chapter 11

THE PHYSICS OF MOTION

Chapter 11

Section 11.1 Distance and Displacement

Motion is something we are all familiar with, but how do we estimate motion.

To describe motion accurately and completely, a frame of reference is necessary.

A frame of reference is a system of objects that are not moving with respect to the object in motion.


A frame of reference is necessary for the brain to calculate motion, velocity and distance with any accuracy.


Motion is the movement of an object or objects.

Relative motion is the movement of an object in relation to a frame of reference.

Example: When driving in a car you are moving as fast as the car but in relationship to the inside of the car you are NOT moving.


The distance traveled is the length of the path between two points along the path the object is taking.

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Not all objects move in a straight line.

The actual distance traveled is measured as displacement or the length of a straight line between the starting point and the ending point.

Example: NASCAR races occur on oval shaped tracks, these races occur in 200 to 500 lap intervals but their displacement is usually very small.


Displacement is an example of a vector.

A vector is a quantity that has magnitude and direction.

A magnitude can be a size, length or amount.


Displacements are magnitudes of vectors, meaning the distance an object has moved would be the magnitude.

These displacements can be combined using vector addition.

Vectors can be combined by adding them and subtracting them.


An example of vector addition:

You and a friend go for a walk to Burger King which is 4 blocks from your house. You get your food and on the way home stop at another friends house which is 2 blocks from burger king on the way back to your house. How many blocks have you traveled? How far are you from your house.








4 Blocks

2 Blocks

4 Blocks - 2 Blocks = 2 Blocks


When two or more displacement vectors have different directions they can be combined by graphing.

You can combine vectors that travel in different directions by vector addition but this will not give you the distance traveled from start to finish.

Section 11.2 Speed and Velocity

Speed is the ratio of the distance an object moves to the amount of time it moves.

Speed is most commonly used to describe cars, and the “speed” at which they are traveling.

What tool inside a car tells you your speed?


Average speed is a way of looking at the total distance traveled and comparing it to the total time traveled.

Average speed = Total distance Total timeor

v = d t


Calculate the Average Speed:

While on vacation, you measure the times and distances traveled. You travel 35 kilometers in 0.4 hours, followed by 53 kilometers in 0.6 hours. What was your average speed?


Instantaneous speed is the rate at which an object is moving at a given moment in time.

Next time you are in your parents car watch the speedometer and you will see the change in speed at any given point along the trip.


A distance time graph is a good way to describe motion in relationship to time.

The slope of the line on a distance time graph is speed.

Remember that the slope of a line on a graph is the rise over the run.

Distance-Time Graph

0

20

40

60

80

100

120

1 2 3 4 5 6 7 8 9 10 11Time (seconds)

Dis

tanc

e (m

eter

s)

Speed


Remember when discussing vectors there must be a direction associated with the measurement.

Is speed a vector? Why or why not?


Velocity is a description of both speed and direction of motion, so velocity is the vector related to speed.

The longer the velocity vector the faster the speed and the shorter the velocity vector the slower the speed.


The vector arrows can also point in different directions to represent the objects direction.

Changes in velocity can occur because of both changes in speed and changes in direction.


Vector addition holds true when it comes to velocity as well.

Remember vectors can be combined by addition or subtraction.


An example of vector addition:

You and your family want to take your boat out on the Susquehanna River. You launch the boat and start traveling down stream. The river is moving at 5km/h and your boat is moving at a velocity of 12km/h in the same direction. What is your speed relative to the shore line?


12km/hr + 5km/hr = 17km/hr

12km/hr + 5km/hr = 17km/hr

5km/hr

12km/hr



Section 11.3 Acceleration

Acceleration is the rate at which velocity changes.

Acceleration can be described as changes in speed or direction.

When you are getting on the interstate with your parents you will notice they speed up to merge with traffic, this is acceleration.


Acceleration is a vector because it describes both a speed and a direction.

We commonly think of acceleration as only an increase in speed, it can however also be a decrease in speed.


This can best be described by using the bus ride home most of you will take later today.

When the bus slows to a stop you feel yourself move forward this is due to the fact that the buses acceleration is slowing but yours is remaining the same until it is acted on by an outside force.

What might some of these forces be?


Another common example of acceleration is free fall, or the movement of an object toward earth due to gravity.

When you drop something is it always pushed toward the ground?


Acceleration is not only due to changes in speed as we said.

It can be caused by changes in direction.

What happens when you are on a roller coaster and you take a sharp turn?


Constant acceleration is a steady change in velocity where the velocity of the object changes by the same amount each second.

This ONLY occurs when an object is moving in a straight line.


This is can be seen when you watch the launch of the space shuttle.

The acceleration of the shuttle is constant for portions of its assent into space.

Why is it not constant the entire time?


You can calculate the acceleration for straight-line motion by dividing the change in velocity by the total time.

Acceleration = Change in Velocity Total Timeor

A= (vf - vi) t


If the resulting acceleration is positive the object is speeding up and if it is negative the object is slowing down.




Calculate the Acceleration:

A ball rolls down a ramp, starting from rest. After 2 seconds, its velocity is 6 meters per second. What is the acceleration of the ball?


Acceleration can be graphed in much the same way that we graphed speed.

A distance-time graph however is replaced by a speed-time graph.

The slope of the line on the speed-time graph is the acceleration.


A slope which is a straight line is called linear graph.

A slope which is arcing or jagged showing a varied or non-constant acceleration is called a non-linear graph.

Speed-Time Graph

0

100

200

300

400

500

600

700

1 2 3 4 5 6Time (seconds)

Spee

d (m

eter

s/se

cond

)

Acceleration


Instantaneous acceleration is how fast a velocity is changing at a specific instant.

Right now you are all sitting in your desks and NOT MOVING!!!

What do you think your instantaneous acceleration is at this moment?

chapter 11

Documents

actual distance

displacementthe distance

velocityinstantaneous

velocityaverage speed

total distance total

displacement vectors

relative motion

magnitudes of vectors