4 linear motion 1. motion of an object is described by its position, speed, direction, and...
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4 Linear Motion
1. Motion of an object is described by its position,
speed, direction, and acceleration.
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4 Linear Motion
2) MKS units areMeters,
Kilograms Seconds
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4 Linear Motion
3. Initial means “first” or “starting”
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4 Linear Motion
“delta” means “the change in”
5. = final – initial
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4 Linear Motion
6. wrt means “with respect to”
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4 Linear Motion
7. fixed means constant, unchanging.
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4 Linear Motion
When is an object moving?
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4 Linear Motion
8. An object is moving when its position changes relative to a fixed point.
4.1 Motion Is Relative
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4 Linear Motion
Vectors and Scalars
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4 Linear Motion
9 . Vectors or vector quantities
have magnitude and direction
10.Scalars or scalar quantities
have only magnitude
4.1 Motion Is Relative
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4 Linear Motion
11. Magnitude means size
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4 Linear Motion
12. Distance means total path length an object travels
13.Displacement means
final position minus initial position
4.1 Motion Is Relative
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4 Linear Motion
14. In symbols Displacement =xor y
4.1 Motion Is Relative
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4 Linear Motion
Travel around perimeter:
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4 Linear Motion
Travel around perimeter:
from A B
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4 Linear Motion
Travel around perimeter:
from A BC
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4 Linear Motion
Travel around perimeter:
from A BC D
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4 Linear Motion
Travel around perimeter:
from A BCDA
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4 Linear Motion
Distance = path length =
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4 Linear Motion
Distance = path length =28 m
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4 Linear Motion
Distance = path length =28 m
Displacment = 0
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4 Linear Motion
15) Distance is a scalar and
Displacement is a vector
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4 Linear Motion
16. Motion is relative: we always describe motion
relative to something else
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4 Linear Motion
17. Usually we measure motion relative Earth’s surface
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4 Linear Motion
How can you tell if an object is moving?
4.1 Motion Is Relative
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4 Linear Motion
http://www.youtube.com/watch?v=oRBchZLkQR0
http://www.youtube.com/watch?v=KLd-rJMoeko
http://www.youtube.com/watch?v=xMF2CfYLomY
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4 Linear Motion
18. Speed = distance
time
v = d
t
4.2 Speed
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4 Linear Motion
19. Before Galileo,
people described motion
as “slow” or “fast.”
4.2 Speed
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4 Linear Motion
20.Galileo was the first to calculate speed
21. Speed is how fast an object moves
4.2 Speed
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4 Linear Motion
22. MKS units of speed meters/second = m/sec .
v = d t
4.2 Speed
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4 Linear Motion
4.2 Speed
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4 Linear Motion
Instantaneous Speed
23. Instantaneous speed is the speed at an instant of time
24. Speedometer measures instantaneous speed.
4.2 Speed
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4 Linear Motion
The speedometer gives readings of instantaneous speed in both mi/h and km/h.
4.2 Speed
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4 Linear Motion
Average Speed
25. average speed
= total distance total time.
4.2 Speed
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4 Linear Motion
Is average speed the same as instantaneous speed?
4.2 Speed
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4 Linear Motion
REARRANGE equation: v = d/t
26. HOW FAR: total distance d
= average speed X total time
d = v • t
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4 Linear Motion
27. Odometer measures how far an object travels.
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4 Linear Motion
How can you calculate speed?
4.2 Speed
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4 Linear Motion
28. Velocity is speed in a specific direction.
4.3 Velocity
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4 Linear Motion
29. MKS units of Velocity : m/sec
4.3 Velocity
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4 Linear Motion
30. Velocity is
the rate of change of position
V = x t
4.3 Velocity
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4 Linear Motion
31. Rate always means wrt time
4.3 Velocity
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4 Linear Motion
32. Speed is a scalar;
and Velocity is a vector.
4.3 Velocity
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4 Linear Motion
Constant Velocity
33. Constant velocity means traveling in a straight line
at constant speed.
4.3 Velocity
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4 Linear Motion
Changing Velocity
34. Velocity changes
if
speed changes
or direction changes
or both change .
4.3 Velocity
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4 Linear Motion
The car on the circular track may have a constant speed but not a constant velocity, because its direction of motion is changing every instant.
