Chapter 5: Investigating Motion UNIT 3 Chapter 5: Investigating Motion Chapter 5: Investigating Motion Finding a store in a shopping mall and driving to a friend’s house are tasks that you might do without any thought. You might not think about motion when you do tasks like these, but these tasks involve motion and the description of motion. Sample answers: nouns could include left, right, speed, velocity, acceleration, direction, position; adjectives could include fast, slow, straight ahead, List some words that describe motion. TO PREVIOUS SLIDE

5.1 Describing Motion UNIT 3 Chapter 5: Investigating Motion Section 5.1 5.1 Describing Motion Telling someone how to get from one place to another, such as from their home to the movie theatre, is an example of describing motion. How would you describe the location of the woman holding the purse on the left side of the photograph relative to the man in the bowtie behind the counter? Sample answers: she is in front of him; he is behind her; she is to his right; he is to her right; they are approximately 2 m apart. TO PREVIOUS SLIDE

UNIT 3 Chapter 5: Investigating Motion Section 5.1 Position When you describe the position of an object, you must include a distance, a direction, and a reference point. Distance is a unit of length, and the SI base unit for distance is the metre. Compass points, or a “+” and “−” if you are using a number line, are used to describe direction. Number lines and coordinate systems are often used to specify position. What are two ways that you could describe the position of the skater on the right? +9 m or 9 m east of the fire hydrant TO PREVIOUS SLIDE Continued…

Position UNIT 3 Motion is the process of changing position. Chapter 5: Investigating Motion Section 5.1 Position Motion is the process of changing position. Two ways of describing motion are distance and displacement. Displacement is the straight-line distance, or the difference, between the initial position and the final position of an object. What distance did the player run in A, B, and C, and what is the displacement for each? The distance equals 27.4 m, and the displacement equals 27.4 m. The distance equals 54.8 m, and the displacement equals 38.7 m. The distance equals 109.6 m, and the displacement equals 0. TO PREVIOUS SLIDE

Scalar Quantities and Vector Quantities UNIT 3 Chapter 5: Investigating Motion Section 5.1 Scalar Quantities and Vector Quantities A scalar is a quantity that has only magnitude (size) and is represented by a number and units. Scalars are distance, time, and temperature. A vector is a quantity that has both magnitude (size) and direction. Displacement and position are both vectors. Arrows are often used to represent vectors. The length of the arrow represents the size of motion. The arrow point represents the direction of motion. What is the runner’s displacement in the figure below? 40 m[E]—this is a vector quantity TO PREVIOUS SLIDE

Calculating Displacement UNIT 3 Chapter 5: Investigating Motion Section 5.1 Calculating Displacement Displacement—the change in position—is represented by the equation below: TO PREVIOUS SLIDE

Choosing a Reference Point UNIT 3 Chapter 5: Investigating Motion Section 5.1 Choosing a Reference Point An object’s position may change relative to one reference point, but it may not be moving relative to another reference point. When describing motion, it is important to include the reference point so your description will be clear. Describe a reference point that could be used to indicate that the man in the boat is NOT moving, and describe another reference point that could be used to show that the man IS moving. The boat itself could be used to show that the man is not moving, and the buoy could be used to show that the man is moving. TO PREVIOUS SLIDE

Determining the Time Interval UNIT 3 Chapter 5: Investigating Motion Section 5.1 Determining the Time Interval The time interval is the difference between when an event begins and when that event ends. The SI unit for time is the second, s, and the symbol for time is t. The equation for finding the time interval is t = tf – ti Use the equation above to find the time interval of your science class. TO PREVIOUS SLIDE

UNIT 3 Chapter 5: Investigating Motion Section 5.1 Uniform Motion Uniform motion is motion in which the object’s displacement is equal for each time interval. Uniform motion is rare because frictional forces usually act on the object. Why does the motion diagram (B) show the uniform motion of the billiard balls more clearly than the photograph (A)? Sample answer: The motion diagram has a number line that can be used to find reference points, and the photograph does not. TO PREVIOUS SLIDE

Graphing Uniform Motion UNIT 3 Chapter 5: Investigating Motion Section 5.1 Graphing Uniform Motion Position-time graphs show the position of an object over time. When the motion of an object is a straight line on a position-time graph, the object has uniform motion. The graph on the left side because the data points fall on a straight line. Which graph represents an object that has uniform motion? TO PREVIOUS SLIDE

Analyzing a Position-Time Graph UNIT 3 Chapter 5: Investigating Motion Section 5.1 Analyzing a Position-Time Graph A positive slope on a position-time graph indicates that the object is moving in the positive direction. A negative slope on a position-time graph indicates that the object is moving in the negative direction. A zero slope on a position-time graph indicates that the object is not moving over time. Is the motion of the object positive or negative in this position-time graph? Is the motion uniform? How do you know? Sample answer 1: The motion of the object is negative. Sample answer 2: The object has uniform motion because a plot of the motion on a position-time graph is a straight line. TO PREVIOUS SLIDE

