1. Chapter: Motion and Momentum Table of Contents Section 3: MomentumMomentum Section 1: What is Motion? Section 2: AccelerationAcceleration

2. All matter in the universe is constantly in motion, from the revolution of Earth around the Sun to electrons moving around the nucleus of an atom. Matter and Motion 1 1 What is Motion?

3. Something is in motion if it is changing position. Changing Position What is Motion? It could be a fast-moving airplane, a leaf swirling in the wind, or water tricking from a hose. When an object moves from one location to another, it is changing position. 1 1

4. The runners sprint from the start line to the finish line. Changing Position What is Motion? Their positions change, so they are in motion. 1 1

5. An object changes position if it moves relative to a reference point. Relative Motion What is Motion? Picture yourself competing in a 100-m dash. You begin just behind the start line. When you pass the finish line, you are 100 m from start line. 1 1

6. If the start line is your reference point, then your position has changed by 100 m relative to the start line, and motion has occurred. Relative Motion What is Motion? 1 1

7. Displacement includes the distance between the starting and ending points and the direction in which you travel. Distance and Displacement What is Motion? This figure shows the difference between distance and displacement. 1 1

8. Speed is the distance traveled divided by the time taken to travel the distance. Speed What is Motion? Speed can be calculated from this equation: 1 1

9. In SI units, distance is measured in m and time is measured in s. Speed What is Motion? As a result, the SI unit of speed is the m/s— the SI distance unit divided by the SI time unit. 1 1

10. Average speed is found by dividing the total distance traveled by the time taken. Average Speed What is Motion? An object in motion can change speeds many times as it speeds up or slows down. 1 1

11. The speed of an object at one instant of time is the object’s instantaneous speed. Average Speed What is Motion? If it takes you 0.5 h to walk 2 km to the library, your average speed would be as follows: 1 1

12. Average speed, instantaneous speed, and constant speed are illustrated here. Average Speed What is Motion? 1 1

13. You can represent the motion of an object with a distance-time graph. Graphing Motion What is Motion? For this type of graph, time is plotted on the horizontal axis, and distance is plotted on the vertical axis. 1 1

14. Look at the graph. Distance-Time Graphs and Speed What is Motion? 1 1 According to the graph, after 1 s student A traveled 1 m. Student B, however, traveled only 0.5 m in the first second.

15. So student A traveled faster than student B. Distance-Time Graphs and Speed What is Motion? 1 1 The line representing the motion of student A is steeper than the line for student B.

16. A steeper line on the distance-time graph represents a greater speed. Distance-Time Graphs and Speed What is Motion? 1 1 A horizontal line on the distance-time graph means that no change in position occurs.

17. If you are hiking in the woods, you want to know not only your speed, but also the direction in which you are moving. Velocity What is Motion? 1 1

18. The velocity of an object is the speed of the object and direction of its motion. Velocity What is Motion? 1 1 This is why a compass and a map are useful to hikers.

19. Velocity has the same units as speed, but it also includes the direction of motion. Velocity What is Motion? 1 1 The velocity of an object can change if the object’s speed changes, its direction of motion changes, or they both change.

20. Acceleration and Motion Acceleration is the change in velocity divided by the time it takes for the change to occur. Acceleration has a direction. If an object speeds up, the acceleration is in the direction that the object is moving. 2 2 Acceleration

21. Acceleration and Motion If an object slows down, the acceleration is opposite to the direction that the object is moving. If the direction of the acceleration is at an angle to the direction of motion, the direction of motion will turn toward the direction of the acceleration. 2 2 Acceleration

22. Speeding Up When an object that is already in motion speeds up, it also is accelerating. When the speed of an object increases, it is accelerating. 2 2 Acceleration The toy car is accelerating to the right. Its speed is increasing.

23. Slowing Down Acceleration occurs when an object slows down, as well as when it speeds up. The car is slowing down. 2 2 Acceleration During each time interval, the car travels a smaller distance, so its speed is decreasing.