4.3 Velocity
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4 Linear Motion
How is velocity different from speed?
4.3 Velocity
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4 Linear Motion
35. Acceleration = change in velocitytime interval
a = V T
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4 Linear Motion
36. Acceleration is the rate of change of velocity.
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4 Linear Motion
37. Acceleration means decreases or increases in velocity.
38. Decreased acceleration is called deceleration.
4.4 Acceleration
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4 Linear Motion
37. Acceleration means decreases OR increases in velocity.
38. Deceleration = decreased acceleration
The brakes of a car cause deceleration.
4.4 Acceleration
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4 Linear Motion
Change in Direction
39 . Acceleration is
a vector quantity because it depends on direction
4.4 Acceleration
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4 Linear Motion
Change in Direction
40. REMEMBER• Speed and velocity are NOT the same. • Acceleration is the rate of change of velocity,
NOT speed. • Acceleration is a vector quantity because it
has direction .
4.4 Acceleration
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4 Linear Motion
41. Speed up: Accelerate in the same direction as velocity
vectors:
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4 Linear Motion
41. Speed up: Accelerate in the direction of velocity
42. Slow down: Accelerate against direction of velocity
4.4 Acceleration
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4 Linear Motion
41. Speed up: Accelerate in the direction of velocity
42. Slow down: Accelerate against velocity
43: Change direction: Accelerate at an angle to velocity
4.4 Acceleration
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4 Linear Motion
Velocity units: meters/second = m/sec
44. MKS Acceleration units : meters/second = m/sec2
second
4.4 Acceleration
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4 Linear Motion
How do you calculate acceleration?
4.4 Acceleration
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4 Linear Motion
45. Free fall assumptions:A) no air resistanceB) only gravity force affects motion of object
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4 Linear Motion
46. Projectile = Object in free fall
47. Trajectory = path of projectile
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4 Linear Motion
Falling Objects
48. Time t is the time elapsed since projectile began to move.
4.5 Free Fall: How Fast
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4 Linear Motion
49. Every second of free fall: instantaneous speed of object increases by ~ 10m /sec .
V = 10 t
4.5 Free Fall: How Fast
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4 Linear Motion
50. Acceleration of free fall =g
g 10 m sec2
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4 Linear Motion
51. g is “acceleration due to gravity”
52. g is NOT called “gravity”
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4 Linear Motion
53. For more precise calculations
use g = 9.8 m/sec2
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4 Linear Motion
54. HOW FAST: Instantaneous speed in free fall
v = gt
v = 10 t
4.5 Free Fall: How Fast
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4 Linear Motion
4.5 Free Fall: How Fast
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4 Linear Motion
55. Average projectile speed = Vavg
Vavg = initial speed + final speed
2
Vavg = Vf + Vi
2
4.5 Free Fall: How Fast
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4 Linear Motion
Rising Objects
56. A projectile thrown straight up: • slows as it travels up . • stops momentarily • free falls back down
4.5 Free Fall: How Fast
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4 Linear Motion
57. When projectile travels up:
a) Velocity is ↑ acceleration= g ↓
b) Velocity DECREASES 10 m/sec every second
4.5 projectile moving straight up
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4 Linear Motion
58. At highest point in trajectory,
velocity = 0 acceleration = g↓.
4.5 projectile moving straight up:
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4 Linear Motion
59. when traveling back down,
a) velocity ↓ ; acceleration =g ↓ .
b) velocity increases in 10 m/sec ↓every second
4.5 projectile moving straight up:
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4 Linear Motion
60. The change in speed in each second
is the same
going up or down
4.5 Free Fall: How Fast
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4 Linear Motion
What is the acceleration of an object in free fall?
4.5 Free Fall: How Fast
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4 Linear Motion
61. Every second in free fall, a projectile falls further than it did the previous second.
4.6 Free Fall: How Far
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4 Linear Motion
62. HOW FAR: distance a projectile free falls :
d =½ gt2 = ½ [10]t2 =5 t2
d = 5t2
4.6 Free Fall: How Far
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4 Linear Motion
4.6 Free Fall: How Far
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4 Linear Motion
63. Galileo derived these kinematics equations
experimentally
v = at = 10 t and d = ½ at2 = 5t2
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4 Linear Motion
64. Summary free fall on Earth a = g= 10 m/sec2
how fast: v = at = 10 t how far: d = ½ at2 = 5t2
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4 Linear Motion
For a falling object, how does the distance per second change?
