Go to section Pretest 1.How many meters are in 28 km? 2.Convert 35 km/h to a speed in m/s. 3.Rearrange the following equation to solve for d : v =. 4.Rearrange.

Slides:

Advertisements

Similar presentations

Chapter 2 Preview Objectives One Dimensional Motion Displacement

Advertisements

Glencoe: Chapter 3 Section 1 Pages 70-75

Describing Motion 2.1 Motion

In this section you will:

Physical Science Section 2.1

Distance Time Graphs Time is always plotted on x axis

Learning objectives: Define what a vector is

Observing Motion. A.Motion is an object’s change in position relative to a reference point. 1.Displacement is the change in the position of an object.

WHAT IS SPEED? Speed is how fast an object is moving relative to another object. A frame of reference is necessary to calculate speed. Speed depends on.

Energy and Motion 8.4 Speed and Velocity -How do you calculate speed?

Chapter 2 Preview Objectives One Dimensional Motion Displacement

Motion, Forces, and Energy

Motion, Forces, and Energy Chapter 1: Motion and Momentum.

Chapter 11 - Motion.

UNIT 3: Motion Chapter 5: Investigating Motion Chapter 6: Applied Motion.

Chapter 11: Motion.

INTEGRATED SCIENCE CHAPTER 11.

Ch TrueFalseStatementTrueFalse A frame of reference is objects moving with respect to one another Distance is the length between 2 points and.

Chapter 11 Motion.

What is motion? Motion is the change in the position of an object. To describe the motion of an object we use terms like: Distance, displacement, speed,

How fast is the butterfly moving? What direction is it moving?

Motion Change in position against some stationary background (frame of reference).

Motion Ch. 1 Motion- a change in position Frame of Reference Frame of Reference (reference point)- Whenever you describe something that is moving you.

Motion Graphs Your introductory or title slide should convey the overall “feeling” and focus of your presentation. For instance, I typically present about.

Chapter 11 Motion 11.2 Speed and Velocity.

Chapter 11 Motion.

Distance and Time 12.1 Distance is the space between two points, commonly measured in.

Chapter 9 Motion 8 th Grade Science. Motion An object is in _________ if its distance from another object is changing. _____________ - a place or object.

A Study of Speed, Velocity and Acceleration

Section 2.4 Section 2.4 How Fast? ●Define velocity. ●Differentiate between speed and velocity. ●Create pictorial, physical, and mathematical models of.

MOTION IN ONE-DIRECTION: DISPLACEMENT, VELOCITY, & ACCELERATION PHYSICS.

Distance is the space between two points, commonly measured in metres (m). Distances between two points can depend on the path taken. Time (t) is the duration.

Chapter 5: Matter in Motion

Pearson Prentice Hall Physical Science: Concepts in Action

Chapter 11 Page Motion.

Go to section Pretest 1.What is relative motion? 2.What is the difference between distance and displacement? 3.How is average speed calculated? 4.On a.

Go to section Pretest 1.What is energy? 2.What is mechanical energy? 3.True or False: Displacements in opposite directions add together. 4.How is speed.

Motion Is it moving? How is it measured?. Describing Motion MOTION When an object changes position relative to a reference point we call it MOTION! Reference.

Unit 2: Physics Chapter 3: Describing Motion.

Distance and Displacement Speed and Velocity Acceleration.

When is an object in motion, and how can you calculate speed?

Motion Speed, acceleration, momentum Frames of Reference Object or point from which motion is determined Object or point from which motion is determined.

Section 2.4 Graphs of Motion. Why Use Graphs? Show relationships between distance, velocity, acceleration, and time Visual and clear way of representing.

Section 2 Speed and Velocity.

Section 1Motion Bellringer, continued 1. For each of the devices above, indicate whether it measures distance, time, or speed. 2. For each of the devices.

Section 1Motion Bellringer, continued 1. For each of the devices above, indicate whether it measures distance, time, or speed. 2. For each of the devices.

Chapter 11 Motion. Sec Frame of reference A system of objects that are not moving with respect to one another Used in order to see motion Describes.

Chapter 11: Motion.

Motion Pretest What do you know already? How will you approach your study of motion?

