Which car/s is/are undergoing an acceleration?
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1
2 Which car/s is/are undergoing an acceleration?
3 Which car experiences the greatest acceleration?
4 Match a Graph Consider the position-time graphs below. Each one of the 3 lines on the position-time graph corresponds to the motion of one of the 3 cars. Match the appropriate line to the particular color of car.
5
6 Position vs Time Graphs position (x) vs time (t) graphs plot position as a function of time the x-t graph of a constantly moving object is linear
7 If an object is staying in the same position for a time interval than it s at rest. stopped. not moving. still. Represented by a horizontal line on a position vs time graph
8 velocity- displacement traveled in a certain amount of time; a vector quantity can be constant or average constant velocity- velocity that does not change
9 Constant Velocity
10 Constant Velocity Questions: 1. What is slope? 2. What is the formula for slope? 3. Use the slope formula to determine the slope of the line. 4. What do you notice?
11 Constant Velocity Conclusions: 1. the slope of a position vs time graph is the velocity 2. m = rise = y = position = v run x time
12
13 Questions: 1. Where does the graph have positive slope? 2. What does this positive slope mean? 3. Where does the graph have negative slope? 4. What does this negative slope mean? 5. Is there any place(s) on the graph where the object is not moving? 6. How do you know? 7. What is the slope of the graph at this section?
14 Average Speed vs Average Velocity Velocity is not the same as speed. average velocity- the change in position divided by the time it took for that change to occur; a ratio of an object s change in position (displacement) to the time it takes for that change to occur v avg = distance traveled time of travel v avg = x t
15 Speed or Velocity? speed & velocity are different quantities speed is the rate distance covered over time speed is a scalar quantity velocity is the rate displacement traveled over time velocity is a vector quantity speed & velocity equal magnitudes when an object does not change direction
16 Average Velocity Consider a car moving with a constant velocity of +10 m/s for 5 seconds. The diagram below depicts such a motion.
17 Average Velocity The position-time graph would look like the graph below:
18 Average Velocity Now consider a car moving at a constant velocity of +5 m/s for 5 seconds, abruptly stopping, & then remaining at rest (v = 0 m/s) for 5 seconds. How would this graph look?
19 Average Velocity Check your answer
20 Average Velocity
21 Instantaneous Speed speed at any given point in time
22 Can I use one point to find velocity? Important Note: DO NOT use one point to calculate velocity on a position-time graph!!!
23 Example 2 Drawing Graphs from Graphs Use the position vs time below to draw a velocity vs time graph.
24 Velocity (m/s) Solution Velocity vs Time Time (s)
25
26 Position vs Time Graphs the x-t graph of a constantly moving object is linear
27 Position vs Time Graphs the slope of an x-t graph is rise (position) over run (time) for an x-t graph, m = x t
28 Position vs Time Graphs the change in position of an object is displacement, x the rate change in position of an object over an interval of time (the time it takes for the change to occur) is called average velocity, v avg v avg = x t
29 Position vs Time Graphs
30 Position vs Time Graph
31 Position vs Time Graphs the slope of an x-t graph describes the velocity of an object in motion Slow, Rightward(+) Constant Velocity Fast, Rightward(+) Constant Velocity
32 Position vs Time Graphs the slope of an x-t graph describes the velocity of an object in motion Slow, Leftward(-) Constant Velocity Fast, Leftward(-) Constant Velocity
33 Position vs Time Graphs
34 Position vs Time Graphs Quadrant I
35 Position vs Time Graphs Quadrant IV
36
37 Velocity vs Time Graphs a velocity (v) vs time (t) graph plots velocity as a function of time the v-t graph of a constantly moving object is a horizontal line remember, horizontal lines have zero slope
38 Velocity vs Time Graphs the v-t graph of an object moving at a changing rate is a diagonal line the velocity is changing by a constant rate
39
40 Constant, Uniform Acceleration Bessie took a trip on her bicycle. The data of Bessie s bike ride below, along with its accompanying graph, is shown. Use the graph to answer the questions that follow:
41 Constant, Uniform Acceleration Questions: 1. What do you notice about this position vs time graph? 2. What does that mean?
42 Constant, Uniform Acceleration Now, here is the data, along with the resulting velocity vs time graph, of the same bike ride.
43 Constant, Uniform Acceleration Questions: 1.What can you say about the slope of this graph? 2.What does that mean?
44 Constant, Uniform Acceleration Conclusions: If an object has constant velocity, then that object has zero acceleration. Constant velocity Δv equals zero. The graph of zero acceleration is a horizontal line. All horizontal lines have zero slope because Δy equals zero.
