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Deck 4: Motion in Two and Three Dimensions

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Question
Velocity is defined as:

A) rate of change of position with time
B) position divided by time
C) rate of change of acceleration with time
D) a speeding up or slowing down
E) change of position
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Question
A bomber flying in level flight with constant velocity releases a bomb before it is over the target. Neglecting air resistance, which one of the following is NOT true?

A) The bomber is over the target when the bomb strikes
B) The acceleration of the bomb is constant
C) The horizontal velocity of the plane equals the vertical velocity of the bomb when it hits the target
D) The bomb travels in a curved path
E) The time of flight of the bomb is independent of the horizontal speed of the plane
Question
A ball is thrown horizontally from the top of a 20-m high hill. It strikes the ground at an angle of 45 °\degree . With what speed was it thrown? <strong>A ball is thrown horizontally from the top of a 20-m high hill. It strikes the ground at an angle of 45 \degree . With what speed was it thrown? </strong> A) 14 m/s B) 20 m/s C) 28 m/s D) 32 m/s E) 40 m/s <div style=padding-top: 35px>

A) 14 m/s
B) 20 m/s
C) 28 m/s
D) 32 m/s
E) 40 m/s
Question
A boy on the edge of a vertical cliff 20 m high throws a stone horizontally outwards with a speed of 20 m/s. It strikes the ground at what horizontal distance from the foot of the cliff? Use g = 10 m/s2

A) 10 m
B) 40 m
C) 50 m
D) <strong>A boy on the edge of a vertical cliff 20 m high throws a stone horizontally outwards with a speed of 20 m/s. It strikes the ground at what horizontal distance from the foot of the cliff? Use g = 10 m/s<sup>2</sup></strong> A) 10 m B) 40 m C) 50 m D) E) none of these <div style=padding-top: 35px>
E) none of these
Question
A plane traveling north at 200 m/s turns and then travels south at 200 m/s. The change in its velocity is:

A) zero
B) 200 m/s north
C) 200 m/s south
D) 400 m/s north
E) 400 m/s south
Question
An object is shot from the back of a railroad flatcar moving at 40 km/h on a straight horizontal road. The launcher is aimed upward, perpendicular to the bed of the flatcar. The object falls:

A) in front of the flatcar
B) behind the flatcar
C) on the truck
D) either behind or in front of the flatcar, depending on the initial speed of the object
E) to the side of the flatcar
Question
Which of the following is a vector quantity?

A) Mass
B) Density
C) Speed
D) Temperature
E) None of these
Question
Two bodies are falling with negligible air resistance, side by side, above a horizontal plane. If one of the bodies is given an additional horizontal acceleration during its descent, it:

A) strikes the plane at the same time as the other body
B) strike the plane earlier than the other body
C) has the vertical component of its velocity altered
D) has the vertical component of its acceleration altered
E) follows a straight line path along the resultant acceleration vector
Question
Which of the following is a scalar quantity?

A) Speed
B) Velocity
C) Displacement
D) Acceleration
E) None of these
Question
A large cannon is fired from ground level over level ground at an angle of 30 °\degree above the horizontal. The muzzle speed is 980 m/s. Neglecting air resistance, the projectile will travel what horizontal distance before striking the ground?

A) 4.3 km
B) 8.5 km
C) 43 km
D) 85 km
E) 170 km
Question
The velocity of a projectile equals its initial velocity added to:

A) a constant horizontal velocity
B) a constant vertical velocity
C) a constantly increasing horizontal velocity
D) a constantly increasing downward velocity
E) a constant velocity directed at the target
Question
A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:

A) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A bullet shot horizontally from a gun:

A) strikes the ground much later than one dropped vertically from the same point at the same instant
B) never strikes the ground
C) strikes the ground at approximately the same time as one dropped vertically from the same point at the same instant
D) travels in a straight line
E) strikes the ground much sooner than one dropped from the same point at the same instant
Question
Acceleration is defined as:

A) rate of change of position with time
B) speed divided by time
C) rate of change of velocity with time
D) a speeding up or slowing down
E) change of velocity
Question
A stone is thrown outward from the top of a 59.4-m high cliff with an upward velocity component of 19.5 m/s. How long is stone in the air?

