radiation

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A) gravity and the weak force
B) gravity and the strong force
C) the strong and weak forces
D) the strong and electromagnetic forces
E) the electromagnetic and weak forces

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A) What would it be like to ride on a beam of light?
B) Can we measure the position and momentum of an electron at the same time?
C) How does the Sun produce energy?
D) Why is the sky dark at night?
E) How many stars are in the universe?

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A) You are in the center of a star very much like our Sun.
B) You are in the early universe during the era of nucleosynthesis.
C) You are inside a nuclear power plant on Earth.
D) You are in the center of a massive star near the end of its life.
E) You are in the center of a white dwarf.

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A) Why is the sky dark at night?
B) What would it be like to ride on a beam of light?
C) How many stars are in the universe?
D) Can we measure the position and momentum of an electron at the same time?

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A) The background radiation came from the heat of the universe, with a peak corresponding to the temperature of the universe.
B) The spectrum of pure hydrogen gas must be a perfect thermal radiation spectrum.
C) The spectrum of 75 percent hydrogen and 25 percent helium must be a perfect thermal radiation spectrum.
D) The light from all the stars and gas in the sky averaged over the entire universe will be a perfect thermal radiation spectrum.
E) It doesn't predict that the cosmic background radiation should have a perfect thermal radiation spectrum.

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A) The universe should be geometrically "flat" (in the four dimensions of spacetime) .
B) Inflation predicts that the early universe should have regions of enhanced density that could have acted as "seeds" for the formation of galaxies and large structures.
C) Inflation predicts that the temperature of the cosmic microwave background should be almost (but not exactly) the same everywhere.
D) Inflation predicts that the entire universe must be far larger than the observable universe.

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A) It has a temperature of about 3 degrees K above absolute zero.
B) It is the result of a mixture of radiation from many independent sources, such as stars and galaxies that formed within the first billion years of the Big Bang.
C) It had a much higher temperature in the past.
D) It was discovered by Penzias and Wilson in the mid 1960s.
E) It appears essentially the same in all directions (it is isotropic) .

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A) These two forces first became distinct at this time.
B) These forces are important only at temperatures below the freezing point of water-a temperature that the universe reached at an age of about at 10⁻³⁸ second.
C) Freezing out was a term coined by particle physicists who think that the Big Bang theory is really cool.
D) Following this time, neither the strong nor electroweak forces were ever important in the universe again.

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A) Today, 1 million years after the Big Bang, 100 million years after the Big Bang
B) Today, 100 million years after the Big Bang, 1 million years after the Big Bang
C) 1 million years after the Big Bang, 100 million years after the Big Bang, today
D) 100 million years after the Big Bang, 1 million years after the Big Bang, today

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A) You are on the surface of the Earth.
B) You are on the surface of a planet that is somewhat more massive than the Earth.
C) You are on the surface of a white dwarf.
D) You are "on" an accretion disk around a black hole.
E) You are on the surface of a neutron star.

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A) The shock wave of the Big Bang caused ripples that expanded outward with time.
B) The energy released when the strong force froze out of the GUT force caused shock waves that produced ripples in the universe.
C) The principle of quantum mechanics require that matter and antimatter particles formed from high-energy photons continuously eject energy into the universe causing the ripples.
D) The annihilation of matter and antimatter particles caused tiny explosions that produced ripples in the radiation field.
E) The principles of quantum mechanics require that the energy fields at any point in space be continually fluctuating.

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The two key pieces of evidence that supp...

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