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ASTRONOMY

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Title: ASTRONOMY


1
ASTRONOMY
2
  • Which picture demonstrates rotation?
  • B.
  • C. D.

3
  • 2. Which planet is closest to the Sun?
  • A. Jupiter B. Mars
  • C. Venus D. Mercury

4
  • 3. A spacecraft sent into deep space to collect
    data using cameras and instruments is a
  • A. probe. B. satellite.
  • C. station. D. shuttle.

5
  • 4. A characteristic of gaseous planets is that
    they have
  • A. no density.
  • B. a density greater than Earth's.
  • C. a density the same as Earth's.
  • D. a density less than Earth's.

6
  • 5. John Glenn was the first American to
  • A. ride into space.
  • B. orbit Earth.
  • C. land on the Moon.
  • D. pilot a space shuttle.

7
  • 6. When a child is getting up to go to school in
    Georgia, a child on the opposite side of the
    Northern Hemisphere, in China, is getting ready
    to go to bed. What is the reason for this?
  • A. Earth turns on its axis.
  • B. Earth moves around the Sun.
  • C. The Sun turns on its axis.
  • D. The Moon blocks the light of the Sun
  • on the other side of Earth.

8
  • 7. A hurricane-type cloud known as the Great Red
    Spot can be found on which planet?
  • A. Saturn B. Mars
  • C. Uranus D. Jupiter

9
  • 8. Which statement best explains why there is no
    atmosphere on the Moon?
  • The temperature of the Moon varies too much to
    develop an atmosphere.
  • B. The Moon does not have enough gravity to hold
    an atmosphere.
  • C. The Moon revolves too quickly to keep an
    atmosphere.
  • D. The density of the Moon is too great to
    allow an atmosphere.

10
  • 9. The length of a year on Earth is
  • determined by Earth's
  • A. gravitational pull.
  • B. revolution.
  • C. rotation.
  • D. axis tilt.

11
  • 10. Which planet do scientists think once had
    surface water or flowing rivers?
  • A. Mercury B. Venus
  • C. Mars D. Jupiter

12
  • 11. Venus has the highest surface temperature of
    all the planets in our solar system. Which is the
    best explanation for this?
  • A. Venus rotates on its axis very slowly.
  • B. Venus is very close to the Sun.
  • C. Venus revolves around the Sun
  • relatively quickly.
  • D. Venus's atmosphere has thick
  • clouds and carbon dioxide.

13
  • 12. The Moon appears to change shape because
  • A. the Moon rotates.
  • B. Earth rotates.
  • C. Earth revolves around the Sun.
  • D. the Moon revolves around Earth.

14
  • Mary constructed an accurate scale model of the
    solar system. In her model, Earth was 35 m from
    the Sun, Jupiter was 170 m from the Sun, and
    Neptune was 1000 m from the Sun. In this model,
    Mars would be about how far from the Sun?
  • A. 25 m B. 50 m
  • C. 150 m D. 200 m

15
  • 14. Which explains why day and night occur on
    different parts of Earth?
  • A. Earth rotates on its axis.
  • B. Earth revolves around the Sun.
  • C. The Sun rotates on its axis.
  • D. The Sun revolves around the galaxy.

16
  • 15. There are about 24 hours in a day. What would
    happen to the length of a day if the rotation of
    Earth sped up?
  • A. The length of a day would be shorter.
  • B. The length of a day would be longer.
  • C. The length of a day would remain the
  • same.
  • D. The length of a day would be
  • unpredictable.

17
  • ASTRONOMY
  • PART 2

18
  • Scientists have concluded that the universe is
    expanding, by observing a red shift in the light
    coming from other galaxies. Which instruments
    allow scientists to observe the red shift?
  • A. space probes B. Geiger counters
  • C. telescopes D. spectroscopes

19
  • 2. Which statement is true about Venus?
  • A. It has polar ice caps and a rust-colored
  • surface.
  • B. It has clouds that create a greenhouse
  • effect.
  • C. It is the third planet from the Sun.
  • D. It rotates on its side and has rings of
  • methane ice.

20
  • 3. It is about 28 days from one full moon to the
    next. This is because 28 days is about the time
    it takes for one
  • A. revolution of the Moon around Earth.
  • B. revolution of Earth around the Sun.
  • C. rotation of the Sun.
  • D. rotation of Earth.

21
  • 4. When the Moon goes through Earth's shadow, we
    see a
  • A. solar eclipse
  • B. lunar eclipse.
  • C. total eclipse.
  • D. planetary eclipse.

22
  • 5. Jack constructed an accurate scale model of
    the solar system. In his model, the Sun was a
    basketball, Jupiter was a large marble, Neptune
    was a small marble, and Venus was a grain of
    sand. In this model, which would most accurately
    represent the size of Earth?
  • A. a large marble
  • B. a tennis ball
  • C. a grain of sand
  • D. a golf ball

23
  • 6. Which is made primarily of pieces of rock or
    iron that enter Earth's atmosphere?
  • A. asteroids
  • B. comets
  • C. solar flares
  • D. meteorites

24
  • 7. Kate is building a model of the solar system.
    She chooses a basketball to represent Earth. She
    wants her model to represent the relative sizes
    of all the planets and the Moon accurately.
    Which of the following should Kate use to
    represent the Moon?
  • A. a marble
  • B. a Ping-Pong ball
  • C. a softball
  • D. a soccer ball

25
  • 8. A comet is largely made up of
  • A. iron and nickel.
  • B. rock.
  • C. petroleum.
  • D. water and ice.

