The sky.docx

THE SKY Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. ____ 1. Seen from the northern latitudes, the star Polaris a. is never above the horizon during the day. b. always sets directly in the west. c. is always above the northern horizon. d. is never visible during the winter. e. is the brightest star in the sky. ____ 2. An observer on Earth's equator would find a. Polaris directly overhead. b. Polaris 40° above the northern horizon. c. that the celestial equator coincides with the horizon. d. the celestial equator passing directly overhead. e. that the ecliptic coincides with the horizon. ____ 3. The celestial equator is a. a line around the sky directly above Earth's equator. b. the dividing line between the north and south celestial hemispheres. c. the path that the sun appears to follow on the celestial sphere as Earth orbits the sun. d. a and b. e. a and c. ____ 4. The _______________ is the point on the celestial sphere directly above any observer. a. north celestial pole b. south celestial pole c. zenith d. celestial equator e. asterism ____ 5. The magnitude scale a. originated just after the telescope was invented. b. can be used to indicate the apparent intensity of a celestial object. c. is used to measure the temperature of a star. d. is no longer used today. e. was used to determine the rate of precession. ____ 6. The apparent visual magnitude of a star is 7.3. This tells us that the star is a. one of the brighter stars in the sky. b. bright enough that it would be visible even during the day. c. not visible with the unaided eye. d. very far from Earth. e. very close to Earth. ____ 7. Precession of the rotation axis of Earth is caused by a. the force of gravity from the sun and moon on Earth's equatorial bulge. b. the force of gravity from the sun and Jupiter on the Earth-moon system. c. the magnetic field of Earth. d. the formation and subsequent melting of glaciers during the ice-ages. e. the impact of asteroids. ____ 8. An observer in the Northern Hemisphere watches the sky for several hours. Due to the motion of Earth, this observer notices that the stars near the north celestial pole appear to move a. counter clockwise. b. clockwise. c. from left to right. d. from right to left. e. nearly vertically upward. ____ 9. The apparent visual magnitude of a star is a measure of the star's a. size. b. intensity. c. distance. d. color. e. temperature. ____ 10. Which star in the table below would appear the brightest to an observer on Earth? Star Name Apparent Visual Magnitude Dra 3.07 Cet 2.53 Per 3.98 Nim 8.07 CMa -1.46 a. Cet b. CMa c. Nim d. Per e. Dra ____ 11. Based on the information in the table below, what is the ratio of the intensity of Dra to that of Nim? Star Name Apparent Visual Magnitude Dra 3.07 Cet 2.53 Per 3.98 Nim 8.07 Cma -1.46 a. 2.512 b. 5 c. 8.07 d. 11.14 e. 100 ____ 12. Which star in the table below would not be visible to the unaided eye of an observer on Earth? Star Name Apparent Visual Magnitude Dra 3.07 Cet 2.53 Per 3.98 Nim 8.07 Cma -1.46 a. Cet b. Cma c. Nim d. Per e. Dra ____ 13. You live at a latitude of 73° N. What is the angle between the northern horizon and the north celestial pole? a. 73° b. 27° c. 17° d. 231/2° e. 5° ____ 14. You live at a latitude of 39° S. What is the angle between the southern horizon and the south celestial pole? a. 45° b. 23.5° c. 39° d. 51° e. The answer depends on the day of the year. ____ 15. You live at a latitude of 28° N. What is the angle between the northern horizon and the north celestial pole? a. 62° b. 28° c. 40° d. 231/2° e. 5° ____ 16. You live at a latitude of 16° S. What is the angle between the southern horizon and the south celestial pole? a. 74° b. 164° c. 16° d. 231/2° e. 5° ____ 17. You live at a latitude of 32° N. What is the angle between the southern horizon and the sun at noon at the vernal equinox? a. 45° b. 23.5° c. 32° d. 58° e. 81.5° ____ 18. You live at a latitude of 61° N. What is the angle between the southern horizon and the sun at noon at the summer solstice? a. 52.5° b. 23.5° c. 61° d. 29° e. 5.5° ____ 19. You live at a latitude of 17° N. What is the angle between the southern horizon and the sun at noon at the winter solstice? a. 17° b. 23.5° c. 96.5° d. 73° e. 49.5° ____ 20. The star Vega has an apparent visual magnitude of 0.03, and the star HR 4374 has an apparent visual magnitude of 4.87. It has been determined that both stars are at the same distance from Earth. What does this information tell us about the two stars? a. Vega must be closer to Earth than HR 4374. b. Vega must be farther from Earth than HR 4374. c. Vega must produce less energy than HR 4374. d. Vega must produce more energy than HR 4374. e. Vega will appear fainter to us than HR 4374. ____ 21. If the north celestial pole appears on your horizon, what is your latitude? a. 90° N b. 90° S c. 0° d. 45° N e. The latitude of the observer cannot be determined from the information given. ____ 22. What is the approximate latitude of the observer in the diagram below? a. 90° N b. 90° S c. 50° N d. 50° S e. 0° ____ 23. What is the approximate latitude of the observer in the diagram below? a. 20° N b. 20° S c. 70° N d. 70° S e. 0° ____ 24. An observer in the Northern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 25. An observer in the Northern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 26. An observer in the Southern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 27. An observer in the Southern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 28. An observer in the Northern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 29. An observer in the Southern Hemisphere takes a time exposure photograph of the night sky. If the illustration below depicts the photograph taken by the observer, which direction was the camera pointing? a. straight north b. straight east c. straight south d. straight west e. straight up, directly overhead ____ 30. Star A has an apparent visual magnitude of 13.4, and star B has an apparent visual magnitude of 15.4. Star A is _______________ than star B. a. 2 times fainter b. 2 times brighter c. 6.3 times fainter d. 6.3 times brighter e. 29.8 times fainter ____ 31. Polaris is a second magnitude star, and Phi Pegasi is about 16 times fainter than Polaris. What is the approximate magnitude of Phi Pegasi? a. 18 b. -14 c. 3 d. -3 e. 5 True/False Indicate whether the sentence or statement is true or false. ____ 32. The moon and visible planets are always within a few degrees of the ecliptic. ____ 33. Precession of Earth's axis causes the date at which perihelion of Earth's orbit occurs to slowly change. ____ 34. The Greeks created the constellations. ____ 35. A second magnitude star in Ursa Major is brighter than a fourth magnitude star in Orion. ____ 36. Polaris has always been the star nearest the north celestial pole. ____ 37. The Greek letter designation conveys information about a star's location and brightness. ____ 38. Hipparchus devised the magnitude system in the late 1700s. ____ 39. The celestial equator always passes directly overhead. ____ 40. The celestial equator always crosses the horizon at the east point and west point. ____ 41. Navigators can find their latitude by measuring the angle from the northern horizon to the north celestial pole.