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Clicker Questions
Chapter 10:
Projectile and
Satellite Motion
© 2015 Pearson Education, Inc.
Which of these expresses a vector quantity?
a) 10 kg
b) 10 kg to the north
c) 10 m/s
d) 10 m/s to the north
© 2015 Pearson Education, Inc.
Which of these expresses a vector quantity?
a) 10 kg
b) 10 kg to the north
c) 10 m/s
d) 10 m/s to the north
Explanation:
Velocity, not mass, is a vector quantity. 10 kg to the
north has no physical meaning.
© 2015 Pearson Education, Inc.
A cannonball is fired horizontally at 10 m/s from
a cliff. Its speed 1 second after being fired is
about
a) 10 m/s.
b) 14 m/s.
c) 16 m/s.
d) 20 m/s.
© 2015 Pearson Education, Inc.
A cannonball is fired horizontally at 10 m/s from
a cliff. Its speed 1 second after being fired is
about
a) 10 m/s.
b) 14 m/s.
c) 16 m/s.
d) 20 m/s.
Explanation:
One second after being fired both its horizontal and vertical
components of velocity are 10 m/s. By the Pythagorean theorem,
the resultant is 14.1 m/s, a bit more than 14 m/s.
© 2015 Pearson Education, Inc.
Relative to the ground, an airplane gains speed
when it encounters wind from behind and loses
speed when it encounters wind head-on. When
it encounters wind at a right angle to the
direction it is pointing, its speed relative to the
ground below
a) increases.
b) decreases.
c) is the same as if there were no wind.
d) Need more information.
© 2015 Pearson Education, Inc.
Relative to the ground, an airplane gains speed
when it encounters wind from behind and loses
speed when it encounters wind head-on. When
it encounters wind at a right angle to the
direction it is pointing, its speed relative to the
ground below
a) increases.
b) decreases.
c) is the same as if there were no wind.
d) Need more information.
© 2015 Pearson Education, Inc.
A wingsuit flyer traveling downward and
leveling off to 40 km/h in a 30-km/h crosswind
(at right angles) has a groundspeed of
a) 30 km/h.
b) 40 km/h.
c) 50 km/h.
d) 60 km/h.
© 2015 Pearson Education, Inc.
A wingsuit flyer traveling downward and
leveling off to 40 km/h in a 30-km/h crosswind
(at right angles) has a groundspeed of
a) 30 km/h.
b) 40 km/h.
c) 50 km/h.
d) 60 km/h.
© 2015 Pearson Education, Inc.
A ball launched into the air at 45° to the
horizontal initially has
a) equal horizontal and vertical components.
b) components that do not change in flight.
c) components that affect each other throughout
flight.
d) a greater horizontal component of velocity than
vertically.
© 2015 Pearson Education, Inc.
A ball launched into the air at 45° to the
horizontal initially has
a) equal horizontal and vertical components.
b) components that do not change in flight.
c) components that affect each other throughout
flight.
d) a greater horizontal component of velocity than
vertically.
© 2015 Pearson Education, Inc.
When no air resistance acts on a fast-moving
baseball, its acceleration is
a) downward, g.
b) due to a combination of constant horizontal motion
and accelerated downward motion.
c) opposite to the force of gravity.
d) centripetal.
© 2015 Pearson Education, Inc.
When no air resistance acts on a fast-moving
baseball, its acceleration is
a) downward, g.
b) due to a combination of constant horizontal motion
and accelerated downward motion.
c) opposite to the force of gravity.
d) centripetal.
© 2015 Pearson Education, Inc.
When no air resistance acts on a projectile, its
horizontal acceleration is
a) g.
b) at right angles to g.
c) centripetal.
d) zero.
© 2015 Pearson Education, Inc.
When no air resistance acts on a projectile, its
horizontal acceleration is
a) g.
b) at right angles to g.
c) centripetal.
d) zero.
© 2015 Pearson Education, Inc.
Without air resistance, the time for a vertically
tossed ball to return to where it was thrown is
a) 10 m/s for every second in the air.
b) the same as the time going upward.
c) less than the time going upward.
d) more than the time going upward.
© 2015 Pearson Education, Inc.