UNIT 3 Chapter 5: Investigating Motion Section 5.1 Section 5.1 Review When you describe the position of an object, you must include a distance, direction, and reference point. Units of length, such as metres and kilometres, are used to measure distance. Compass points and coordinate systems are often used to describe positions. Two ways of describing motion—a process of changing position—are distance and displacement. A scalar is a quantity that has only magnitude, such as distance, time, and temperature. TO PREVIOUS SLIDE Continued…

UNIT 3 Chapter 5: Investigating Motion Section 5.1 Section 5.1 Review A vector is a quantity that has both magnitude and direction, such as displacement and position. Vectors are used to represent motion, and they are added to find resultant vectors. Position-time graphs indicate if an object is moving in the positive direction, in the negative direction, or not moving at all. TO PREVIOUS SLIDE

5.2 Distance, Time, and Speed UNIT 3 Chapter 5: Investigating Motion Section 5.2 5.2 Distance, Time, and Speed Speed, v, is the distance an object moves in a certain length of time. Speed can be constant or changing. Constant speed is when an object travels the same distance for each time interval. Changing speed is when an object travels a different distance for each time interval. If there were no labels on the figure, how could you tell which car had constant speed and which car had changing speed? Sample answer: The car that had constant speed moves the same distance during each time interval. TO PREVIOUS SLIDE Continued…

Distance, Time, and Speed UNIT 3 Chapter 5: Investigating Motion Section 5.2 Distance, Time, and Speed The slope of the line between any two points on a distance-time graph is the average speed the object is moving during that time interval. The average speed of an object is the distance travelled divided by the time it takes to travel that distance. The equation to calculate average speed is TO PREVIOUS SLIDE Continued…

Distance, Time, and Speed UNIT 3 Chapter 5: Investigating Motion Section 5.2 Distance, Time, and Speed The slope of the line on a distance-time graph can be calculated using the following formula: Choose two points on the graph and determine the slope of the line, which is the average speed of the object. From page 222 of the student textbook: slope = yf – yi = 36 m – 12 m = 8 m/s Therefore, the average speed between 4.5 s and 1.5 s was 8 m/s xf – xi 4.5 s – 1.5 s TO PREVIOUS SLIDE Continued…

Distance, Time, and Speed UNIT 3 Chapter 5: Investigating Motion Section 5.2 Distance, Time, and Speed Instantaneous speed is speed at a specific instant of time. The speedometer in a car displays instantaneous speed. What is the instantaneous speed shown on this car speedometer? The instantaneous speed of the car is 100 km/h. TO PREVIOUS SLIDE

UNIT 3 Chapter 5: Investigating Motion Section 5.2 Section 5.2 Review Speed is the distance an object moves in a certain length of time. Speed is a scalar quantity. There are many kinds of speed, including constant speed, changing speed, average speed, and instantaneous speed. The slope of the line between any two points on a distance-time graph is the average speed the object is moving during that time interval. TO PREVIOUS SLIDE

5.3 Position, Displacement, and Velocity UNIT 3 Chapter 5: Investigating Motion Section 5.3 5.3 Position, Displacement, and Velocity Velocity is a vector quantity that describes an object’s displacement during a specific time interval or an object’s rate of change of position. An object can have constant velocity or changing velocity. How do speed and velocity differ? Constant velocity is when an object travels at the same speed and in the same direction for each time interval. Changing velocity is when an object’s speed or direction, or both speed and direction change for each time interval. Sample answer: Speed is a scalar, and it has only magnitude. Velocity is a vector, and it has both magnitude and direction. TO PREVIOUS SLIDE Continued…

Position, Displacement, and Velocity UNIT 3 Chapter 5: Investigating Motion Section 5.3 Position, Displacement, and Velocity The slope between any two points on a position-time graph gives the magnitude of the object’s average velocity during that time interval. Average velocity, vave, is the displacement of an object divided by the time interval it takes to travel the displacement. Instantaneous velocity is the velocity (both magnitude and direction) at a specific instant of time. Calculate average velocity using the following equation: TO PREVIOUS SLIDE Continued…

Position, Displacement, and Velocity UNIT 3 Chapter 5: Investigating Motion Section 5.3 Position, Displacement, and Velocity What does the bear appear to be doing after 13.5 h? Sample answer: The bear is not moving and appears to be resting. TO PREVIOUS SLIDE

UNIT 3 Chapter 5: Investigating Motion Section 5.3 Section 5.3 Review Velocity is a vector quantity that describes an object’s displacement during a specific time interval or an object’s rate of change of position. There are many kinds of velocity, including constant velocity, changing velocity, average velocity, and instantaneous velocity. The slope between any two points on a position-time graph gives the magnitude of the object’s average velocity during that time interval. TO PREVIOUS SLIDE