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 Define the term motion.  Give an example of something in motion.  How do we know an object is in motion?  How do we know if we are in motion even.

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Presentation on theme: " Define the term motion.  Give an example of something in motion.  How do we know an object is in motion?  How do we know if we are in motion even."— Presentation transcript:

1  Define the term motion.  Give an example of something in motion.  How do we know an object is in motion?  How do we know if we are in motion even if our eyes are closed?

2  How does a speed-o-meter tell how fast a car is going?  How can you tell how fast a sprinter runs?  770-312-5976  Online Accounts  Help! S-10

3 SPS8 Students will determine relationships among force, mass, and motion. a. Calculate velocity and acceleration.

4 What is needed to describe motion completely? How are distance and displacement different? How do you add displacements?

5  How do we know an object is moving?  Frame of reference  Motion is always relative (compared to) something  That something is called the Frame of Reference for us usually the earth)

6  How do we know an object is moving?  Frame of reference  We choose a frame that makes sense.  Using the ground as a frame, the ball is moving forward  Using the truck as a frame of reference, the ball goes up then back down

7  Distance – the length of a path between two points  Displacement – straight line distance (and direction) between the start and end  Example: Travel 3.5 miles south

8 PHET Vector Addition PHET Vector Addition  Adding Displacements (vector addition)  Vector – has number value and direction  If the vectors aren’t in a straight line, then we have to use trigonometry to add the vectors

9  A walrus scoots 10 m east, then 2 m west, what is his displacement?  The same walrus scoots 10 m north, then 2 m west, what is his displacement? S-11

10 How are instantaneous speed and average speed different? How can you find the speed from a distance-time graph? How are speed and velocity different? How do velocities add?

11 SR-71 Blackbird Speed: 2070 mph or 920 m/s  Speed – ratio of distance to time  Measured in meters per second (m/s)  Average Speed  Example: A car travels 25 km in 0.2 hours, then 45 km in 0.3 hours. What is the average speed?  Total distance and then total distance

12  Practice: A person jog 400 meters in 192 seconds, then 200 meters in 132 seconds, and finally 100 meters in 96 seconds. What is the joggers speed?

13  Practice: A train travels 190 kilometers in 3.0 hours, and then 120 kilometers in 2.0 hours. What is its average speed?

14  The fastest car in the world travels at 339.127 m/s. How long would it take to go 4 km? (4000 m) S-12

15  Daniel Ling ran the fastest marathon ever (42km or 42,000 m) in a time of 2 hours, 46 minutes and 31 seconds (9991S).  A. What was his average speed?  B. At that pace, how long would it take to cover a football field (92 m) S-13

16  A speedometer does not measure average speed, it measures instantaneous speed.

17  A distance time graph can be used to determine speed.  The slope of the graph (distance divided by time) is average speed Gizmo Distance vs. Time

18  Velocity – speed in a direction (vector)  Velocity changes with either  A change in speed  A change in direction  Velocity is added by vector addition (like displacement)

19  The green sea turtle can run up to 6.22 m/s.  A. How far would a green sea turtle get running for 118 s?  B. How long would it take a green sea turtle to run a marathon (42,000m)? S-14

20  The fastest animal in the world is a Cheetah. They can run 100 m in 3.21s.  A. What is the speed of a Cheetah?  B. How long would it take a Cheetah to run a 40m dash? S-15

21 How are changes in velocity described? How can you calculate acceleration? How does a speed-time graph indicate acceleration? What is instantaneous acceleration?

22  Acceleration is a change in velocity, so  Change in speed ▪ Either getting faster ▪ Or getting slower  Change in direction ▪ Turning  Measured in meters per second squared (m/s 2 )

23  Calculating Acceleration – divide the change in velocity (speed) by the total time  Example: A ball rolls down a ramp, starting from rest. 4 seconds later, it’s velocity is 13 m/s. What is the acceleration of the ball?  First, what is the initial velocity?  0 m/s

24  Practice Problem 1  A car traveling at 10 m/s slows down to 3 m/s in 20 seconds. What is the acceleration?

25  Practice Problem 2  An airplane travels down a runway for 4.0 seconds with an acceleration of 9.0 m/s 2. What is its change in velocity during this time?

26  Reading a Speed-Time graph  The slope of the graph (rise over run) is the acceleration  Straight upward – positive constant acceleration  Straight downward – negative constant acceleration (slowing down)  Flat – constant speed, no acceleration  Curved – changing acceleration

27  A cat is chasing a really cute mouse.  A. If the mouse goes from 2 m/s to 11 m/s, what is his  v?  B. If it took him 4 s to speed up, what is his acceleration?  C. If he could keep up that acceleration for 120 s (2 min) how fast would he be going? S-17

28  The worlds ugliest dog is running away from home.  A. As he runs, he accelerates at 1.75 m/s 2 for 3.1s. What is his change in speed?  B. If he was originally running at 4 m/s, how fast is he running now? S-18

29 How does gravity cause acceleration?

30  Free Fall – when an object is falling under only the influence of gravity  The acceleration due to gravity on the surface of the earth is 9.80 m/s 2  So our acceleration equation becomes  Everything else is the same

31  This strange looking thing falls off a cliff and falls for 12 s. What is his change in speed? S-19 I can Calculate using the acceleration due to gravity

32  Extreme free falling could be fun – unless you forget the parachute. This man will fall for a total of 147 s. How fast would he be going if there was no air friction and he starts with a speed of 0? S-20 I can Calculate using the acceleration due to gravity

33  Problem 1  How fast will a rock dropped from the top of the empire state building be going after 8.0 seconds?

34  Bob drives his car 12 m in 3 seconds, then 25 m in 5 seconds. What is his average speed? S-21 I can Calculate using the average speed of an object.

35  A man walks 18 m east, then 24 m west. What is his displacement.  While he is walking west at 5 m/s, a car blows by him going 45 m/s west. What is the relative speed of the car compared to the man? S-22 I can calculate the displacement and relative speed of an object.

36  Have a fun test S-22 I can calculate the displacement and relative speed of an object.


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