24. Changing Direction Motion is not always along a straight line. If the acceleration is at an angle to the direction of motion, the object will turn. 2 2 Acceleration At the same time, it might speed up, slow down, or not change speed at all.

25. Changing Direction Motion is not always along a straight line. If the acceleration is at an angle to the direction of motion, the object will turn. 2 2 Acceleration At the same time, it might speed up, slow down, or not change speed at all.

26. Calculating Acceleration If an object is moving in a straight line, its acceleration can be calculated using this equation. 2 2 Acceleration In SI units, acceleration has units of meters per second squared (m/s 2 ).

27. Positive and Negative Acceleration 2 2 Acceleration So subtracting your initial speed from your final speed gives a positive number. As a result, your acceleration is positive when you are speeding up. When you speed up, your final speed always will be greater than your initial speed.

28. Positive and Negative Acceleration When your final speed is less than your initial speed, your acceleration is negative. 2 2 Acceleration Therefore, your acceleration is negative when you slow down.

29. Graphing Accelerated Motion The motion of an object that is accelerating can be shown with a graph. 2 2 Acceleration For this type of graph, speed is plotted on the vertical axis and time on the horizontal axis.

30. Graphing Accelerated Motion An object that is speeding up will have a line on a speed-time graph that slopes upward. 2 2 Acceleration An object that is slowing down will have a line on a speed-time graph that slopes downward. A horizontal line on the speed-time graph represents an acceleration of zero or constant speed.

31. Mass and Inertia The mass of an object is the amount of matter in the object. In SI units, the unit for mass is the kilogram. 3 3 Momentum The weight of an object is related to the object’s mass.

32. Mass and Inertia Objects with more mass weigh more than objects with less mass. However, the size of an object is not the same as the mass of the object. 3 3 Momentum

33. Mass and Inertia The more mass an object has, the harder it is to start it moving, slow it down, speed it up, or turn it. This tendency of an object to resist a change in its motion is called inertia. 3 3 Momentum Objects with more mass have more inertia.

34. Momentum The momentum of an object is a measure of how hard it is to stop the object, and it depends on the object’s mass and velocity. Momentum is usually symbolized by p. 3 3 Momentum

35. Mass is measured in kilograms and velocity has units of meters per second, so momentum has units of kilograms multiplied by meters per second (kg. m/s). Momentum has a direction that is the same as the direction of the velocity. 3 3 Momentum

36. Conservation of Momentum According to the law of conservation of momentum, the total momentum of objects that collide is the same before and after the collision. This is true for the collisions of billiard balls, as well as for collisions of atoms, cars, football players, or any other matter. 3 3 Momentum

37. Using Momentum Conservation There are many ways that collisions can occur. Sometimes, the objects that collide will bounce off of each other. 3 3 Momentum In other collisions, objects will stick to each other after the collisions. In both of these types of collisions, the law of conservation of momentum enables the speeds of the objects after the collisions to be calculated.

38. Sticking Together Imagine being on skates when someone throws a backpack to you. Before the student on skates and the backpack collide, she is not moving. 3 3 Momentum

39. Sticking Together 3 3 Momentum

40. Sticking Together Suppose a 2-kg backpack is tossed at a speed of 5 m/s. 3 3 Momentum Your mass is 48 kg, and initially you are at rest. Then the total initial momentum is:

41. Sticking Together After the collision, the total momentum remains the same, and only one object is moving. 3 3 Momentum You can use the equation for momentum to find the final velocity.

42. Colliding and Bouncing Off Suppose two identical objects moving with the same speed collide head on and bounce off. 3 3 Momentum Before the collision, the momentum of each object is the same, but in opposite direction. So the total momentum before the collision is zero. Click image to view movie.

43. Colliding and Bouncing Off If momentum is conserved, the total momentum after the collision must be zero also. 3 3 Momentum This means that the two objects must move in opposite directions with the same speed after the collision.