Without air resistance, the time for a vertically
tossed ball to return to where it was thrown is
a) 10 m/s for every second in the air.
b) the same as the time going upward.
c) less than the time going upward.
d) more than the time going upward.
© 2015 Pearson Education, Inc.
At the top of its trajectory, the velocity of a
tossed baseball when air drag is negligible is
________ its initial horizontal component of
velocity. With air drag, this speed at the top is
________.
a) less than; the same
b) equal to; less
c) greater than; less
d) equal to; a bit greater
© 2015 Pearson Education, Inc.
At the top of its trajectory, the velocity of a
tossed baseball when air drag is negligible is
________ its initial horizontal component of
velocity. With air drag, this speed at the top is
________.
a) less than; the same
b) equal to; less
c) greater than; less
d) equal to; a bit greater
© 2015 Pearson Education, Inc.
Toss a baseball horizontally and with no gravity
it would continue in a straight line. With gravity
it falls about
a) 1 m below that line.
b) 5 m below that line.
c) 10 m below that line.
d) None of these.
© 2015 Pearson Education, Inc.
Toss a baseball horizontally and with no gravity
it would continue in a straight line. With gravity
it falls about
a) 1 m below that line.
b) 5 m below that line.
c) 10 m below that line.
d) None of these.
© 2015 Pearson Education, Inc.
When you toss a projectile horizontally, it
curves as it falls. It will be an Earth satellite if
the curve it makes
a) matches the curve of Planet Earth.
b) results in a straight line.
c) spirals out indefinitely.
d) None of these.
© 2015 Pearson Education, Inc.
When you toss a projectile horizontally, it
curves as it falls. It will be an Earth satellite if
the curve it makes
a) matches the curve of Planet Earth.
b) results in a straight line.
c) spirals out indefinitely.
d) None of these.
Explanation:
For an 8-km tangent, Earth curves downward 5 m. So a
projectile traveling horizontally at 8 km/s will fall 5 m in 1 second
and follow the curve of the Earth.
© 2015 Pearson Education, Inc.
A satellite in circular orbit travels at a ________
speed, and a satellite in an elliptical orbit
travels at a ________ speed.
a) fast; slow
b) slow; fast
c) constant; variable
d) variable; constant
© 2015 Pearson Education, Inc.
A satellite in circular orbit travels at a ________
speed, and a satellite in an elliptical orbit
travels at a ________ speed.
a) fast; slow
b) slow; fast
c) constant; variable
d) variable; constant
© 2015 Pearson Education, Inc.
A satellite in elliptical orbit about Earth travels
fastest when it moves
a) close to Earth.
b) far from Earth.
c) the same everywhere.
d) halfway between the near and far points from
Earth.
© 2015 Pearson Education, Inc.
A satellite in elliptical orbit about Earth travels
fastest when it moves
a) close to Earth.
b) far from Earth.
c) the same everywhere.
d) halfway between the near and far points from
Earth.
© 2015 Pearson Education, Inc.
A focal point of the elliptical path that a satellite
follows is
a) Earth's surface.
b) Earth's center.
c) midway between the apogee and perigee.
d) affected by tides.
© 2015 Pearson Education, Inc.
A focal point of the elliptical path that a satellite
follows is
a) Earth's surface.
b) Earth's center.
c) midway between the apogee and perigee.
d) affected by tides.
© 2015 Pearson Education, Inc.
Kepler is credited as being the first to discover
that the paths of planets around the Sun are
a) circles.
b) ellipses.
c) straight lines most of the time.
d) spirals.
© 2015 Pearson Education, Inc.
Kepler is credited as being the first to discover
that the paths of planets around the Sun are
a) circles.
b) ellipses.
c) straight lines most of the time.
d) spirals.
© 2015 Pearson Education, Inc.
Kepler is famous for finding an important
relationship between a satellite's radial distance
and its
a) speed.
b) time to complete an orbit.
c) kinetic energy.
d) potential energy.
© 2015 Pearson Education, Inc.
Kepler is famous for finding an important
relationship between a satellite's radial distance
and its
a) speed.
b) time to complete an orbit.
c) kinetic energy.
d) potential energy.