45 Velocity vs Time Graphs the slope of a v-t graph describes changing velocity over time m = v t
46 Velocity vs Time Graphs the rate at which velocity changes over an interval time is known as acceleration, a avg mathematically, a avg = v t
47 Velocity vs Time Graphs the slope of a v-t graph describes the acceleration of the object in motion Positive Velocity Positive Acceleration
48 Velocity vs Time Graphs units of acceleration: m/s/s, m/s 2 acceleration is a vector quantity acceleration describes a change in velocity in the positive direction acceleration also describes a change in direction deceleration (negative acceleration) describes a change in velocity in the opposite direction
49 Velocity vs Time Graphs
50 Velocity vs Time Graphs
51 Velocity vs Time Graphs
52 Velocity vs Time Graphs
53 Example 2 Drawing Graphs from Graphs Use the position vs time below to draw a velocity vs time graph.
54 Velocity (m/s) Solution 12 Velocity vs Time Time (s)
55 Acceleration (m/s 2 ) Solution 12 Acceleration vs Time Time (s)
56 Constant, Uniform Acceleration velocity changes by the same rate ex: a ball rolling down a ramp
57 Constant, Uniform Acceleration
58 Constant, Uniform Acceleration Questions: 1. What is slope? 2. What is the formula for slope? 3. Use the slope formula to determine the slope of the line. 4. What do you notice?
59 Constant, Uniform Acceleration Conclusions: 1. the slope of a velocity vs time graph is acceleration 2. m = rise = y = velocity = a run x time
60 Constant, Uniform Acceleration
61
62 Lines That Intersect Sometimes, a problem will ask you to compare/contrast the motion of 2 objects. To do this, use the information provided in the problem to construct a position vs time graph. Then, use the graph to compare/contrast the 2 objects motions.
63 Lines That Intersect
64 What do the 2 cars have in common?
65 Do they ever share the same velocity?
66
67
68 Distance (Miles) Using Tangent Lines What does the following graph show? 200 Draw a straight line that is tangent to the curve What does tangent mean? Tim e (hours)
69 Position (m) Position vs Time Time (s)
70 Distance (Miles) Using Tangent Lines What does this graph show? Tim e (hours)
71 Constant Acceleration vs Constant Velocity
72
73 position vs time graph with increasing speed & its resulting velocity vs time graph: positive slope positive acceleration
74 position vs time graph with decreasing speed & its resulting velocity vs time graph: negative slope negative acceleration
75 Animations
76
77 Which car/s is/are undergoing an acceleration?
78 Which car experiences the greatest acceleration?
79 Match a Graph Consider the position-time graph at the right. Each one of the 3 lines on the position-time graph corresponds to the motion of one of the 3 cars. Match the appropriate line to the particular color of car.
80 Animations
81 Animations
82 Animations
83 Animations
84 Animations
85 Example: Determine what is happening at each section constant velocity deceleration increasing acceleration acceleration
86 Now, You Try Complete problems in your outline
87
88 velocity Displacement from a Velocity vs Time Graph in the given v-t graph, the area under the graph is that for a rectangle area = l* w = v (t v 2 t 1 ) = x t 1 t time 2
89 velocity Displacement from a Velocity vs Time Graph in the given v-t graph, the area under the graph is that for a rectangle v x t 1 t time 2
90
91
92
93 Example meter dash Harry gives Sam a 30. m head start in the 100. m dash. Harry can run at 10.0 m/s, while Sam only runs at 6.0 m/s.
94 Example Does Harry win?
95 Solution Draw a position vs time graph for a 100. m dash, plotting both runners. Position (m) Position vs Time Time (s)
96 Example If Harry wins, at what time & place does he catch up to Sam?
97 Solution Now, you can determine the equation of each line. Remember, the equation of a line is y = mx + b Since we are using position, time, & velocity, the equation becomes
98 Solution x = vt + b
99 Solution For Harry x H = v H t H + b H Where, v H = Harry s velocity b H = where Harry begins
100 Solution So x H = 10t
101 Solution For Sam x S = v S t S + b S Where, v S = Sam s velocity b S = where Sam begins
102 Solution So x S = 6t + 30
103 Solution Since you are looking for the point where Harry & Sam pass each other, that means the coordinates (t H, x H ) & (t S, x S ) are equal. So, set the 2 equations for each line equal to each other & solve for t.
104 Solution 10t = 6t t = 30 t = 7.5 sec
105 Solution Now, that you know at what time Harry catches up to Sam, you can calculate at what place this happens. Plug the value for time (7.5 sec) into the equation & solve for x. x H = 10t = (10.0 m/s) (7.5 s) x H = 75 m
106
107 What Does the Graph Show?
108 Now, You Try Complete problems 3-7 in your outline.
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