INTERFERENCE
SUPERPOSITION PRINCIPLE
INTERFERENCE IN THIN FILMS BY REFLECTION
NEWTON RINGS
Wave interference is the phenomenon that occurs when two waves meet while traveling along the same medium.
The interference of waves causes the medium to take on a shape that results from the net effect of the two individual waves upon the particles of the medium.
To begin our exploration of wave interference, consider two pulses of the same amplitude traveling in different directions along the same medium.
Let's suppose that each displaced upward 1 unit at its crest and has the shape of a sine wave. As the sine pulses move towards each other, there will eventually be a moment in time when they are completely overlapped.
At that moment, the resulting shape of the medium would be an upward displaced sine pulse with an amplitude of 2 units.
The individual sine pulses are drawn in red and blue and the resulting displacement of the medium is drawn in green.
SUPERPOSITION PRINCIPLE
INTERFERENCE IN THIN FILMS BY REFLECTION
NEWTON RINGS
Wave interference is the phenomenon that occurs when two waves meet while traveling along the same medium.
The interference of waves causes the medium to take on a shape that results from the net effect of the two individual waves upon the particles of the medium.
To begin our exploration of wave interference, consider two pulses of the same amplitude traveling in different directions along the same medium.
Let's suppose that each displaced upward 1 unit at its crest and has the shape of a sine wave. As the sine pulses move towards each other, there will eventually be a moment in time when they are completely overlapped.
At that moment, the resulting shape of the medium would be an upward displaced sine pulse with an amplitude of 2 units.
The individual sine pulses are drawn in red and blue and the resulting displacement of the medium is drawn in green.
Constructive Interference
This type of interference is sometimes called constructive interference.
Constructive interference is a type of interference that occurs at any location along the medium where the two interfering waves have a displacement in the same direction.
In this case, both waves have an upward displacement; consequently, the medium has an upward displacement that is greater than the displacement of the two interfering pulses.
Constructive interference is observed at any location where the two interfering waves are displaced upward.
But it is also observed when both interfering waves are displaced downward. This is shown in the diagram below for two downward displaced pulses.
Constructive interference is a type of interference that occurs at any location along the medium where the two interfering waves have a displacement in the same direction.
In this case, both waves have an upward displacement; consequently, the medium has an upward displacement that is greater than the displacement of the two interfering pulses.
Constructive interference is observed at any location where the two interfering waves are displaced upward.
But it is also observed when both interfering waves are displaced downward. This is shown in the diagram below for two downward displaced pulses.
In this case, a sine pulse with a maximum displacement of -1 unit (negative means a downward displacement) interferes with a sine pulse with a maximum displacement of -1 unit.
These two pulses are drawn in red and blue. The resulting shape of the medium is a sine pulse with a maximum displacement of -2 units.
These two pulses are drawn in red and blue. The resulting shape of the medium is a sine pulse with a maximum displacement of -2 units.
Destructive interference is a type of interference that occurs at any location along the medium where the two interfering waves have a displacement in the opposite direction.
For instance, when a sine pulse with a maximum displacement of +1 unit meets a sine pulse with a maximum displacement of -1 unit, destructive interference occurs.
For instance, when a sine pulse with a maximum displacement of +1 unit meets a sine pulse with a maximum displacement of -1 unit, destructive interference occurs.
The result is that the two pulses completely destroy each other when they are completely overlapped. At the instant of complete overlap, there is no resulting displacement of the particles of the medium.
This "destruction" is not a permanent condition. In fact, to say that the two waves destroy each other can be partially misleading.
When it is said that the two pulses destroy each other, what is meant is that when overlapped, the effect of one of the pulses on the displacement of a given particle of the medium is destroyed or canceled by the effect of the other pulse.
that waves transport energy through a medium by means of each individual particle pulling upon its nearest neighbor.
When two pulses with opposite displacements (i.e., one pulse displaced up and the other down) meet at a given location, the upward pull of one pulse is balanced (canceled or destroyed) by the downward pull of the other pulse.
Once the two pulses pass through each other, there is still an upward displaced pulse and a downward displaced pulse heading in the same direction that they were heading before the interference.
Destructive interference leads to only a momentary condition in which the medium's displacement is less than the displacement of the largest-amplitude wave.
This "destruction" is not a permanent condition. In fact, to say that the two waves destroy each other can be partially misleading.
When it is said that the two pulses destroy each other, what is meant is that when overlapped, the effect of one of the pulses on the displacement of a given particle of the medium is destroyed or canceled by the effect of the other pulse.
that waves transport energy through a medium by means of each individual particle pulling upon its nearest neighbor.
When two pulses with opposite displacements (i.e., one pulse displaced up and the other down) meet at a given location, the upward pull of one pulse is balanced (canceled or destroyed) by the downward pull of the other pulse.
Once the two pulses pass through each other, there is still an upward displaced pulse and a downward displaced pulse heading in the same direction that they were heading before the interference.
Destructive interference leads to only a momentary condition in which the medium's displacement is less than the displacement of the largest-amplitude wave.
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