A) 4.00 s
B) 5.00 s
C) 6.00 s
D) 7.00 s
E) 8.00 s
Question
Identical guns fire identical bullets horizontally at the same speed from the same height above level planes, one on the Earth and one on the Moon. Which of the following three statements is/are true? I. The horizontal distance traveled by the bullet is greater for the Moon.
II) The flight time is less for the bullet on the Earth.
III) The velocities of the bullets at impact are the same.

A) III only
B) I and II only
C) I and III only
D) II and III only
E) I, II, III
Question
The airplane shown is in level flight at an altitude of 0.50 km and a speed of 150 km/h. At what distance d should it release a heavy bomb to hit the target X? Take g = 10 m/s2. <strong>The airplane shown is in level flight at an altitude of 0.50 km and a speed of 150 km/h. At what distance d should it release a heavy bomb to hit the target X? Take g = 10 m/s<sup>2</sup>. </strong> A) 150 m B) 295 m C) 417 m D) 2550 m E) 15,000 m <div style=padding-top: 35px>

A) 150 m
B) 295 m
C) 417 m
D) 2550 m
E) 15,000 m
Question
A jet plane in straight horizontal flight passes over your head. When it is directly above you, the sound seems to come from a point behind the plane in a direction 30 °\degree from the vertical. The speed of the plane is:

A) the same as the speed of sound
B) half the speed of sound
C) three-fifths the speed of sound
D) 0.866 times the speed of sound
E) twice the speed of sound
Question
A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E) <div style=padding-top: 35px>

A) \downarrow
B) \rightarrow
C) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E) <div style=padding-top: 35px>
D) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E) <div style=padding-top: 35px>
E) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E) <div style=padding-top: 35px>
Question
Which of the following is NOT an example of accelerated motion?

A) Vertical component of projectile motion
B) Circular motion at constant speed
C) A swinging pendulum
D) Earth's motion about sun
E) Horizontal component of projectile motion
Question
A particle moves at constant speed in a circular path. The instantaneous velocity and instantaneous acceleration vectors are:

A) both tangent to the circular path
B) both perpendicular to the circular path
C) perpendicular to each other
D) opposite to each other
E) none of the above
Question
A cannon fires a projectile as shown. The dashed line shows the trajectory in the absence of gravity; points MNOP correspond to the position of the projectiole at one second intervals. If g = 10 m/s2, the lengths X,Y,Z are: <strong>A cannon fires a projectile as shown. The dashed line shows the trajectory in the absence of gravity; points MNOP correspond to the position of the projectiole at one second intervals. If g = 10 m/s<sup>2</sup>, the lengths X,Y,Z are: </strong> A) 5 m, 10 m, 15 m B) 5 m, 20 m, 45 m C) 10 m, 40 m, 90 m D) 10 m, 20 m, 30 m E) 0.2 m, 0.8 m, 1.8 m <div style=padding-top: 35px>

A) 5 m, 10 m, 15 m
B) 5 m, 20 m, 45 m
C) 10 m, 40 m, 90 m
D) 10 m, 20 m, 30 m
E) 0.2 m, 0.8 m, 1.8 m
Question
A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> When it is at point B its velocity and acceleration are: <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px>

A) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> respectively
B) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> respectively
C) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> respectively
D) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> respectively
E) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively <div style=padding-top: 35px> respectively
Question
A stone thrown from the top of a tall building follows a path that is:

A) circular
B) made of two straight line segments
C) hyperbolic
D) parabolic
E) a straight line
Question
A stone is tied to a 0.50-m string and whirled at a constant speed of 4.0 m/s in a vertical circle. The acceleration at the bottom of the circle is:

A) 9.8 m/s2, up
B) 9.8 m/s2, down
C) 8.0 m/s2, up
D) 32 m/s2, up
E) 32 m/s2, down
Question
A girl jogs around a horizontally circle with a constant speed. She travels one fourth of a revolution, a distance of 25 m along the circumference of the circle, in 5.0 s. The magnitude of her acceleration is:

A) 0.31 m/s2
B) 1.3 m/s2
C) 1.6 m/s2
D) 3.9 m/s2
E) 6.3 m/s2
Question
For a biological sample in a 1.0-m radius centrifuge to have a centripetal acceleration of 25g its speed must be:

A) 11 m/s
B) 16 m/s
C) 50 m/s
D) 122 m/s
E) 245 m/s
Question
An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E) <div style=padding-top: 35px>

A) \leftarrow
B) \downarrow
C) \uparrow
D) <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E) <div style=padding-top: 35px>
E) <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E) <div style=padding-top: 35px>
Question
Which of the curves on the graph below best represents the verticle component vy versus t for a projectile fired at an angle of 45 °\degree above the horizontal? <strong>Which of the curves on the graph below best represents the verticle component v<sub>y</sub> versus t for a projectile fired at an angle of 45 \degree above the horizontal? </strong> A) OC B) DE C) AB D) AE E) AF <div style=padding-top: 35px>

A) OC
B) DE
C) AB
D) AE
E) AF
Question
Two projectiles are in flight at the same time. The acceleration of one relative to the other:

A) is always 9.8 m/s2
B) can be as large as 19.8 m/s2
C) can be horizontal
D) is zero
E) none of these
Question
A dart is thrown horizontally toward X at 20 m/s as shown. It hits Y 0.1 s later. The distance XY is: <strong>A dart is thrown horizontally toward X at 20 m/s as shown. It hits Y 0.1 s later. The distance XY is: </strong> A) 2 m B) 1 m C) 0.5 m D) 0.1 m E) 0.05 m <div style=padding-top: 35px>

A) 2 m
B) 1 m
C) 0.5 m
D) 0.1 m
E) 0.05 m
Question
A stone is tied to the end of a string and is swung with constant speed around a horizontal circle with a radius of 1.5 m. If it makes two complete revolutions each second, its acceleration is:

A) 0.24 m/s2
B) 2.4 m/s2
C) 24 m/s2
D) 240 m/s2
E) 2400 m/s2
Question
A projectile is fired over level ground with an initial velocity that has a vertical component of 20 m/s and a horizontal component of 30 m/s. Using g = 10 m/s2, the distance from launching to landing points is:

A) 40 m
B) 60 m
C) 80 m
D) 120 m
E) 180 m
Question
A stone is tied to a string and whirled at constant speed in a horizontal circle. The speed is then doubled without changing the length of the string. Afterward the magnitude of the acceleration of the stone is:

A) the same
B) twice as great
C) four times as great
D) half as great
E) one-fourth as great
Question
An airplane is flying north at 500 km/h. It makes a gradual 180 °\degree turn at constant speed, changing its direction of travel from north through east to south. The process takes 40 s. The average acceleration of the plane for this turn in km/h.s is:

A) 12.5 km/h.s, north
B) 12.5 km/h.s, east
C) 12.5 km/h.s, south
D) 25 km/h.s, north
E) 25 km/h.s, south
Question
A car rounds a 20-m radius curve at 10 m/s. The magnitude of its acceleration is:

A) 0
B) 0.20 m/s2
C) 5.0 m/s2
D) 40 m/s2
E) 400 m/s2
Question
A stone is tied to a 0.50-m string and whirled at a constant speed of 4.0 m/s in a vertical circle. Its acceleration at the top of the circle is:

A) 9.8 m/s2, up
B) 9.8 m/s2, down
C) 8.0 m/s2, down
D) 32 m/s2, up
E) 32 m/s2, down
Question
An airplane makes a gradual 90 °\degree turn while flying at a constant speed of 200 m/s. The process takes 20.0 seconds to complete. For this turn the magnitude of the average acceleration of the plane is:

A) zero
B) 40 m/s2
C) 20 m/s2
D) 14 m/s2
E) 10 m/s2
Question
An object is moving on a circular path of radius π\pi meters at a constant speed of 4.0 m/s. The time required for one revolution is:

A) 2/ π\pi 2 s
B) π\pi 2/2 s
C) π\pi /2 s
D) π\pi 2/4 s
E) 2/ π\pi s
Question
Two objects are traveling around different circular orbits with constant speed. They both have the same acceleration but object A is traveling twice as fast as object B. The orbit radius for object A is _______ the orbit radius for object B.

A) one-fourth
B) one-half
C) the same as
D) twice
E) four times
Question
A boat is traveling upstream at 14 mph with respect to a river that is flowing at 6 mph (with respect to the ground). A man runs directly across the boat, from one side to the other, at 6 mph (with respect to the boat). The speed of the man with respect to the ground is:

A) 10 mph
B) 14 mph
C) 18.5 mph
D) 21 mph
E) 26 mph
Question
A girl wishes to swim across a river to a point directly opposite as shown. She can swim at 2 m/s in still water and the river is flowing at 1 m/s. At what angle θ\theta with respect to the line joining the starting and finishing points should she swim? <strong>A girl wishes to swim across a river to a point directly opposite as shown. She can swim at 2 m/s in still water and the river is flowing at 1 m/s. At what angle \theta with respect to the line joining the starting and finishing points should she swim? </strong> A) 30 \degree B) 45 \degree C) 60 \degree D) 63 \degree E) 90 \degree <div style=padding-top: 35px>

A) 30 °\degree
B) 45 °\degree
C) 60 °\degree
D) 63 °\degree
E) 90 °\degree
Question
A boy wishes to row across a river in the shortest possible time. He can row at 2 m/s in still water and the river is flowing at 1 m/s. At what angle θ\theta should he point the bow (front) of his boat? <strong>A boy wishes to row across a river in the shortest possible time. He can row at 2 m/s in still water and the river is flowing at 1 m/s. At what angle \theta should he point the bow (front) of his boat? </strong> A) 30 \degree B) 45 \degree C) 60 \degree D) 63 \degree E) 90 \degree <div style=padding-top: 35px>

A) 30 °\degree
B) 45 °\degree
C) 60 °\degree
D) 63 °\degree
E) 90 °\degree
Question
A ferry boat is sailing at 12 km 30 °\degree W of N with respect to a river that is flowing at 6.0 km/h E. As observed from the shore, the ferry boat is sailing:

A) 30 °\degree E of N
B) due N
C) 30 °\degree W of N
D) 45 °\degree E of N
E) none of these
Question
A Ferris wheel with a radius of 8.0m makes 1 revolution every 10 s. When he is at the top, essentially a diameter above the ground, he releases a ball. How far from the point on the ground directly under the release point does the ball land?

A) 0
B) 1.0 m
C) 8.0 m
D) 9.1 m
E) 16 m
Question
A boat is able to move through still water at 20 m/s. It makes a round trip to a town 3.0 km upstream. If the river flows at 5 m/s, the time required for this round trip is:

A) 120 s
B) 150 s
C) 200 s
D) 300 s
E) 320 s
Question
A motor boat can travel at 10 km/h in still water. A river flows at 5 km/h west. A boater wishes to cross from the south bank to a point directly opposite on the north bank. At what angle must the boat be headed?

A) 27 °\degree E of N
B) 30 °\degree E of N
C) 45 °\degree E of N
D) 60 °\degree E of N
E) depends on the width of the river
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Deck 4: Motion in Two and Three Dimensions
1
Velocity is defined as:

A) rate of change of position with time
B) position divided by time
C) rate of change of acceleration with time
D) a speeding up or slowing down
E) change of position
rate of change of position with time
2
A bomber flying in level flight with constant velocity releases a bomb before it is over the target. Neglecting air resistance, which one of the following is NOT true?