4.6 Free Fall: How Far
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4 Linear Motion
65. Graphs visually describe relationships.
4.7 Graphs of Motion
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4 Linear Motion
66. In motion graphs, time is ALWAYS
on the x-axis
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4 Linear Motion
67. On a speed-versus-time graph [v-t graph]
the slope represents acceleration.
68. On a v-t graph, the area under the curve equals the total distance traveled.
4.7 Graphs of Motion graphing free fall
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4 Linear Motion
V-t graph: slope = acceleration
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4 Linear Motion
![Page 86: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/86.jpg)
4 Linear Motion
![Page 87: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/87.jpg)
4 Linear Motion
V-t graph: area under curve = displacement
![Page 88: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/88.jpg)
4 Linear Motion
V-t graph: area under curve = displacement
Area of triangle =
½ b h
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4 Linear Motion
area under curve:=½ base X height
=½ [5 sec][50 m/sec]
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4 Linear Motion
area under curve:=½ base X height
=½ [5 sec][50 m/sec]= 125 m
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4 Linear Motion
69. linear relationship = straight line on v-t graph
time and velocity are directly proportional
70. slope on v-t graph is constant
71. If t doubled , then v doubled
V-T graph
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4 Linear Motion
72. Displacement-Versus-Time in free fall
d-t graph
a) displacement d on Y axis
b) Time on X axis
4.7 Graphs of Motion
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4 Linear Motion
73. The d –t graph of free fall is parabolic.
4.7 Graphs of Motion
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4 Linear Motion
74. The relationship between distance and time is nonlinear.
The relationship is quadratic and the curve is parabolic
75. when t doubled, d is quadrupled. Distance depends on time squared!
4.7 Graphs of Motion
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4 Linear Motion
76. The slope of the curved line is different at different points.
77. The slope on a d-t graph is velocity, the rate at which displacement is covered per unit of time.
78. The slope is steeper as time passes. This shows that speed increases with time.
4.7 Graphs of Motion
![Page 96: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/96.jpg)
4 Linear Motion
What does a slope of a speed-versus-time graph represent?
4.7 Graphs of Motion
![Page 97: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/97.jpg)
4 Linear Motion
79. Air resistance is friction experienced by object in movement wrt air
4.8 Air Resistance and Falling Objects
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4 Linear Motion
80. Air resistance noticeably slows the motion of objects with large surface areas like falling feathers or pieces of paper.
81. But air resistance is less noticeable on more compact objects like marbles and baseballs.
4.8 Air Resistance and Falling Objects
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4 Linear Motion
82. If there is no air resistance, all objects free fall at same rate.
4.8 Air Resistance and Falling Objects
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4 Linear Motion
83. If air resistance is small, it is negligible and we ignore it in our calculations.
4.8 Air Resistance and Falling Objects
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4 Linear Motion
How does air resistance affect falling objects?
4.8 Air Resistance and Falling Objects
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4 Linear Motion
Acceleration is the rate at which velocity itself changes.
4.9 How Fast, How Far, How Quickly How Fast Changes
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4 Linear Motion
84. Remember
Don’t mix up “how fast” with “how far.”
• How fast is as speed: v = gt. • How far is a distance: d = 1/2gt2
4.9 How Fast, How Far, How Quickly How Fast Changes
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4 Linear Motion
85.Acceleration is not velocity, nor is it a change in velocity
Acceleration is the RATE of change of velocity.
4.9 How Fast, How Far, How Quickly How Fast Changes
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4 Linear Motion
What is the relationship between velocity and acceleration?
4.9 How Fast, How Far, How Quickly How Fast Changes
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4 Linear Motion
1. Jake walks east through a passenger car on a train that moves 10 m/s in the same direction. Jake’s speed relative to the car is 2 m/s. Jake’s speed relative to an observer at rest outside the train is
a. 2 m/s.
b. 5 m/s.
c. 8 m/s.
d. 12 m/s.
Assessment Questions
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4 Linear Motion
1. Jake walks east through a passenger car on a train that moves 10 m/s in the same direction. Jake’s speed relative to the car is 2 m/s. Jake’s speed relative to an observer at rest outside the train is
a. 2 m/s.
b. 5 m/s.
c. 8 m/s.
d. 12 m/s.
