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Types of Motion. What are the four types of motion?

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Presentation on theme: "Types of Motion. What are the four types of motion?"— Presentation transcript:

1 Types of Motion

2 What are the four types of motion?

3 Types of Motion Stationary ▫no motion Constant Velocity ▫moving at a constant distance per second Constantly changing velocity ▫moving with a constant acceleration Changing acceleration ▫Constant jerk ▫We don’t analyze this type of motion

4 Terminology we need: Position – your location with respect to a reference point Displacement – a change in position

5 Stationary Motion What does stationary motion involve? ▫Constant position ▫Zero displacement

6 Constant Velocity What does this mean? Ideas?

7 Average Speed The rate at which an object covers distance SCALAR quantity

8 Average Velocity The rate at which an object changes position VECTOR quantity (magnitude & direction)

9 9 Total distance = d T = 95 m Displacement = Δd = 55 m [L] 1. Find the person’s average speed. 2. Find the person’s average velocity. (m)

10 10 Total distance = d T = 420 m Displacement = Δd = 140 m [R] Determine the skier’s average speed. Determine the skier’s average velocity.

11 11 Your Turn! 1.A car is driven at 100.0 km/h [W] for 45 minutes, then 90.0 km/h [E] for 75 minutes, and then at 80.0 km/h [W] for 65 minutes. a.Draw (up to scale) vectors to represent the velocity for each interval b.Determine the displacement at each interval and total displacement; c.compare displacement to the total distance travelled d.what’s the average speed for the trip and the average velocity for the trip [displ tot =48.9km[W]] [dist tot =274km] [89.0km/h, 15.9km/h[W]]

12 And Again… 2.An animal runs for a total time of one minute and 10 seconds. It runs at 8.0 m/s [R] for 15 s, and then 4.5 m/s [L] for 40 s. It then runs to the Right for the rest of the trip. a.Draw a vector diagram to represent the animal’s position during each interval. b.If its average velocity for the entire trip was 0.43 m/s [R], find its displacement during the final leg of the trip. (d 1 = 120m[R], d 2 =180m[L], d tot =30m[R], d 3 =90m[R]) 12

13 And Finally… 3.A person runs at a constant speed once around a circular track as shown to the right. The total time taken for one revolution is 105 seconds. FIND a.The average speed for the trip [5.9m/s] b.The average velocity for the trip[0m/s] c.The average velocity from B to D[3.8m/s[L]] 13

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