Phys 214. Planets and Life
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1 Phys 214. Planets and Life Dr. Cristina Buzea Department of Physics Room (Please use PHYS214 in subject) Lecture 13. Midterm review February 4th, 2008
2 1. Astronomy has shown us that the fundamental laws of physics are A) the same everywhere in the universe B) the same in our solar system but different beyond the solar system C) completely random and unpredictable D) different on other planets in our solar system 2. Among the other planets, probably the most likely place to find evidence for life either now or in the past is on A) Venus B) Mercury C) Jupiter D) Mars 3. Using current spacecraft, how long would it take to reach the nearest stars? A) hundreds of thousands of years B) millions of years C) only a few years D) thousands of years 4. The study of life in the universe is best described by the term A) astrochemistry B) bioastronomy C) astrobiology D) exobiology 5. For most of human history it was believed that Earth was at the center of the universe. This idea is referred to as A) geocentric B) eccentric C) heliocentric D) egocentric Answers: Quiz 1 6. The Ptolemaic model has planets moving in A) elliptical orbits about the Sun B) a simple circle about the Earth C) a simple circle about the Sun D) small circles, the centers of which move in a larger circle about the Earth 7. Stellar parallax is the apparent A) shift in position of nearby stars as the Earth moves around the Sun B) westward motion of a planet with respect to the background stars C) shift in position of nearby stars as the Sun moves about the center of the galaxy D) shift in position of nearby stars as the Earth rotates on its axis 8. The astronomical unit (AU) is defined to be equal to A) average distance between the Earth and Sun B) average distance between the Sun and the planet Pluto C) distance between the Sun and the nearest star D) diameter of the Earth 9. The light-year is defined to be the A) time it takes light to travel from the Sun to the Earth B) time it takes for light to travel from the nearest star to the Earth C) distance light travels in one year D) average distance between the Earth and the nearest star 10. If we were to detect a signal from an advanced civilization in 2013 which is located at a distance of 7 light-years from the Sun, in what year was the signal actually transmitted? A) 2007 B) 2013 C) 2020 D) 2006
3 Marks - lectures attendance correlation
4 Feedback Always welcome! Comments and suggestions envelope on my door s office (Rm 259). as well!
5 Midterm exam structure Part A. 25 Multiple Choice Questions ( each x 25= total 75 marks) 1 minute a question - total 25 minutes for this section Part B. Choose between 2 Explain a physical law using a figure (16 marks) 10 minutes on this section Part C. Choose between 2 Calculations ( 9 marks) 10 minutes on this section + 5 minutes to review Total Time: 50 minutes Total 100 marks (maximum) Don t forget to bring a calculator!
6 Midterm exam On top of the first page don t forget to write: - the number that appears near your name in the attendance sheet and - your name and student number. The number from the attendance sheet helps me arrange faster your exams in alphabetical order.
7 Part A. Multiple choice questions ( each) Text boxed with red within the lectures is very important and may appear as a question. Astronomy has shown us that the fundamental laws of physics are A) the same everywhere in the universe B) the same in our solar system but different beyond the solar system C) completely random and unpredictable D) different on other planets in our solar system If you don t know the answer to a question, go on, don t get stuck. Leave it for later, after you finished answering A, B, and C.
8 Part A. Questions based on the age of the Universe FAR: We see a galaxy 7 billions light-years away as it was 7 billion years ago, when the Universe was half its current age of 14 billions years old. FARTHER: : We see a galaxy 12 billions light- years away as it was 12 billion years ago, when the Universe was about 2 billions years old. The limit of our observable universe: Light from nearly 14 billion light-years away shows the universe as it looked shortly after the Big Bang, before galaxies existed.
9 Part A. Going easy on radiometric dating Half-life = the time for half the number of radioactive nuclei to decay Example: How old is a rock that contains equal amounts of potassium-40 and argon-40, is the half life of the parent isotope is 1.25 billion years? Answer: the rock is 1.25 billion years old!