Explanation:
Kepler's third law is T2 ~ R3, a relation between radial distance
from the Sun or body about which orbiting occurs, and period
(time to complete an orbit).
© 2015 Pearson Education, Inc.
Energy is conserved when an Earth satellite
travels in a
a) circular orbit.
b) elliptical orbit.
c) Both of these.
d) None of these.
© 2015 Pearson Education, Inc.
Energy is conserved when an Earth satellite
travels in a
a) circular orbit.
b) elliptical orbit.
c) Both of these.
d) None of these.
© 2015 Pearson Education, Inc.
The work done by gravity is zero for a satellite
traveling in a
a) circular orbit.
b) elliptical orbit.
c) Both of these.
d) None of these.
© 2015 Pearson Education, Inc.
The work done by gravity is zero for a satellite
traveling in a
a) circular orbit.
b) elliptical orbit.
c) Both of these.
d) None of these.
Explanation:
Recall that no work is done by a force at right angles
to motion, which occurs in a circle.
© 2015 Pearson Education, Inc.
When a projectile achieves escape speed from
Earth, it
a) forever leaves Earth's gravitational field.
b) outruns the influence of Earth's gravity but is
never beyond it.
c) comes to an eventual stop, eventually returning to
Earth at some future time.
d) All of these.
© 2015 Pearson Education, Inc.
When a projectile achieves escape speed from
Earth, it
a) forever leaves Earth's gravitational field.
b) outruns the influence of Earth's gravity but is
never beyond it.
c) comes to an eventual stop, eventually returning to
Earth at some future time.
d) All of these.
© 2015 Pearson Education, Inc.
A space shuttle orbits about 200 km above
Earth's surface so as to be above Earth's
a) atmosphere.
b) gravitational field.
c) Both of these.
d) None of these.
© 2015 Pearson Education, Inc.
A space shuttle orbits about 200 km above
Earth's surface so as to be above Earth's
a) atmosphere.
b) gravitational field.
c) Both of these.
d) None of these.
Explanation:
Careful! Don't say both of these, for there is plenty of
gravitational field in satellite territory. What would be a satellite's
path with no gravity?
© 2015 Pearson Education, Inc.

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10 clicker questions

  • 1. Clicker Questions Chapter 10: Projectile and Satellite Motion © 2015 Pearson Education, Inc.
  • 2. Which of these expresses a vector quantity? a) 10 kg b) 10 kg to the north c) 10 m/s d) 10 m/s to the north © 2015 Pearson Education, Inc.
  • 3. Which of these expresses a vector quantity? a) 10 kg b) 10 kg to the north c) 10 m/s d) 10 m/s to the north Explanation: Velocity, not mass, is a vector quantity. 10 kg to the north has no physical meaning. © 2015 Pearson Education, Inc.
  • 4. A cannonball is fired horizontally at 10 m/s from a cliff. Its speed 1 second after being fired is about a) 10 m/s. b) 14 m/s. c) 16 m/s. d) 20 m/s. © 2015 Pearson Education, Inc.
  • 5. A cannonball is fired horizontally at 10 m/s from a cliff. Its speed 1 second after being fired is about a) 10 m/s. b) 14 m/s. c) 16 m/s. d) 20 m/s. Explanation: One second after being fired both its horizontal and vertical components of velocity are 10 m/s. By the Pythagorean theorem, the resultant is 14.1 m/s, a bit more than 14 m/s. © 2015 Pearson Education, Inc.
  • 6. Relative to the ground, an airplane gains speed when it encounters wind from behind and loses speed when it encounters wind head-on. When it encounters wind at a right angle to the direction it is pointing, its speed relative to the ground below a) increases. b) decreases. c) is the same as if there were no wind. d) Need more information. © 2015 Pearson Education, Inc.
  • 7. Relative to the ground, an airplane gains speed when it encounters wind from behind and loses speed when it encounters wind head-on. When it encounters wind at a right angle to the direction it is pointing, its speed relative to the ground below a) increases. b) decreases. c) is the same as if there were no wind. d) Need more information. © 2015 Pearson Education, Inc.