26
  • 9. Which is the largest planet?
  • A. Mars
  • B. Uranus
  • C. Jupiter
  • D. Saturn

27
  • 10. Asteroids have formed from
  • A. the coalescence of hydrogen gas.
  • B. leftover rocks and fragments.
  • C. an interstellar dust cloud.
  • D. the big bang.

28
  • 11. When the North Pole is tilted toward the Sun,
    the Southern Hemisphere experiences
  • A. winter.
  • B. spring.
  • C. summer.
  • D. fall.

29
  • 12. How does the number of hours of daylight
    compare to the number of hours of darkness on
    March 20, the first day of spring in the Northern
    Hemisphere?
  • A. The hours of daylight and darkness are the
    same.
  • B. There are more hours of darkness than
    daylight.
  • C. There are more hours of daylight than
    darkness.
  • D. The number of hours of daylight and darkness
    cannot be predicted in advance

30
  • 13. Astronomers usually measure the distance from
    Earth to the Moon in
  • A. meters.
  • B. kilometers.
  • C. light-years.
  • D. fathoms.

31
  • 14. The only reusable spacecraft designed to
    transport astronauts to and from space is a
  • A. space probe.
  • B. satellite.
  • C. rocket.
  • D. space shuttle.

32
  • 15. Which diagram shows the Earth-Moon-Sun system
    arranged to cause a total solar eclipse?
  • A. B.

  • C. D.

33
  • ASTRONOMY

  • PART 3

34
  • 1. Which planet is characterized by polar ice
    caps, a pink sky, a rust-colored surface, large
    volcanoes, and surface channels?
  • A. Uranus
  • B. Pluto
  • C. Mars
  • D. Saturn

35
  • 2. Each year, Earth moves once around
  • A. Mars.
  • B. Venus.
  • C. the Sun.
  • D. the Moon.

36
  • 3. Which accounts for the fact that a compass can
    be used to find north on Earth?
  • A. Earth has a magnetic field.
  • B. Earth has only one moon.
  • C. Most of Earth is covered by water.
  • D. Earth's temperature is not constant.

37
  • 4. Suppose you view the constellation Orion in
    the northern sky on January 1 at 700 P.M. On
    February 1, at the same time of night, Orion
    looks like it has shifted its position slightly.
    Which statement best explains your observation?
  • A. The universe is expanding.
  • B. Orion has moved within the Milky Way.
  • C. Earth has moved in its orbit around the Sun.
  • D. Orion has moved behind a dust cloud.

38
  • 5. Which planet is characterized by thick cloud
    cover, greenhouse effect, vast plains, and high
    mountains?
  • A. Uranus
  • B. Saturn
  • C. Mercury
  • D. Venus

39
  • 6. Why does the amount of daylight change during
    the course of a year?
  • The amount of light and heat radiated by the
  • Sun changes at different times of the year.
  • B. The distance between the Sun and Earth changes
    from summer to winter.
  • C. The North Pole points more toward the Sun at
    one time of the year than another.
  • D. Earth rotates at different speeds at different
    times of the year.

40
  • 7. NASA scientists recently discovered evidence
    of liquid water on
  • A. Venus.
  • B. Mars.
  • C. Jupiter.
  • D. the Moon.

41
  • 8. Marty learned that a planet's orbital velocity
    is related to its distance from the Sun. He noted
    that orbital velocities range from 4.7 km/sec
    (Pluto) to 47.8 km/sec (Mercury). Which planet is
    likely to have an orbital velocity of 5.4
    km/sec?
  • Venus B. Earth
  • C. Mars D. Neptune

42
  • 9. Which statement about asteroids is true?
  • A. Asteroids have tails like comets.
  • B. Asteroids are made mostly of ice.
  • C. Most asteroids have orbits very similar to
    comets.
  • D. Most asteroids exist between the orbits of
    Mars and Jupiter.

43
  • 10. The dark, lava-covered lowlands of the Moon
    are called
  • A. mountains.
  • B. volcanoes.
  • C. valleys.
  • D. maria.

44
  • 11. Daylight in the Northern Hemisphere lasts
    longer in summer than in winter, and the change
    in the length of day happens in a predictable
    pattern. Which statement correctly explains this
    condition of Earth's environment?
  • A. The Sun moves closer to Earth in summer and
    farther away in winter.
  • B. Earth, with its tilted axis, moves around the
    Sun in a predictable way.
  • C. There is a predictable change in the amount of
    heat and light given off by the Sun.
  • D. Earth turns slower in summer than it does in
    winter.

45
  • 12. An object in the solar system has many wide,
    flat craters. What must be true about the
    object?
  • A. It is an asteroid.
  • B. It was originally formed with craters.
  • C. It has been hit by other objects from
  • space.
  • D. It is a planet.

46
  •      
  • When Earth, the Moon, and the Sun are in
  • line as shown above, which could occur?
  • A. An eclipse of the Sun could occur.
  • B. An eclipse of the Moon could occur.
  • C. The Moon could be pulled closer to the Sun.
  • D. The speed of Earth's rotation could be
    increased.

47
  •      
  • 14. When the Sun, the Moon, and Earth are in
    the same line as shown, which of the following
    could occur?
  • A. an eclipse of the Sun
  • B. an eclipse of the Moon
  • C. The Moon could be pulled closer to Earth.
  • D. The spin of Earth could be increased.
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