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2. Section 1: Measuring Motion Section 2: What Is a Force?
Module M: Chapter 1
Matter in Motion
Section 1: Measuring Motion
Section 2: What Is a Force?
Section 3: Friction: A Force That Opposes Motion
Section 4: Gravity: A Force of Attraction
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3. Measuring Motion Bellringer Section 1
Write a formal description in your science journal of your position in the classroom using a reference point and a set of reference directions. For example, you might say, “I sit three desks behind Ahmed’s desk,” or “I sit 2 m east of the vent hood and 10 m north of the emergency shower.” Then write a similar description for your home, and for an object in your room.
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4. Measuring Motion Objectives Section 1
Describe the motion of an object by using a reference point.
Identify the two factors that determine speed.
Explain the difference between speed and velocity.
Analyze the relationship between velocity and acceleration.
Demonstrate that changes in motion can be measured and represented on a graph.
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5. Observing Motion by Using a Reference Point
Section 1
Measuring Motion
Observing Motion by Using a Reference Point
What Is a Reference Point? The object that appears to stay in place is a reference point.
Common Reference Points The Earth’s surface is a common reference point for determining motion.
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6. v = d/t Measuring Motion Speed Depends on Distance and Time Section 1
Determining Average Speed Average speed equals the total distance divided by the total time.
v = d/t
Recognizing Speed on a Graph The blue line in the graph on the next slide shows the distance traveled each hour during a 4 h period.
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7. A Graph Showing Speed Section 1
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8. Velocity: Direction Matters
Section 1
Measuring Motion
Velocity: Direction Matters
Changing Velocity You can think of velocity as the rate of change of an object’s position. An object’s velocity is constant only if its speed and direction don’t change.
Velocity is speed in a particular direction
Combining Velocities The next slide shows how you can combine velocities to find the resultant velocity.
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9. Finding Resultant Velocity
Section 1
Finding Resultant Velocity
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10. Measuring Motion Acceleration Section 1
Acceleration is the rate at which velocity changes.
An object accelerates if its speed, its direction, or both change.
Calculating Average Acceleration
a = v (final) – v (initial)
t (time)
The next slide shows a cyclist with an average acceleration of 1 m/s/s south.
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11. Calculating Average Acceleration
Section 1
Calculating Average Acceleration
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12. Acceleration continued
Section 1
Measuring Motion
Acceleration continued
Recognizing Acceleration on a Graph The graph on the next slide shows the acceleration of a roller coaster.
Circular Motion: Continuous Acceleration An object traveling in a circular motion is always changing its direction. Therefore, its velocity is always changing, so it is accelerating.
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13. A Graph Showing Acceleration
Section 1
A Graph Showing Acceleration
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14. What Is a Force? Bellringer Section 2
Look around the room and think about the objects you see in terms of force. A force is always exerted by one object on another object. Then, answer the following questions in your science journal:
Where do you see a force happening in the room right now? Which object is exerting the force, and which is receiving it? What is the origin of the force, in other words where is the energy of the force coming from?
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15. What Is a Force? Objectives Section 2
Describe forces, and explain how forces act on objects.
Determine the net force when more than one force is acting on an object.
Compare balanced and unbalanced forces.
Describe ways that unbalanced forces cause changes in motion.
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16. Forces Acting on Objects
Section 2
What Is a Force?
Forces Acting on Objects
Being Pushed Around All forces act on objects. For any push to occur, something has to receive the push.
Force A force is a push or a pull acting on an object.
What is a Newton? The SI unit used to measure force is a Newton (N). F = ma so a Newton = ma. This means a Newton = kg x m/s/s.
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17. What Is a Force? Determining Net Force Section 2
Forces in the Same Direction Two forces are added to determine the net force if the forces act in the same direction. This is shown on the next slide.
Forces in Different Directions If forces are in opposite directions, the net force is found by subtracting the smaller force from the larger one.
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18. Forces in the Same Direction
Section 2
Forces in the Same Direction
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19. Balanced and Unbalanced Forces
Section 2
What Is a Force?
Balanced and Unbalanced Forces
Balanced Forces When the forces on an object produce a net force of 0 N, the forces are balanced.
Balanced forces result in no acceleration.
Unbalanced Forces When the net force on an object is not 0 N, the forces on the object are unbalanced.