  • 8. A wingsuit flyer traveling downward and leveling off to 40 km/h in a 30-km/h crosswind (at right angles) has a groundspeed of a) 30 km/h. b) 40 km/h. c) 50 km/h. d) 60 km/h. © 2015 Pearson Education, Inc.
  • 9. A wingsuit flyer traveling downward and leveling off to 40 km/h in a 30-km/h crosswind (at right angles) has a groundspeed of a) 30 km/h. b) 40 km/h. c) 50 km/h. d) 60 km/h. © 2015 Pearson Education, Inc.
  • 10. A ball launched into the air at 45° to the horizontal initially has a) equal horizontal and vertical components. b) components that do not change in flight. c) components that affect each other throughout flight. d) a greater horizontal component of velocity than vertically. © 2015 Pearson Education, Inc.
  • 11. A ball launched into the air at 45° to the horizontal initially has a) equal horizontal and vertical components. b) components that do not change in flight. c) components that affect each other throughout flight. d) a greater horizontal component of velocity than vertically. © 2015 Pearson Education, Inc.
  • 12. When no air resistance acts on a fast-moving baseball, its acceleration is a) downward, g. b) due to a combination of constant horizontal motion and accelerated downward motion. c) opposite to the force of gravity. d) centripetal. © 2015 Pearson Education, Inc.
  • 13. When no air resistance acts on a fast-moving baseball, its acceleration is a) downward, g. b) due to a combination of constant horizontal motion and accelerated downward motion. c) opposite to the force of gravity. d) centripetal. © 2015 Pearson Education, Inc.
  • 14. When no air resistance acts on a projectile, its horizontal acceleration is a) g. b) at right angles to g. c) centripetal. d) zero. © 2015 Pearson Education, Inc.
  • 15. When no air resistance acts on a projectile, its horizontal acceleration is a) g. b) at right angles to g. c) centripetal. d) zero. © 2015 Pearson Education, Inc.
  • 16. Without air resistance, the time for a vertically tossed ball to return to where it was thrown is a) 10 m/s for every second in the air. b) the same as the time going upward. c) less than the time going upward. d) more than the time going upward. © 2015 Pearson Education, Inc.
  • 17. Without air resistance, the time for a vertically tossed ball to return to where it was thrown is a) 10 m/s for every second in the air. b) the same as the time going upward. c) less than the time going upward. d) more than the time going upward. © 2015 Pearson Education, Inc.
  • 18. At the top of its trajectory, the velocity of a tossed baseball when air drag is negligible is ________ its initial horizontal component of velocity. With air drag, this speed at the top is ________. a) less than; the same b) equal to; less c) greater than; less d) equal to; a bit greater © 2015 Pearson Education, Inc.
  • 19. At the top of its trajectory, the velocity of a tossed baseball when air drag is negligible is ________ its initial horizontal component of velocity. With air drag, this speed at the top is ________. a) less than; the same b) equal to; less c) greater than; less d) equal to; a bit greater © 2015 Pearson Education, Inc.
  • 20. Toss a baseball horizontally and with no gravity it would continue in a straight line. With gravity it falls about a) 1 m below that line. b) 5 m below that line. c) 10 m below that line. d) None of these. © 2015 Pearson Education, Inc.
  • 21. Toss a baseball horizontally and with no gravity it would continue in a straight line. With gravity it falls about a) 1 m below that line. b) 5 m below that line. c) 10 m below that line. d) None of these. © 2015 Pearson Education, Inc.
  • 22. When you toss a projectile horizontally, it curves as it falls. It will be an Earth satellite if the curve it makes a) matches the curve of Planet Earth. b) results in a straight line. c) spirals out indefinitely. d) None of these. © 2015 Pearson Education, Inc.
  • 23. When you toss a projectile horizontally, it curves as it falls. It will be an Earth satellite if the curve it makes a) matches the curve of Planet Earth. b) results in a straight line. c) spirals out indefinitely. d) None of these. Explanation: For an 8-km tangent, Earth curves downward 5 m. So a projectile traveling horizontally at 8 km/s will fall 5 m in 1 second and follow the curve of the Earth. © 2015 Pearson Education, Inc.