A) The bomber is over the target when the bomb strikes
B) The acceleration of the bomb is constant
C) The horizontal velocity of the plane equals the vertical velocity of the bomb when it hits the target
D) The bomb travels in a curved path
E) The time of flight of the bomb is independent of the horizontal speed of the plane
The horizontal velocity of the plane equals the vertical velocity of the bomb when it hits the target
3
A ball is thrown horizontally from the top of a 20-m high hill. It strikes the ground at an angle of 45 °\degree . With what speed was it thrown? <strong>A ball is thrown horizontally from the top of a 20-m high hill. It strikes the ground at an angle of 45 \degree . With what speed was it thrown? </strong> A) 14 m/s B) 20 m/s C) 28 m/s D) 32 m/s E) 40 m/s

A) 14 m/s
B) 20 m/s
C) 28 m/s
D) 32 m/s
E) 40 m/s
20 m/s
4
A boy on the edge of a vertical cliff 20 m high throws a stone horizontally outwards with a speed of 20 m/s. It strikes the ground at what horizontal distance from the foot of the cliff? Use g = 10 m/s2

A) 10 m
B) 40 m
C) 50 m
D) <strong>A boy on the edge of a vertical cliff 20 m high throws a stone horizontally outwards with a speed of 20 m/s. It strikes the ground at what horizontal distance from the foot of the cliff? Use g = 10 m/s<sup>2</sup></strong> A) 10 m B) 40 m C) 50 m D) E) none of these
E) none of these
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5
A plane traveling north at 200 m/s turns and then travels south at 200 m/s. The change in its velocity is:

A) zero
B) 200 m/s north
C) 200 m/s south
D) 400 m/s north
E) 400 m/s south
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6
An object is shot from the back of a railroad flatcar moving at 40 km/h on a straight horizontal road. The launcher is aimed upward, perpendicular to the bed of the flatcar. The object falls:

A) in front of the flatcar
B) behind the flatcar
C) on the truck
D) either behind or in front of the flatcar, depending on the initial speed of the object
E) to the side of the flatcar
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7
Which of the following is a vector quantity?

A) Mass
B) Density
C) Speed
D) Temperature
E) None of these
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8
Two bodies are falling with negligible air resistance, side by side, above a horizontal plane. If one of the bodies is given an additional horizontal acceleration during its descent, it:

A) strikes the plane at the same time as the other body
B) strike the plane earlier than the other body
C) has the vertical component of its velocity altered
D) has the vertical component of its acceleration altered
E) follows a straight line path along the resultant acceleration vector
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9
Which of the following is a scalar quantity?

A) Speed
B) Velocity
C) Displacement
D) Acceleration
E) None of these
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10
A large cannon is fired from ground level over level ground at an angle of 30 °\degree above the horizontal. The muzzle speed is 980 m/s. Neglecting air resistance, the projectile will travel what horizontal distance before striking the ground?

A) 4.3 km
B) 8.5 km
C) 43 km
D) 85 km
E) 170 km
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11
The velocity of a projectile equals its initial velocity added to:

A) a constant horizontal velocity
B) a constant vertical velocity
C) a constantly increasing horizontal velocity
D) a constantly increasing downward velocity
E) a constant velocity directed at the target
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12
A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:

A) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E)
B) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E)
C) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E)
D) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E)
E) <strong>A particle goes from x = -2 m, y = 3 m, z = 1 m to x = 3 m, y = -1 m, z = 4 m. Its displacement is:</strong> A) B) C) D) E)
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13
A bullet shot horizontally from a gun:

A) strikes the ground much later than one dropped vertically from the same point at the same instant
B) never strikes the ground
C) strikes the ground at approximately the same time as one dropped vertically from the same point at the same instant
D) travels in a straight line
E) strikes the ground much sooner than one dropped from the same point at the same instant
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14
Acceleration is defined as:

A) rate of change of position with time
B) speed divided by time
C) rate of change of velocity with time
D) a speeding up or slowing down
E) change of velocity
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15
A stone is thrown outward from the top of a 59.4-m high cliff with an upward velocity component of 19.5 m/s. How long is stone in the air?

