Motion

1. Motion

2. Motion • Motion is the change in an object’s position (or location) relative to a reference point. • A reference point is an object that appears to stay in place. • Sometimes the change in distance from a reference point to an object can be measured. • That would make the motion of the object quantifiable. • Quantifiable: able to measured in numbers.

3. Speed • Speed is the distance traveled divided by the time interval during which the motion occurred. • Speed = Distance ÷ Time • Speed Units are always (Distance Units) ÷ (Time Units) • Miles/Hour (Mph), Feet/Second (fps), Kilometers/Hour (Kph) • Speed is always positive. • Speed does not include a direction. • This makes speed a SCALAR quantity • A SCALAR quantity is described only by a numerical value.

4. Average Speed • Most objects do not travel at a constant speed • When you are walking somewhere you will change speeds often due to many different factors, terrain, obstacles, distractions, etc. • When driving or riding in a car or other vehicle your speed will also vary due to these different factors. • This makes calculating the average speed a very useful tool. • Average Speed = Total Distance ÷ Total Time

5. Average Speed vs Instantaneous speed • Average speed is an average that can only be measured by using the formula Total Distance ÷ Total Time • Instantaneous speed is a measurement of the actual speed something is moving in “that moment” or “that instant” • Instantaneous speed is measured by using instruments like speedometers or radar guns.

6. Sample Average Speed Problems • A quarterback can throw a football 40 meters. It takes the ball 2 seconds to travel that distance. What is the Average Speed in Meters per Second? • Now the quarterback throws the ball 40 meters in 2 seconds and then the ball is intercepted and runback 10 meters in another 2 seconds. What is the average speed of the ball now?

7. Distance Vs Time on a Graph

8. Velocity • Velocity is the speed of an object in a specific direction. • Velocity is a VECTOR quantity. • This means that velocity is described using a numerical value and a direction. • Velocity can be negative or positive. • Velocity units are the same as speed units only with a direction added in. • Mph north, Kilometers per hour south, fps up, meters per second down, etc. • An objects velocity will change if either its speed or its direction changes.

9. http://www.youtube.com/watch?v=GKQdkS0qG3g

10. Accleration • Acceleration is the rate at which velocity changes. • Acceleration occurs if an object’s speed, direction, or both its speed and direction change. • Acceleration can be positive or negative. • When an object’s velocity increases it is considered to be a positive acceleration. • When an object’s velocity decreases it is considered to be a negative acceleration or deceleration. • Acceleration is also a measure of how fast an object’s velocity changes. • The faster an object’s velocity changes the greater the acceleration is.

11. Calculating acceleration • Average Acceleration = (Final Velocity – Starting Velocity) ÷ Time it takes to change velocity Average Acceleration is expressed as meters per second per second which can be written as A Honda Accord can accelerate from 0 mph to 60 mph in 10.9 seconds. What is the average acceleration of the car?

12. More practice • A runner finishes the last stretch of a race in 4 seconds. During that time the runner sped up from 5 m/s to 9 m/s. What was the runners acceleration during the last stretch of the race? • After crossing the finish line the same runner takes five seconds to come to a complete stop. What is the acceleration of the runner from the time he crossed the finish line until he came to a complete stop?