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Waves and Vibrations
Science of the Physical World -chapter 10
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What is a wave?
a wave is a disturbance that travels from one location to another.
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Slinky Wave
this disturbance that moves down the slinky is called a pulse.
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Slinky Wave
This disturbance would look something like this
This type of wave is called a LONGITUDINAL wave. The pulse is transferred through the medium of the
slinky, but the slinky itself does not actually move. It just displaces from its rest position and then
returns to it. So what really is being transferred?
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Slinky Wave
Energy is being transferred.
The metal of the slinky is the MEDIUM that transfers the energy pulse of the wave.
The medium ends up in the same place as it started … it just gets disturbed and then returns to it rest position.
The same can be seen with a stadium wave.
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Longitudinal Wave
The wave we see here is a longitudinal wave.
The medium particles vibrate along the motion of the pulse.
This is the same type of wave that we use to transfer sound.
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• A compression is a point on a medium through which a longitudinal wave is traveling which has the maximum density. A region where the coils are spread apart, thus maximizing the distance between coils, is known as a rarefaction.
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• A compression is a point on a medium through which a longitudinal wave is traveling which has the maximum density. A region where the coils are spread apart, thus maximizing the distance between coils, is known as a rarefaction.
• A rarefaction is a point on a medium through which a longitudinal wave is traveling which has the minimum density.
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• A compression is a point on a medium through which a longitudinal wave is traveling which has the maximum density. A region where the coils are spread apart, thus maximizing the distance between coils, is known as a rarefaction.
• A rarefaction is a point on a medium through which a longitudinal wave is traveling which has the minimum density.
• • Points A, C and E on the diagram above represent
compressions and points B, D, and F represent rarefactions.
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• A compression is a point on a medium through which a longitudinal wave is traveling which has the maximum density. A region where the coils are spread apart, thus maximizing the distance between coils, is known as a rarefaction.
• A rarefaction is a point on a medium through which a longitudinal wave is traveling which has the minimum density.
• • Points A, C and E on the diagram above represent
compressions and points B, D, and F represent rarefactions. • While a transverse wave has an alternating pattern of crests
and troughs, a longitudinal wave has an alternating pattern of compressions and rarefactions.
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Transverse Wave The differences between the two can be seen
A second kind of wave is a
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Wave Type
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Anatomy of a Wave
Now we can begin to describe the anatomy of our waves.
We will use a transverse wave to describe this since it is easier to see the pieces.
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Anatomy of a Wave
In our wave here the dashed line represents the equilibrium position.
Once the medium is disturbed, it moves away from this position and then returns to it
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Anatomy of a Wave
The points A and F are called the CRESTS of the wave.
This is the point where the wave exhibits the maximum amount of positive or upwards displacement
crest
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Anatomy of a Wave
The points D and I are called the TROUGHS of the wave.
These are the points where the wave exhibits its maximum negative or downward displacement.
trough
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Anatomy of a Wave
The distance between the dashed line and point A is called the Amplitude of the wave.
This is the maximum displacement that the wave moves away from its equilibrium.
Amplitude
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Anatomy of a Wave
The distance between two consecutive similar points (in this case two crests) is called the wavelength.
This is the length of the wave pulse. Between what other points can a wavelength be
measured?
wavelength
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Copyright © by Holt, Rinehart and Winston. All rights reserved.
Resources UNIT menu
UNIT 11
Transverse Waves
Section 3 Properties of Waves
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Anatomy of a Wave
What else can we determine? We know that things that repeat have a
frequency and a period.
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Wave frequency
We know that frequency measures how often something happens over a certain amount of time.
We can measure how many times a pulse passes a fixed point over a given amount of time, and this will give us the frequency.
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Wave frequency
Suppose I wiggle a slinky back and forth, and count that 6 waves pass a point in 2 seconds. What would the frequency be? 3 cycles / second 3 Hz we use the term Hertz (Hz) to stand for
cycles per second.
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Wave Period
The PERIOD is the time it takes for one cycle to complete.
It also is the inverse of the frequency.
T = 1 / f f = 1 / T
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Wave Speed
We can use what we know to determine how fast a wave is moving.
What is the formula for speed? speed = distance / time
What distance do we know about a wave? wavelength
and what time do we know? period
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Wave Speed
so if we plug these in we get speed =
length of pulse / time for pulse to move pass a fixed point
v = λ / T or
we will use the symbol λ to represent wavelength
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Section 3: Wave Behavior
Now we know all about waves. How to describe them, measure them and
analyze them. But how do they interact?