Motion and Momentum Chapter 18. What is Motion? A.All matter is constantly in motion. B.Motion involves a change in position. 1.An object changes position.

Section 1Motion Section 1: Measuring Motion Preview Key Ideas Bellringer Observing Motion Speed and Velocity Calculating Speed Math Skills Graphing Motion.

NOTECARDS Turn each slide into a flashcard – title is the “blank side” and text box is the “lined side”

Chapter 11: Motion Section 11.3 Acceleration.

Investigating Force and Motion Describing Motion PS. 10a.

Go to section Pretest 1.What is relative motion? 2.What is the difference between distance and displacement? 3.How is average speed calculated? 4.On a.

CHAPTER 3 ACCELERATED MOTION

Chapter 15: Motion & Momentum Section 1: What is motion?

Speed and Velocity Chapter 9 Section 2.

Mr. Conkey Physical Science Ch. 11

with the following images?

Section 1: Measuring Motion

Ch. 11: Motion 11.1: Distance and Displacement

Chapter 11: Motion Section 1 Part 2- Graphs of Speed

Section 1: Measuring Motion

Chapter 11: Motion Section 1 Part 2- Graphs of Speed

Section 1: Measuring Motion

Chapter 1 Motion.

Speed continued Distance – Time Graphs 2.1.

Distance, Displacement & Speed

Motion, Speed, and Velocity

Presentation transcript:

Go to section Pretest 1.How many meters are in 28 km? 2.Convert 35 km/h to a speed in m/s. 3.Rearrange the following equation to solve for d : v =. 4.Rearrange the following equation to solve for v f : a = (v f – v i )/t. Chapter 11

Go to section Pretest (continued) 5.What are the SI units for distance and time? 6.Which of the following describes the slope of a line? a.rise x run b.run/rise c.run – rise d.rise/run Chapter 11

Go to section Pretest (continued) 7.If a graph uses units of meters on the vertical axis and units of seconds on the horizontal axis, what would be the units of the slope of a line on the graph? 8.Which of the following is true about a curved line on a graph? a.The slope is the same at every point. b.The slope of the line may be different at every point. c.The line has no slope. d.The slope of the line is zero. Chapter 11

Go to section Interest Grabber Describing Motion Accurately describing the motion of an object using only words can be difficult. 1.Choose a destination near your home, such as school, a particular store, or a friend’s house. Write out a set of directions describing how someone would get from your home to the location. 2.Draw a map illustrating the directions you wrote out in Step 1. 3.Was it easier to write out the description or to draw the map? Which method is easier to use to find the location? Explain your answers. Section 11.1

Go to section Reading Strategy Predicting Section 11.1 a.Answers may vary. Sample answer: Frame of reference may mean the range of distances or area that you are considering in a problem. b. Frame of reference is a system of objects that are not moving with respect to one another. Frames of reference are important because they are needed to accurately describe motion.

Go to section Distance: Displacements Along a Line Figure 3

Go to section Distance: Displacements Along a Line Figure 3

Go to section Distance: Displacements Along a Line Figure 3

Go to section Distance: Displacements Along a Line Figure 3

Go to section Distance: Displacements Along a Line Figure 3

Go to section Distance: Displacements Along a Line Figure 3

Go to section Interest Grabber Distance-Time Graphs The distance traveled by an object in a period of time often is expressed using a line graph. A line graph visually conveys information using sets of data points. Section Copy the blank graph below on your paper. Complete the graph by plotting the given data points on the graph. Each set of data points represents (time, distance). Note that time is measured in seconds and distance is measured in meters. Connect the plotted points with a straight line. Data points: (0, 0), (2, 40), (4, 80), (6, 120), (8, 160), (10, 200) 2.Describe the motion shown on the graph.

Go to section Reading Strategy Monitoring Your Understanding Section 11.2 Answers may vary. Sample answers shown below. a.Average speed is distance divided by time. c. Instantaneous speed is different from average speed. e.Velocity is not the same as speed. b.I could use this to calculate various speeds, like the average speed at which I travel getting to school. d.You can’t use a single speedometer reading to determine how long a trip will take. f.This could be useful in giving directions or in describing the path that you take on a walk.

