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Motion Physics. Picturing Motion  How do you know an object is moving?

Published byHelena Clarke Modified over 9 years ago

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Presentation on theme: "Motion Physics. Picturing Motion  How do you know an object is moving?"— Presentation transcript:

1 Motion Physics

2 Picturing Motion  How do you know an object is moving?

3 Picturing Motion  Depends on your frame of reference (f.o.r.) f.o.r. is “one’s point of view”

4 F.O.R  Example: Motion of the planet of Mars  Earth’s f.o.r. (w.r.t. “with respect to” Earth)

5 F.O.R.  Sun’s f.o.r. (w.r.t. sun)

6 F.O.R  Scenario: A car is driving down the road with 2 people standing on either side of the road. One person says the car is going left and the other person says that the car is going right. Who is correct?

7 F.O.R.  How could we change this picture so that both people agree on the motion of the car?

8 Reference Point  Reference Point: place or object used for comparison to determine the change in position of an object

9 Reference Point  Ex. You are sitting at your desk and your reference point is the ground. Are you moving relative to your reference point?  If your reference point becomes the sun, are you moving relative to your reference point?

10 How do you show motion? 1) Motion Diagram - Series of images of a moving object that shows its position after equal intervals of time

11 How do you show motion? 2) Particle model - Replacing an object with a single point Example: - Constant speed: - Speeding up: - Slowing down:

12 Motion Flip Book (12 pts.) Directions: - Cut one piece of card stock into 12 equal pieces - Keep 1 object stationary (reference point) - Have a different object moving (w.r.t.) stationary object - Add some color and be creative - Hint: lay out all 12 pieces 1st - Cut a corner and flip

13 Motion Terms  Kinematics: the study of motion and how to describe it  Scalar: physical quantity that tells you the amount of something Mass, speed, time, distance

14 Motion Terms  Vector: physical quantity that tells you the amount and direction of something Velocity, acceleration, force, displacement

15 Vector  Represented by arrows  Size of arrow gives you magnitude of a quantity  Arrow points in the direction of the motion  Ex. object speeding up

16 Motion Terms  Coordinate System: tells the zero point of the variables (origin) and in which direction the values increase

17 Motion Terms  Position: location with respect to the origin  Distance: total length of travel

18 Motion Terms  Displacement  d = d f – d i d f : final distance from origin d i : initial distance from origin Can be a negative value if d f < d i

19 Displacement vs. Distance Scenario: You walk from point B to point C, then you return back to point B. What is your distance? What is your displacement? (A is the origin) 2.1 miles4.3 miles A B C 0

20 Distance vs. Displacement  Distance = 4.3 mi + 4.3 mi = 8.6 mi  Displacement = d f – d i = 2.1mi – 2.1 mi = 0

21 Displacement vs. Distance Scenario: You walk from point B to point C, then you walk back to point A. What is your distance? What is your displacement? (A is the origin) 2.1 miles4.3 miles A B C 0

22 Distance vs. Displacement  Distance: 4.3 mi + 4.3 mi + 2.1 mi = 10.7 mi  Displacement: d f – d i = 0 – 2.1mi = - 2.1 mi

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