A) 4.00 s
B) 5.00 s
C) 6.00 s
D) 7.00 s
E) 8.00 s
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16
Identical guns fire identical bullets horizontally at the same speed from the same height above level planes, one on the Earth and one on the Moon. Which of the following three statements is/are true? I. The horizontal distance traveled by the bullet is greater for the Moon.
II) The flight time is less for the bullet on the Earth.
III) The velocities of the bullets at impact are the same.

A) III only
B) I and II only
C) I and III only
D) II and III only
E) I, II, III
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17
The airplane shown is in level flight at an altitude of 0.50 km and a speed of 150 km/h. At what distance d should it release a heavy bomb to hit the target X? Take g = 10 m/s2. <strong>The airplane shown is in level flight at an altitude of 0.50 km and a speed of 150 km/h. At what distance d should it release a heavy bomb to hit the target X? Take g = 10 m/s<sup>2</sup>. </strong> A) 150 m B) 295 m C) 417 m D) 2550 m E) 15,000 m

A) 150 m
B) 295 m
C) 417 m
D) 2550 m
E) 15,000 m
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18
A jet plane in straight horizontal flight passes over your head. When it is directly above you, the sound seems to come from a point behind the plane in a direction 30 °\degree from the vertical. The speed of the plane is:

A) the same as the speed of sound
B) half the speed of sound
C) three-fifths the speed of sound
D) 0.866 times the speed of sound
E) twice the speed of sound
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19
A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E)

A) \downarrow
B) \rightarrow
C) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E)
D) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E)
E) <strong>A stone is thrown horizontally and follows the path XYZ shown. The direction of the acceleration of the stone at point Y is: </strong> A) \downarrow B) \rightarrow C) D) E)
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20
Which of the following is NOT an example of accelerated motion?

A) Vertical component of projectile motion
B) Circular motion at constant speed
C) A swinging pendulum
D) Earth's motion about sun
E) Horizontal component of projectile motion
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21
A particle moves at constant speed in a circular path. The instantaneous velocity and instantaneous acceleration vectors are:

A) both tangent to the circular path
B) both perpendicular to the circular path
C) perpendicular to each other
D) opposite to each other
E) none of the above
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22
A cannon fires a projectile as shown. The dashed line shows the trajectory in the absence of gravity; points MNOP correspond to the position of the projectiole at one second intervals. If g = 10 m/s2, the lengths X,Y,Z are: <strong>A cannon fires a projectile as shown. The dashed line shows the trajectory in the absence of gravity; points MNOP correspond to the position of the projectiole at one second intervals. If g = 10 m/s<sup>2</sup>, the lengths X,Y,Z are: </strong> A) 5 m, 10 m, 15 m B) 5 m, 20 m, 45 m C) 10 m, 40 m, 90 m D) 10 m, 20 m, 30 m E) 0.2 m, 0.8 m, 1.8 m

A) 5 m, 10 m, 15 m
B) 5 m, 20 m, 45 m
C) 10 m, 40 m, 90 m
D) 10 m, 20 m, 30 m
E) 0.2 m, 0.8 m, 1.8 m
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23
A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively When it is at point B its velocity and acceleration are: <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively

A) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively respectively
B) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively respectively
C) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively respectively
D) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively respectively
E) <strong>A toy racing moves with constant speed around the circle shown below. When it is at point A its coordinates are x = 0, y = 3m and its velocity is When it is at point B its velocity and acceleration are: </strong> A) respectively B) respectively C) respectively D) respectively E) respectively respectively
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24
A stone thrown from the top of a tall building follows a path that is:

