Timeline of the Big Bang Announcements:

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Transcription:

Today Timeline of the Big Bang Announcements: HW#10 is due Wednesday Nov. 3. Extra credit project on Intelligent Design is available it will be due Dec. nd at 5:00pm. Please don t wait till the last minute. Review of Big Bang All Forces unified Light elements form Microwave image formed Carbon made The topics for today are Entropy, Black holes, Worm holes, and time. ISP09f5 Lecture 19-1- ISP09f5 Lecture 19 -- Inflation Big Bang Timeline (the early moments) Meters The existence of an unknown scalar field caused the rapid inflation of the Universe Years since the Big Bang ISP09f5 Lecture 19-3- ISP09f5 Lecture 19-4-

Map of the microwave sky WMAP observatory What we have learned from WMAP The Universe is 13.7 billion years old The Universe is Flat and will continue to expand forever The mass of the universe is at the critical mass. The Universe is made of mostly an unknown form of matter and an unknown form of energy (dark) ISP09f5 Lecture 19-5- ISP09f5 Lecture 19-6- What is the Ultimate Fate 10 100 years all the stars will have used their fuel 10 100 to 10 150 years dark ages 10 150 years all black holes will have evaporated 10 1000 years the Universe will reach its lowest energy state The current age of the Universe is 13.7 billion years 10 10 years ISP09f5 Lecture 19-7- Conservation of Energy In nature certain quantities are conserved. Energy is one of these quantities. Example: Ball on a hill A 1.00 kg ball is rolled toward a hill with an initial speed of 5.00 m/s. If the ball roles without friction, how high, h, will the ball go? 1 m KE = mv PE = mgh ; g = 9.80 s 1 v ( 5 m / s) mv = mgh h = = = 1.8 m g m 9.80 s ISP09f5 Lecture 19-8-

Mass, m v Earth Escape Velocity The velocity to completely escape the gravity of a is: KE( leaving) = PE( far away) 1 mv v = GmM = R GM R The escape velocity for the Earth is about 11 km/s. See the homework problems for examples. ISP09f5 Lecture 19-9- Large Mass in a small region What is the escape velocity for an object with the mass of the Sun and a radius of 10 km? M sun =1.99E+30 kg G=6.67E-11 Nm /kg v = GM R = 6.67E 11 1.99E31 = 5 10 10000 This is greater than the speed of light! m s ISP09f5 Lecture 19-10- 8 Black Holes Black Holes The hole in space is so deep that light can not escape. ISP09f5 Lecture 19-11- Black holes act as a lens and we see light from stars behind. They don t necessarily look black. They range from 3 solar masses to more than a billion solar masses. Small ones are formed by the collapse of a large star Larger ones form at the center of galaxies We can tell they exist because of thing orbiting nothing, and the radiation given off as things fall into them. Black holes are not cosmic vacuum cleaners. If the Sun were a black hole (with the same mass) the Earth would still orbit it. ISP09f5 Lecture 19-1-

Where do black holes come from? Active Galaxies/ Quasars Jet of material Galaxy ISP09f5 Lecture 19-13- At the center is a billion solar mass black hole ISP09f5 Lecture 19-14- Picture of an Active Galaxy (quasar) Rotation around a Supermassive Black Hole ISP09f5 Lecture 19-15- ISP09f5 Lecture 19-16-

Wormholes Wormholes Wormholes are not stable. Some type of exotic material (that acts as antigravity) is necessary to keep one end open. If there are wormholes, there must be white holes. No white hole has ever been observed. A white hole would violate the second law of thermodynamics. ISP09f5 Lecture 19-17- ISP09f5 Lecture 19-18- The Second Law of Thermodynamics Entropy Statement: No device can transform a given amount of heat completely into work. Statement: The entropy of an isolated system never decreases. Statement: Natural process tend to move toward a state of greater disorder. Consequence: Time appears to have a direction. Entropy is a measure of disorder. We usually use the symbol S. The unit is J/K (joules/kelvin) Formula: S = k ln(w), where k=1.38e-3 J/K and W is the number of possible states of a system. Alternative formula: S = heat/temperature ISP09f5 Lecture 19-19- ISP09f5 Lecture 19-0-

Two examples What is the entropy of a deck of cards that has one pair? Data: there are 1,098,40 to order such a deck. S = 1.38E-3 J/K ln(1,098,40)= 1.9E- J/K How much is the entropy of a glass of water increased if 1.0 J of heat is added when the water is at 95 K. Assume the temperature rise of the water is small. S = 1.0 J / 95 K = 3.39E-3 J/K ISP09f5 Lecture 19-1- Coin Tosses Suppose we have 0 coins: HHHHHHHHHH S = k ln(1) = 0 Heads 9 8 7 6 5 4 3 1 Number of ways 10 45 10 10 5 10 10 45 10 Entropy (J/K) *10-3 3.18 5.5 6.61 7.38 7.63 7.38 6.61 5.5 3.18 ISP09f5 Lecture 19 -- Why does time always move in one direction? Inflation during the Big Bang resulted in a universe that had a very low entropy. Much too low for its size. It is like the Universe started with all heads. Hence, everything in the Universe moves toward reaching the correct amount of entropy. Time has a direction because going back in time would imply the entropy could be decreased. That is very improbable. The Universe tends toward increasing entropy. What is time? ISP09f5 Lecture 19-3-

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