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Chapter 02
The Rise of Astronomy
Multiple Choice Questions
1. The moon appears larger when it rises than when it
is high in the sky because
A. You are closer to it when it rises (angular-size relation).
B. You are farther from it when it rises (angular-size relation).
C. It's an illusion from comparison to objects on the horizon.
D. It's brighter when it rises.
A. You are closer to it when it rises (angular-size relation).
B. You are farther from it when it rises (angular-size relation).
C. It's an illusion from comparison to objects on the horizon.
D. It's brighter when it rises.
2. Kepler's third, or harmonic, law states that
the
A. Period of an orbit cubed equals the semi-major axis squared.
B. Semi-major axis of an orbit cubed equals the period squared.
C. Planets move fastest when they are closest to the Sun.
D. Semi-major axis of an orbit is inversely proportional to the period.
A. Period of an orbit cubed equals the semi-major axis squared.
B. Semi-major axis of an orbit cubed equals the period squared.
C. Planets move fastest when they are closest to the Sun.
D. Semi-major axis of an orbit is inversely proportional to the period.
3. The paths of the planets on the sky are tilted with
respect to the celestial equator by about
A. 5 degrees.
B. 23 degrees.
C. 45 degrees.
D. 90 degrees.
A. 5 degrees.
B. 23 degrees.
C. 45 degrees.
D. 90 degrees.
4. Copernicus' heliocentric model failed to work as
well as it might to predict the positions of planets because Copernicus
insisted the orbits were
A. Circular.
B. Elliptical.
C. Circular, mounted on epicycles.
D. Hyperbolic.
A. Circular.
B. Elliptical.
C. Circular, mounted on epicycles.
D. Hyperbolic.
5. One of Tycho Brahe's major contributions to
astronomy was to prove that _________ was _________.
A. A supernova (exploding star); much farther away than the planets.
B. A comet; outside the Earth's atmosphere.
C. The Sun; the center of the solar system.
D. Both A; and B were accomplishments of Tycho Brahe.
E. A; B and C were accomplishments of Tycho Brahe.
A. A supernova (exploding star); much farther away than the planets.
B. A comet; outside the Earth's atmosphere.
C. The Sun; the center of the solar system.
D. Both A; and B were accomplishments of Tycho Brahe.
E. A; B and C were accomplishments of Tycho Brahe.
6. _________ was the first person to measure the circumference
of the Earth.
A. Ptolemy
B. Copernicus
C. Eratsothenes
D. Galileo
E. Aristarchus
A. Ptolemy
B. Copernicus
C. Eratsothenes
D. Galileo
E. Aristarchus
7. One of the methods used to date supernova remnants
(the remains of exploded stars) today is by using
A. The notebooks of Galileo.
B. The records of ancient Chinese, Japanese, and Korean astronomers.
C. The works of Ptolemy.
D. Kepler's laws.
A. The notebooks of Galileo.
B. The records of ancient Chinese, Japanese, and Korean astronomers.
C. The works of Ptolemy.
D. Kepler's laws.
8. Which of the following objects passes through the
zodiac?
A. Sun
B. Planets
C. Earth and Moon
D. All of the above
E. None of the above
A. Sun
B. Planets
C. Earth and Moon
D. All of the above
E. None of the above
9. When was it first known that the Earth was
spherical in shape?
A. It was always known to be spherical.
B. At the time of the Greeks.
C. At the beginning of the Renaissance.
D. Only after Galileo used a telescope to study other planets.
E. Only recently within the last 100 hundred years.
A. It was always known to be spherical.
B. At the time of the Greeks.
C. At the beginning of the Renaissance.
D. Only after Galileo used a telescope to study other planets.
E. Only recently within the last 100 hundred years.
10. What is retrograde motion?
A. East to west motion of the Sun over many successive nights.
B. East to west motion of the Moon relative to the stars over many successive nights.
C. Occasional east to west motion of the planets relative to the stars over many successive nights.
D. Occasional west to east motion of the planets relative to the stars over many successive nights.
A. East to west motion of the Sun over many successive nights.
B. East to west motion of the Moon relative to the stars over many successive nights.
C. Occasional east to west motion of the planets relative to the stars over many successive nights.
D. Occasional west to east motion of the planets relative to the stars over many successive nights.
11. What is the size of an object located at a
distance of 1000 meters and that has angular size A = 4 degrees?
A. About 11 meters.
B. About 35 meters.
C. About 70 meters.
D. About 4000 meters.
A. About 11 meters.
B. About 35 meters.
C. About 70 meters.
D. About 4000 meters.
12. The general heliocentric model proposed by
Copernicus was appealing, and eventually became preferred, because
A. it explained why we do not observer stellar parallax.
B. it replaced the Earth with the Sun as the center of the solar system.
C. it was more aesthetically pleasing than the complicated Ptolemaic model.
D. It made more accurate predictions than the Ptolemaic model.
A. it explained why we do not observer stellar parallax.
B. it replaced the Earth with the Sun as the center of the solar system.
C. it was more aesthetically pleasing than the complicated Ptolemaic model.
D. It made more accurate predictions than the Ptolemaic model.
13. In _________ models, the Sun is assumed as the
center of the solar system.