Unbalanced forces cause acceleration.
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20. Friction: A Force That Opposes Motion
Section 3
Friction: A Force That Opposes Motion
Bellringer
Answer the following questions in your science journal:
When was the last time you fell down? How did it happen? Suppose you and a younger sister or brother are at a neighborhood pool. Your sister or brother asks why there are signs that say “NO RUNNING.” What would be your answer? Where else do you see such cautionary signs?
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21. Friction: A Force That Opposes Motion
Section 3
Friction: A Force That Opposes Motion
Objectives
Explain why friction occurs.
List the two types of friction,and give examples of each type.
Explain how friction can be both harmful and helpful.
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22. Friction: A Force That Opposes Motion
Section 3
Friction: A Force That Opposes Motion
The Source of Friction
Friction is a force that opposes motion.
The Effect of Force on Friction As shown on the next slide, the amount of friction depends on the force pushing the surfaces together.
The Effect of Rougher Surfaces on Friction Rough surfaces have more microscopic hills and valleys than smooth surfaces do. So, the rougher the surface is, the greater the friction is.
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23. Force and Friction Section 3
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24. Friction: A Force That Opposes Motion
Section 3
Friction: A Force That Opposes Motion
Types of Friction
Kinetic Friction The word kinetic means “moving.” So, kinetic friction is friction between moving surfaces.
Rolling Friction and Sliding Friction are examples of Kinetic Friction
Static Friction When a force is applied to an object but does not cause the object to move, static friction occurs. Static friction is shown on the next slide.
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25. Static Friction Section 3
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26. Friction: A Force That Opposes Motion
Section 3
Friction: A Force That Opposes Motion
Friction: Harmful and Helpful
Some Ways to Reduce Friction One way to reduce friction is to use lubricants. Friction can also be reduced by switching from sliding kinetic friction to rolling kinetic friction. Another way to reduce friction is to make surfaces that rub against each other smoother.
Some Ways to Increase Friction One way to increase friction is to make surfaces rougher. Another way to increase friction is to increase the force pushing the surfaces together.
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27. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
Bellringer
Significantly decreased gravity gives astronauts the sensation of being weightless and forces astronauts to make many adjustments in their activities. Write a paragraph explaining what you would like and dislike about living with reduced gravity.
Record your thoughts in your science journal.
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28. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
Objectives
Describe gravity and its effect on matter.
Explain the law of universal gravitation.
Describe the difference between mass and weight.
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29. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
The Effects of Gravity on Matter
If There Is Mass, There Is Gravity All matter has mass. Gravity is a result of mass. Therefore, all matter is affected by gravity.
The Size of Earth’s Gravitational Force Compared with all objects around you, Earth has a huge mass. Therefore, Earth’s gravitational force is very large.
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30. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
Law of Universal Gravitation
All objects in the universe attract each other through gravitational force. The size of the force depends on the mass of the objects and the distance between them.
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31. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
Newton and the Study of Gravity
The Core of an Idea The legend is that Newton discovered gravity after watching an apple fall off a tree.
The Birth of a Law Newton summarized his ideas about gravity in a law now known as the law of universal gravitation. The law of universal gravitation describes the relationships between gravitational force, mass, and distance.
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32. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
The Law of Universal Gravitation
Part 1: Gravitational Force Increases as Mass Increases
Part 2: Gravitational Force Decreases as Distance Increases.
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33. Gravity: A Force of Attraction
Section 4
Gravity: A Force of Attraction
Weight as a Measure of Gravitational Force
The Difference Between Weight and Mass Weight is related to mass, but they are not the same. Weight changes when gravitational force changes. Mass is the amount of matter in an object. This concept is illustrated on the next slide.
Units of Weight and Mass The SI unit of force is a newton (N). Gravity is a force, and weight is a measure of gravity. So, weight is also measured in newtons.The SI unit of mass is the kilogram (kg). Mass is often measured in grams (g) and milligrams (mg) as well.
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34. Weight and Mass Section 4
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35. Matter in Motion Concept Map Chapter 5
Use the following terms to complete the concept map on the next slide: speed, time, velocity, motion, acceleration.
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36. Chapter 5
Concept Map
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37. Chapter 5
Concept Map
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