10 Part A. The electromagnetic spectrum
11 Part A. The Solar System Know the order of the planet in our solar system! The smallest, the largest planet, etc.
12 Part A. Question () Example: What gases escaped from the atmosphere of planet Pluto according to the figure below? Answer: carbon dioxide, nitrogen, oxygen, water vapour, ammonia, methane, helium, hydrogen (all gases)
13
14 Part B. Explain a physical law (16 marks) Example 1. Explain Kepler s second law using the figure below.
15 Part B. Explain a physical law (16 marks) Example 1. Explain Kepler s second law using the figure below. As a planet moves around its orbit,, it sweeps out equal areas in equal times (Kepler s second law). (4 marks) Planet, Sun () Perihelion () Aphelion () Ellipse ()
16 Part B. Explain a physical law (16 marks) Example 2: Explain Kepler s third law, including the equation and units used to describe it. More distant planets orbit the Sun at slower average speeds, obeying the relationship p 2 =a 3 where p is the planet s orbital period in years, and a is the average distance (semimajor axis) from the Sun in astronomical units (AU). 4 mark 1 AU = Earth s average distance from the Sun about million km Kepler s law applies to any orbiting object as long as the following two conditions are met: The object orbits the Sun or another star of exactly the same mass. We use units of years for the orbital period and AU for the orbital distances.
17 Part B. Explain a physical law and equation If you have an equation don t forget to define and explain every term appearing in the equation! Don t just write the equation!
18 Part B. Explain a physical law (16 marks) Example 3. Explain Newton s law of gravity using the figure below.
19 Part B. Explain a physical law (8 marks) Example 3. Explain Newton s law of gravity using the figure below. M 1 M 2 d M1, M2 - masses of two objects D - the distance between the two objects F g = G M 1M 2 d 2 4 mark 1) Every mass attracts every other mass through the force called gravity. 2) The strength of the gravitational force is directly proportional to the product of their masses and decreases with the square of the distance between their centres.
20 Part B. Explain a concept (16 marks) Example 4. Explain the concept of stellar parallax using the figure below, and define a parsec.
21 Example 4. Explain the concept of stellar parallax using the figure below, and define a parsec. Stellar parallax apparent shift in position of nearby stars as the Earth moves around the Sun. If the parallax angle is small, the distance to the star is approximated as D = 1AU " 1 parsec = distance from a star that has a parallax of 1 arc second 4 mark
22 Part B. Example 5. explain a figure (16 marks) Title - carbon dioxide cycle (1 marks)
23 Part C. Calculate and fill in the figure (9 marks) Example 6: Plot Keppler s third law for the following planets: Mercury, Venus, Earth and Mars, knowing they have the following semimajor axis: Mercury = AU, Venus AU, Earth = 1 AU, Mars = AU
24 Part C. Calculate and fill in the figure (9 marks) Example 6. Plot Keppler s third law for the following planets: Mercury, Venus, Earth and Mars, knowing they have the following semimajor axis: Mercury = AU, Venus AU, Earth = 1 AU, Mars = AU (NB - if the semimajor axis are given in other units such as km you have to transform it first into AU!!) Orbital period Semimajor axis p, Orbital period 2 (years 2 ) p 2 =a 3 for calculation of orbital periods power 2 and plotting them a, Average distance 3 (AU 3 )
25 Previous problem was similar to Figure 2.9 page 28 from the textbook
26 Part C. Calculate (9 marks) Example 7. The largest asteroid, Ceres, orbits the Sun at an average distance (semimajor axis) of a = 2.77 AU. What is Ceres orbital period p? p 2 = a 3 p = a 3 = " 4.6 years Example 8. A planet is discovered orbiting every three month around a star of the same mass as the Sun. What is the planet average distance a? p 2 = a 3 a = 3 p 2 3 = " 0.4 AU
27 Part C. Calculate (9 marks) Example 9: A galaxy is moving away from us with a velocity of 49,000 km/s. How far away is the galaxy if the Hubble constant is 70 (km/s)/(mpc)? (Mpc = megaparsec) Hubble law: v=h 0 d where v = velocity of expansion, d = distance from us to the galaxy, H 0 - Hubble s constant. d = v H 0 = 49, = 700 Mpc
28 Part C. Calculate (9 marks) Example 10: The hydrogen beta line emission of the quasar 3c273 is measured on Earth at a wavelength of nm, while its wavelength when emitted was " = nm. Calculate the speed this quasar is moving away from us if the speed of light is 300,000 km/s. Doppler shift equation: v = radial velocity,!" = wavelength shift, " = wavelength for stationary source, c - speed of light = v = "# $ c # "# # = v c ( " 486.1)# 300, = 49,000 km /s
29 How to review for this exam in 2 days Review the lectures (Lecture 2 Lecture 12) Remember boxed text! Remember equations! When you don t understand a concept, go to the textbook! Review important physicals laws and concepts. Review important figures! (especially the ones containing text and schematics) Textbook should be the second edition of Life in the Universe The second edition is updated with the latest discoveries in astrobiology.
30 Midterm exam Midterm exam - Wednesday February 6th Don t forget to bring a calculator & to learn the formulae!
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