A. Heliocentric
B. Geocentric
A. Heliocentric
B. Geocentric
14. During retrograde motion, a planet moves from
______ to ______ relative to the stars.
A. East; west (moves westward)
B. West; east (moves eastward)
A. East; west (moves westward)
B. West; east (moves eastward)
15. Retrograde motion is discernible by watching a
planet over the course of
A. A few minutes.
B. Many hours.
C. Many nights.
D. Many years.
A. A few minutes.
B. Many hours.
C. Many nights.
D. Many years.
16. During the course of a single night, a planet that
is moving in retrograde motion will move
A. East to west.
B. West to east.
C. Not at all.
D. Randomly about the sky.
A. East to west.
B. West to east.
C. Not at all.
D. Randomly about the sky.
17. Galileo was the first to observe the phases of
_____.
A. The Moon
B. Venus
C. Earth
A. The Moon
B. Venus
C. Earth
18. In Copernicus' model of the solar system, the
planets orbited the _____ in ______ orbits.
A. Earth; circular
B. Sun; elliptical
C. Sun; circular
A. Earth; circular
B. Sun; elliptical
C. Sun; circular
19. ______ major contribution to astronomy is his
extensive series of measurements of planetary positions.
A. Tycho Brahe's
B. Galileo's
C. Kepler's
A. Tycho Brahe's
B. Galileo's
C. Kepler's
20. _______ used the extensive records of planetary
positions measured by ______ to discover that the orbits of the planets are
________.
A. Tycho; Kepler; circular
B. Tycho; Kepler; elliptical
C. Kepler; Tycho; elliptical
D. Kepler; Galileo; elliptical
A. Tycho; Kepler; circular
B. Tycho; Kepler; elliptical
C. Kepler; Tycho; elliptical
D. Kepler; Galileo; elliptical
21. Kepler's ____ law states that the orbits of
planets are elliptical, with the Sun at one focus.
A. First
B. Second
C. Third
A. First
B. Second
C. Third
22. From Kepler's ____ law, we conclude that the
planets do not move with constant speed.
A. First
B. Second
C. Third
A. First
B. Second
C. Third
23. From Kepler's ____ law, we conclude that Mars
completes a full orbit much faster than Pluto.
A. First
B. Second
C. Third
A. First
B. Second
C. Third
24. Observations indicate that it takes Saturn longer
than Jupiter to complete one orbit about the Sun. This is in agreement with
which of Kepler's laws?
A. First
B. Second
C. Third
A. First
B. Second
C. Third
25. The time between the vernal equinox and the
autumnal equinox is somewhat greater than the time between the autumnal equinox
and the vernal equinox. This is a result of Kepler's _____ law.
A. First
B. Second
C. Third
A. First
B. Second
C. Third
26. Imagine the much more massive Jupiter were to
switch places with the less massive Mercury. Which of the following would
accurately describe the outcome?
A. Jupiter would orbit the Sun in less time than it did before.
B. Mercury would orbit the Sun in less time than it did before.
C. The orbital time for each of the planets would not change.
A. Jupiter would orbit the Sun in less time than it did before.
B. Mercury would orbit the Sun in less time than it did before.
C. The orbital time for each of the planets would not change.
True / False Questions
27. The paths of the planets' orbits lie in all
different directions on the sky.
FALSE
FALSE
28. Copernicus' model was significantly better at
predicting future positions of planets than Ptolemy's.
FALSE
FALSE
29. Galileo deduced many empirical laws of motion
before Newton was even born.
TRUE
TRUE
30. The inability to observe parallax of stars
contributed to the ancient Greek astronomers rejection of the idea that the
Earth revolves around the Sun.
TRUE
TRUE
31. The motion of the Sun with respect to the stars is
retrograde, i.e., east to west relative to the stars.
FALSE
FALSE
32. During the month of January, the Earth goes
through the point of closest approach to the Sun. Using Kepler's Second law we
can conclude that the Earth moves faster in January than in July.
TRUE
TRUE
33. During retrograde motion, the planet Mars rises in
the West and sets in the East.
FALSE
FALSE
34. Parallax is the shift in a star's apparent
position due to the Earth's motion around the Sun.
TRUE
TRUE
35. In geocentric theories, the Earth is assumed to be
the center of the solar system.
TRUE
TRUE
36. The Sun is located at the center of the Earth's
elliptical orbit.
FALSE
FALSE
37. According the Kepler's Laws the Sun is located at
one of the foci of the Earth's orbit.
TRUE
TRUE
38. The angular size of an object increases as the
distance to the observer increases.
FALSE
FALSE
39. The angular size of the Sun as observed from Earth
is about 0.5 degrees.
TRUE
TRUE
40. The angular size of the Moon as observed from
Earth is about 0.5 degrees.
TRUE
TRUE
41. The concept of the epicycle was introduced in the
heliocentric model to explain the retrograde motion of the planets.
FALSE
FALSE
42. In the heliocentric model, the retrograde motion
of the planets was explained as the consequence of the different orbital speeds
of the planets, without the use of epicycles.
TRUE
TRUE
43. Tycho Brahe relied on the use of telescopes to
record his accurate positions for the planets.
FALSE
FALSE
44. Copernicus was able to calculate the distances to
the observed planets relative to the Earth's distance from the Sun.
TRUE
TRUE
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