Answer: D
Assessment Questions
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4 Linear Motion
2. A gazelle travels 2 km in a half hour. The gazelle’s average speed is
a. 1/2 km/h.
b. 1 km/h.
c. 2 km/h.
d. 4 km/h.
Assessment Questions
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4 Linear Motion
2. A gazelle travels 2 km in a half hour. The gazelle’s average speed is
a. 1/2 km/h.
b. 1 km/h.
c. 2 km/h.
d. 4 km/h.
Answer: D
Assessment Questions
![Page 110: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/110.jpg)
4 Linear Motion
3. Constant speed in a constant direction is
a. constant velocity.
b. constant acceleration.
c. instantaneous speed.
d. average velocity.
Assessment Questions
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4 Linear Motion
3. Constant speed in a constant direction is
a. constant velocity.
b. constant acceleration.
c. instantaneous speed.
d. average velocity.
Answer: A
Assessment Questions
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4 Linear Motion
4. A vehicle undergoes acceleration when it
a. gains speed.
b. decreases speed.
c. changes direction.
d. all of the above
Assessment Questions
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4 Linear Motion
4. A vehicle undergoes acceleration when it
a. gains speed.
b. decreases speed.
c. changes direction.
d. all of the above
Answer: D
Assessment Questions
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4 Linear Motion
5. If a falling object gains 10 m/s each second it falls, its acceleration can be expressed as
a. 10 m/s/s.
b. 10 m/s2.
c. v = gt.
d. both A and B.
Assessment Questions
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4 Linear Motion
5. If a falling object gains 10 m/s each second it falls, its acceleration can be expressed as
a. 10 m/s/s.
b. 10 m/s2.
c. v = gt.
d. both A and B.
Answer: D
Assessment Questions
![Page 116: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/116.jpg)
4 Linear Motion
6. A rock falls 180 m from a cliff into the ocean. How long is it in free fall?
a. 6 s
b. 10 s
c. 18 s
d. 180 s
Assessment Questions
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4 Linear Motion
6. A rock falls 180 m from a cliff into the ocean. How long is it in free fall?
a. 6 s
b. 10 s
c. 18 s
d. 180 s
Answer: A
Assessment Questions
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4 Linear Motion
7. The slope of a speed-versus-time graph represents
a. distance traveled.
b. velocity.
c. acceleration.
d. air resistance.
Assessment Questions
![Page 119: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/119.jpg)
4 Linear Motion
7. The slope of a speed-versus-time graph represents
a. distance traveled.
b. velocity.
c. acceleration.
d. air resistance.
Answer: C
Assessment Questions
![Page 120: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/120.jpg)
4 Linear Motion
8. In a vacuum tube, a feather is seen to fall as fast as a coin. This is because
a. gravity doesn’t act in a vacuum.
b. air resistance doesn’t act in a vacuum.
c. greater air resistance acts on the coin.
d. gravity is greater in a vacuum.
Assessment Questions
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4 Linear Motion
8. In a vacuum tube, a feather is seen to fall as fast as a coin. This is because
a. gravity doesn’t act in a vacuum.
b. air resistance doesn’t act in a vacuum.
c. greater air resistance acts on the coin.
d. gravity is greater in a vacuum.
Answer: B
Assessment Questions
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4 Linear Motion
9. Speed and acceleration are actually
a. one and the same concept, but expressed differently.
b. rates of one another.
c. entirely different concepts.
d. expressions of distance traveled.
Assessment Questions
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4 Linear Motion
9. Speed and acceleration are actually
a. one and the same concept, but expressed differently.
b. rates of one another.
c. entirely different concepts.
d. expressions of distance traveled.
Answer: C
Assessment Questions
![Page 124: 4 Linear Motion 1. Motion of an object is described by its position, speed, direction, and acceleration](https://reader036.vdocuments.mx/reader036/viewer/2022062307/551b1065550346cf5a8b4ffb/html5/thumbnails/124.jpg)
4 Linear Motion
Check these calculationsv = at so a = v/t a=50 m/sec = 10 m/sec2
5 sec d = ½ gt2 = 5t2 = 5(5)5d= 125 m