Go to section Calculating Average Speed Section 11.2

Go to section Calculating Average Speed Section 11.2

Go to section Calculating Average Speed Section 11.2

Go to section Calculating Average Speed Section 11.2

Go to section Distance-Time Graphs for Motion of Three Cars Section 11.2

Go to section Distance-Time Graphs for Motion of Three Cars Section 11.2

Go to section Distance-Time Graphs for Motion of Three Cars Section 11.2

Go to section Interest Grabber Speed-Time Graphs The speed an object travels in a period of time can be expressed on a graph. This type of graph can give useful information about the object’s motion. The speed-time graph of the object in Section 11.2 Interest Grabber is shown below. Section Describe the speed of the object shown on the graph. 2.The slope of the line on a distance-time graph represents the change in distance (m) per the change in time (s). Thus, the slope of a distance-time graph gives speed (m/s). What information does the slope of a speed- time graph give you? 3.What is the slope of the line on the speed-time graph?

Go to section Reading Strategy a. speed (or direction)b.direction (or speed) c.m/s 2 Section 11.3 Summarizing

Go to section Measuring Acceleration Section 11.3

Go to section Measuring Acceleration Section 11.3

Go to section Measuring Acceleration Section 11.3

Go to section Measuring Acceleration Section 11.3

Go to section Speed-Time Graphs Figures 16 and 17

Go to section Speed-Time Graphs Figures 16 and 17

Go to section Distance-Time Graph of Accelerated Motion Figure 18

Pretest Answers 1.How many meters are in 28 km? 2.Convert 35 km/h to a speed in m/s. 3.Rearrange the following equation to solve for d : v =. 4.Rearrange the following equation to solve for v f : a = (v f – v i )/t. Chapter 11 Click the mouse button to display the answers m 0.97 m/s d = vt v f = at – v i

Chapter 11 Pretest Answers (continued) Click the mouse button to display the answers. 5.What are the SI units for distance and time? 6.Which of the following describes the slope of a line? a.rise x run b.run/rise c.run – rise d.rise/run meters and seconds

Chapter 11 Click the mouse button to display the answers. Pretest Answers (continued) 7.If a graph uses units of meters on the vertical axis and units of seconds on the horizontal axis, what would be the units of the slope of a line on the graph? 8.Which of the following is true about a curved line on a graph? a.The slope is the same at every point. b.The slope of the line may be different at every point. c.The line has no slope. d.The slope of the line is zero. m/s

Interest Grabber Answers 1.Choose a destination near your home, such as school, a particular store, or a friend’s house. Write out a set of directions describing how someone would get from your home to the location. Possible answers must provide adequate instructions describing how to get from the home to the chosen location. 2.Draw a map illustrating the directions you wrote out in Step 1. Your maps must illustrate how to travel from home to the chosen location. 3.Was it easier to write out the description or to draw the map? Which method is easier to use to find the location? Explain your answers. Accept either response if students provide reasons. Students will most likely say that the map is easier to write and use. Section 11.1

Interest Grabber Answers 1.Copy the blank graph below on your paper. Complete the graph by plotting the given data points on the graph. Each set of data points represents (time, distance). Note that time is measured in seconds and distance is measured in meters. Connect the plotted points with a straight line. Data points: (0, 0), (2, 40), (4, 80), (6, 120), (8, 160), (10, 200) 2.Describe the motion shown on the graph. Possible answers include that the object is traveling at a constant speed and/or that the object traveled 200 meters in 10 seconds. Section 11.2

Interest Grabber Answers 1.Describe the speed of the object shown on the graph. The object is traveling at a constant speed of 20 m/s. 2.The slope of the line on a distance-time graph represents the change in distance (m) per the change in time (s). Thus, the slope of a distance-time graph gives speed (m/s). What information does the slope of a speed-time graph give you? The slope of a speed-time graph represents the acceleration of the object—its change in speed over the time. 3.What is the slope of the line on the speed-time graph? The slope of the line is 0. Section 11.3

Chapter 11 Go Online Data sharing Self-grading assessment For links on distance and displacement, go to and enter the Web Code as follows: ccn For links on motion, go to and enter the Web Code as follows: ccn For links on acceleration, go to and enter the Web Code as follows: ccn

This slide is intentionally blank.