PHYSICS 1040 - ELEMENTARY ASTRONOMY - HOMEWORK #15
1.
A Brief History of the Universe
|
Time |
Temperature |
Event |
|
| a. |
0 |
infinite |
________ ________ |
| b. |
10-43 s |
1032 K |
________ and ________ first exist |
| c. |
1/1,000,000 s |
10,000 billion K |
________ combine into ________ and ________ |
| d. | 3 min | 500 million K | neutrons and protons form ________ nuclei |
| e. | 1 million yrs | 3000 K | ________ combine with hydrogen and helium nuclei to form hydrogen and helium atoms |
| f. | 1 billion yrs | 15 K | the first ________ begin to form |
| g. | 13.7 billion yrs | 2.7 K | today |
2. The time of 10-43 second is called the __________ __________. This is when space and time first began to behave in the way we think of them today. At earlier times, a foam-like spacetime may have existed that was interconnected in a very complicated way, like the passageways through a sponge.
3. When the universe was around 10-35 s old, the _______________ _______________ became huge for a very brief period. This caused a very brief (10-32 s) period of exponential expansion called _______________. Our universe expanded from an extremely tiny volume that had the same temperature throughout. That is why the __________ _______________ _______________ (CMB) has the same temperature in all directions.
4. Protons and neutrons are made out of even smaller particles called __________. At times earlier than 10-6 s (one-millionth second), the temperature was too high/low (circle one) for the __________ to come together to form protons and neutrons; the universe was filled with a super-hot gas of __________, electrons, and CMB photons. When the temperature fell below 1013 K at 10-6 s, protons and neutrons could form for the first time.
5. When quarks became confined to protons and neutrons, it was still too hot for the protons and neutrons to form atomic nuclei via __________. The __________ _______________ _______________ (CMB) photons were energetic enough to immediately break apart any nuclei that did form. Later, when the universe was _____ minutes old and the temperature had cooled to 800 million K, the CMB photons no longer had enough energy to break apart nuclei. Then the nuclear __________ of hydrogen into helium began. This continued until the universe was about 15 minutes old, when the temperature fell below about 400 million K - too cool for the fusion of hydrogen into helium to continue. This process, called __________ __________ _______________, is why the universe has about 1 helium atom for every 10 hydrogen atoms.
6. After Big Bang nucleosynthesis, the universe consisted of hydrogen and helium nuclei (plus a few lithium and beryllium nuclei), free electrons, and CMB photons. It was still too hot for the electrons to combine with the nuclei to form __________. Free electrons are very efficient at scattering __________; during this time, the universe would have looked like a blindingly bright Afog.@ This lasted until the universe was about 380,000 years old and its temperature had dropped to 3000 K. Then the electrons could _______________ with the nuclei for the first time, in an event (unfortunately) called recombination. With no free electrons to scatter the CMB photons, the photons were set free to travel unimpeded through space. It is these photons astronomers see when they observe the CMB; they can see no earlier than the wall of photon Afog,@ which has now cooled to the microwave part of the electromagnetic spectrum.
7. We now live in the _______________ era, when the universe is filled with stars. Eventually, about 1015 years after the Big Bang, all normal stars will have burned out and the universe will enter the _______________ era, which is dominated by dead stars such as white dwarfs and neutron stars. After a very long time, about 1038 years after the Big Bang, these dead stars will disintegrate, leaving the universe in the __________-__________ era. But even black holes can evaporate by quantum processes. When all the black holes are gone, about 10
100 years after the Big Bang the universe will enter its last stage, the __________ era. It will remain forever as a cold, nearly empty space consisting of extremely low-energy photons and a few elementary particles.
8. All life on Earth is based on carbon-based molecules called _______________ molecules. Experiments have shown that when molecules like those in Earth= s primitive atmosphere - carbon dioxide (CO
2), nitrogen (N2), water vapor (H2O), and hydrogen (H2) - are exposed to artificial lightning, they spontaneously assemble into a wide variety of _______________ molecules. This shows that the molecular basis of life would have formed naturally on the young Earth.
9. Astronomers believe that __________ may be abundant in the universe. Primitive life arose quite rapidly on Earth _____ billion years ago, as soon as the era of heavy bombardment by meteoroids ended in the early solar system. Organic molecules (the basic chemistry for life on Earth) of extraterrestrial origin, such as __________ __________, formed naturally on the young Earth and have been found in meteorites. Thus organic molecules could have been brought to the young Earth by meteorites and __________.
10. Even if life is abundant in the universe, intelligent life could be either common or rare. Probably the biggest uncertainty is the _______________ of a technologically advanced civilization. How long would such a civilization last before they destroyed themselves by their lack of wisdom and foresight? The __________ (Search for Extraterrestrial Intelligence) project has been searching for radio signals from an extraterrestrial civilization since 1992, but so far none has been found. You can help with the search for an extraterrestrial civilization by using the SETI screen saver on your computer. (Go to
http://setiathome.ssl.berkeley.edu/ to download the __________ screen saver!)