  • 24. A satellite in circular orbit travels at a ________ speed, and a satellite in an elliptical orbit travels at a ________ speed. a) fast; slow b) slow; fast c) constant; variable d) variable; constant © 2015 Pearson Education, Inc.
  • 25. A satellite in circular orbit travels at a ________ speed, and a satellite in an elliptical orbit travels at a ________ speed. a) fast; slow b) slow; fast c) constant; variable d) variable; constant © 2015 Pearson Education, Inc.
  • 26. A satellite in elliptical orbit about Earth travels fastest when it moves a) close to Earth. b) far from Earth. c) the same everywhere. d) halfway between the near and far points from Earth. © 2015 Pearson Education, Inc.
  • 27. A satellite in elliptical orbit about Earth travels fastest when it moves a) close to Earth. b) far from Earth. c) the same everywhere. d) halfway between the near and far points from Earth. © 2015 Pearson Education, Inc.
  • 28. A focal point of the elliptical path that a satellite follows is a) Earth's surface. b) Earth's center. c) midway between the apogee and perigee. d) affected by tides. © 2015 Pearson Education, Inc.
  • 29. A focal point of the elliptical path that a satellite follows is a) Earth's surface. b) Earth's center. c) midway between the apogee and perigee. d) affected by tides. © 2015 Pearson Education, Inc.
  • 30. Kepler is credited as being the first to discover that the paths of planets around the Sun are a) circles. b) ellipses. c) straight lines most of the time. d) spirals. © 2015 Pearson Education, Inc.
  • 31. Kepler is credited as being the first to discover that the paths of planets around the Sun are a) circles. b) ellipses. c) straight lines most of the time. d) spirals. © 2015 Pearson Education, Inc.
  • 32. Kepler is famous for finding an important relationship between a satellite's radial distance and its a) speed. b) time to complete an orbit. c) kinetic energy. d) potential energy. © 2015 Pearson Education, Inc.
  • 33. Kepler is famous for finding an important relationship between a satellite's radial distance and its a) speed. b) time to complete an orbit. c) kinetic energy. d) potential energy. Explanation: Kepler's third law is T2 ~ R3, a relation between radial distance from the Sun or body about which orbiting occurs, and period (time to complete an orbit). © 2015 Pearson Education, Inc.
  • 34. Energy is conserved when an Earth satellite travels in a a) circular orbit. b) elliptical orbit. c) Both of these. d) None of these. © 2015 Pearson Education, Inc.
  • 35. Energy is conserved when an Earth satellite travels in a a) circular orbit. b) elliptical orbit. c) Both of these. d) None of these. © 2015 Pearson Education, Inc.
  • 36. The work done by gravity is zero for a satellite traveling in a a) circular orbit. b) elliptical orbit. c) Both of these. d) None of these. © 2015 Pearson Education, Inc.
  • 37. The work done by gravity is zero for a satellite traveling in a a) circular orbit. b) elliptical orbit. c) Both of these. d) None of these. Explanation: Recall that no work is done by a force at right angles to motion, which occurs in a circle. © 2015 Pearson Education, Inc.
  • 38. When a projectile achieves escape speed from Earth, it a) forever leaves Earth's gravitational field. b) outruns the influence of Earth's gravity but is never beyond it. c) comes to an eventual stop, eventually returning to Earth at some future time. d) All of these. © 2015 Pearson Education, Inc.
  • 39. When a projectile achieves escape speed from Earth, it a) forever leaves Earth's gravitational field. b) outruns the influence of Earth's gravity but is never beyond it. c) comes to an eventual stop, eventually returning to Earth at some future time. d) All of these. © 2015 Pearson Education, Inc.
  • 40. A space shuttle orbits about 200 km above Earth's surface so as to be above Earth's a) atmosphere. b) gravitational field. c) Both of these. d) None of these. © 2015 Pearson Education, Inc.
  • 41. A space shuttle orbits about 200 km above Earth's surface so as to be above Earth's a) atmosphere. b) gravitational field. c) Both of these. d) None of these. Explanation: Careful! Don't say both of these, for there is plenty of gravitational field in satellite territory. What would be a satellite's path with no gravity? © 2015 Pearson Education, Inc.