A) circular
B) made of two straight line segments
C) hyperbolic
D) parabolic
E) a straight line
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25
A stone is tied to a 0.50-m string and whirled at a constant speed of 4.0 m/s in a vertical circle. The acceleration at the bottom of the circle is:

A) 9.8 m/s2, up
B) 9.8 m/s2, down
C) 8.0 m/s2, up
D) 32 m/s2, up
E) 32 m/s2, down
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26
A girl jogs around a horizontally circle with a constant speed. She travels one fourth of a revolution, a distance of 25 m along the circumference of the circle, in 5.0 s. The magnitude of her acceleration is:

A) 0.31 m/s2
B) 1.3 m/s2
C) 1.6 m/s2
D) 3.9 m/s2
E) 6.3 m/s2
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27
For a biological sample in a 1.0-m radius centrifuge to have a centripetal acceleration of 25g its speed must be:

A) 11 m/s
B) 16 m/s
C) 50 m/s
D) 122 m/s
E) 245 m/s
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28
An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E)

A) \leftarrow
B) \downarrow
C) \uparrow
D) <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E)
E) <strong>An object, tied to a string, moves in a circle at constant speed on a horizontal surface as shown. The direction of the displacement of this object, as it travels from W to X is: </strong> A) \leftarrow B) \downarrow C) \uparrow D) E)
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29
Which of the curves on the graph below best represents the verticle component vy versus t for a projectile fired at an angle of 45 °\degree above the horizontal? <strong>Which of the curves on the graph below best represents the verticle component v<sub>y</sub> versus t for a projectile fired at an angle of 45 \degree above the horizontal? </strong> A) OC B) DE C) AB D) AE E) AF

A) OC
B) DE
C) AB
D) AE
E) AF
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30
Two projectiles are in flight at the same time. The acceleration of one relative to the other:

A) is always 9.8 m/s2
B) can be as large as 19.8 m/s2
C) can be horizontal
D) is zero
E) none of these
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31
A dart is thrown horizontally toward X at 20 m/s as shown. It hits Y 0.1 s later. The distance XY is: <strong>A dart is thrown horizontally toward X at 20 m/s as shown. It hits Y 0.1 s later. The distance XY is: </strong> A) 2 m B) 1 m C) 0.5 m D) 0.1 m E) 0.05 m

A) 2 m
B) 1 m
C) 0.5 m
D) 0.1 m
E) 0.05 m
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32
A stone is tied to the end of a string and is swung with constant speed around a horizontal circle with a radius of 1.5 m. If it makes two complete revolutions each second, its acceleration is:

A) 0.24 m/s2
B) 2.4 m/s2
C) 24 m/s2
D) 240 m/s2
E) 2400 m/s2
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33
A projectile is fired over level ground with an initial velocity that has a vertical component of 20 m/s and a horizontal component of 30 m/s. Using g = 10 m/s2, the distance from launching to landing points is:

A) 40 m
B) 60 m
C) 80 m
D) 120 m
E) 180 m
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34
A stone is tied to a string and whirled at constant speed in a horizontal circle. The speed is then doubled without changing the length of the string. Afterward the magnitude of the acceleration of the stone is:

A) the same
B) twice as great
C) four times as great
D) half as great
E) one-fourth as great
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35
An airplane is flying north at 500 km/h. It makes a gradual 180 °\degree turn at constant speed, changing its direction of travel from north through east to south. The process takes 40 s. The average acceleration of the plane for this turn in km/h.s is:

A) 12.5 km/h.s, north
B) 12.5 km/h.s, east
C) 12.5 km/h.s, south
D) 25 km/h.s, north
E) 25 km/h.s, south
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36
A car rounds a 20-m radius curve at 10 m/s. The magnitude of its acceleration is:

A) 0
B) 0.20 m/s2
C) 5.0 m/s2
D) 40 m/s2
E) 400 m/s2
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37
A stone is tied to a 0.50-m string and whirled at a constant speed of 4.0 m/s in a vertical circle. Its acceleration at the top of the circle is:

A) 9.8 m/s2, up
B) 9.8 m/s2, down
C) 8.0 m/s2, down
D) 32 m/s2, up
E) 32 m/s2, down
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38
An airplane makes a gradual 90 °\degree turn while flying at a constant speed of 200 m/s. The process takes 20.0 seconds to complete. For this turn the magnitude of the average acceleration of the plane is:

A) zero
B) 40 m/s2
C) 20 m/s2
D) 14 m/s2
E) 10 m/s2
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39
An object is moving on a circular path of radius π\pi meters at a constant speed of 4.0 m/s. The time required for one revolution is:

A) 2/ π\pi 2 s
B) π\pi 2/2 s
C) π\pi /2 s
D) π\pi 2/4 s
E) 2/ π\pi s
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40
Two objects are traveling around different circular orbits with constant speed. They both have the same acceleration but object A is traveling twice as fast as object B. The orbit radius for object A is _______ the orbit radius for object B.

A) one-fourth
B) one-half
C) the same as
D) twice
E) four times
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41
A boat is traveling upstream at 14 mph with respect to a river that is flowing at 6 mph (with respect to the ground). A man runs directly across the boat, from one side to the other, at 6 mph (with respect to the boat). The speed of the man with respect to the ground is:

A) 10 mph
B) 14 mph
C) 18.5 mph
D) 21 mph
E) 26 mph
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42
A girl wishes to swim across a river to a point directly opposite as shown. She can swim at 2 m/s in still water and the river is flowing at 1 m/s. At what angle θ\theta with respect to the line joining the starting and finishing points should she swim? <strong>A girl wishes to swim across a river to a point directly opposite as shown. She can swim at 2 m/s in still water and the river is flowing at 1 m/s. At what angle \theta with respect to the line joining the starting and finishing points should she swim? </strong> A) 30 \degree B) 45 \degree C) 60 \degree D) 63 \degree E) 90 \degree

A) 30 °\degree
B) 45 °\degree
C) 60 °\degree
D) 63 °\degree
E) 90 °\degree
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43
A boy wishes to row across a river in the shortest possible time. He can row at 2 m/s in still water and the river is flowing at 1 m/s. At what angle θ\theta should he point the bow (front) of his boat? <strong>A boy wishes to row across a river in the shortest possible time. He can row at 2 m/s in still water and the river is flowing at 1 m/s. At what angle \theta should he point the bow (front) of his boat? </strong> A) 30 \degree B) 45 \degree C) 60 \degree D) 63 \degree E) 90 \degree

A) 30 °\degree
B) 45 °\degree
C) 60 °\degree
D) 63 °\degree
E) 90 °\degree
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44
A ferry boat is sailing at 12 km 30 °\degree W of N with respect to a river that is flowing at 6.0 km/h E. As observed from the shore, the ferry boat is sailing:

A) 30 °\degree E of N
B) due N
C) 30 °\degree W of N
D) 45 °\degree E of N
E) none of these
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45
A Ferris wheel with a radius of 8.0m makes 1 revolution every 10 s. When he is at the top, essentially a diameter above the ground, he releases a ball. How far from the point on the ground directly under the release point does the ball land?

A) 0
B) 1.0 m
C) 8.0 m
D) 9.1 m
E) 16 m
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46
A boat is able to move through still water at 20 m/s. It makes a round trip to a town 3.0 km upstream. If the river flows at 5 m/s, the time required for this round trip is:

A) 120 s
B) 150 s
C) 200 s
D) 300 s
E) 320 s
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47
A motor boat can travel at 10 km/h in still water. A river flows at 5 km/h west. A boater wishes to cross from the south bank to a point directly opposite on the north bank. At what angle must the boat be headed?

A) 27 °\degree E of N
B) 30 °\degree E of N
C) 45 °\degree E of N
D) 60 °\degree E of N
E) depends on the width of the river
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