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What is Diffraction?
By definition diffraction is the spreading out or scattering of waves as they pass through gaps. However certain conditions must be present for a wave to be diffracted when passing through a gap, the length of the wave and the size of the gap has to be the same or almost the same.








What is Interference?
Interference is what occurs when two or more waves interact with each other producing another wave.

Types of Interference?
There are two types of interference these are:

  1. Constructive Interference
  2. Destructive Interference

Constructive Interference
In constructive interference, when the waves interfere a larger wave is produced, this is as a result of the waves meeting at in-phase points such as a crest meeting a crest or a trough meeting a trough.



Destructive Interference
In destructive interference the two original waves will meet to produce a smaller wave. The final wave produced is as a result of the original waves meeting at out of phase points such as a crest meeting a trough. The resulting wave can also be non-existent.


















Diffraction – Interference Fringes























In the diagram above diffraction occurs at slits s1 and s2, the diffracted waves then interfere. The solid lines in the diagram represent crests; therefore in the diagram above the waves interfere at in-phase points (crest to crest) producing bright fringes or bands. In this diagram constructive interference takes place.
























In the diagram above diffraction occurs at slits s1 and s2, the diffracted waves then interfere producing dark bands on the screen. This is known as destructive interference and occurs as a result of the waves interfering at out of phase points (crest to trough), the crest is represented by the solid line while the trough is represented by the broken line.




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In some waves the vibrations can be observed moving throughout the material but in others the vibrations/ disturbances can appear to be still or not present in the material; with these facts scientists were able to categorize waves based on these differing characteristics. These are:

  1. Progressive Waves
  2. Standing/Stationary Waves

Progressive Waves
Progressive waves are those waves having visible disturbances meaning the vibrations can be seen moving throughout the material.

Standing/Stationary Waves
Standing waves are produced when two waves interfere this results in an invisible disturbance though the wave is moving throughout the material. Standing waves consist of two different points known as nodes and antinodes.

Nodes: These are points in the wave that have zero energy and displacement.
Anti-Nodes: These are points in the wave that have the highest energy or amplitude.

The distance between two consecutive nodes or anti-nodes makes half a wavelength.

Waves formed from stringed and wind instruments are stationary waves. Open ends always have an antinode while closed ends have a node.

Stationary wave in Wind Tube

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What are In-Phase Points?
Inphase points are points of a wave that are located at the same position in the wave cycle. Waves that are inphase are separated by an even multiple of half wavelength (π).Such waves will undergo constructive interference.

Inphase

The x’s in the diagram above marks points that are in-phase in the wave cycle.

What are Out of Phase Points?
Out of phase points are points that are not located in the same position in the wave cycle. Waves that are out of phase are usually separated by an odd multiple of half wavelengths (π). These waves undergo destructive interference.




Looking at the diagram above we are going to determine which are in phase against those that are out of phase.

  1. π to 3π would be inphase because the difference is an even number 2π.
  2. 2π to 4π would be inphase because the difference is also an even number 2π.
  3. 2π to 6π would be inphase because the difference is an even number 4π.
  4. 1π to 4π would be out of phase because it is separated by an odd number 3π.


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What is Longitudinal Wave?
A longitudinal wave is one in which the particles in the wave vibrate parallel to the direction in which the wave is moving. That is the particles can only move in a back or forth movement in the same direction as the wave.

Examples of Longitudinal Waves:

  1. Sound Waves
  2. Waves in Springs
  3. Vibrations in Gases
  4. Waves in Tsunami
Longitudinal wave



What is Transverse Wave?
A transverse wave is one in which the particle vibrates perpendicularly to the direction in which the wave is moving. Such waves can only move in an up or down direction with respect to the direction of the wave.

Examples of Transverse Waves?

  1. Water Waves
  2. Waves in Ropes
  3. Electromagnetic waves
  4. Guitar string that is Vibrating
Transverse Wave

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Wave
via ScienceTm
In previous lessens we looked at what is a wave. If you’re unclear on this topic click here to read more about waves.
In physics there are two known types of waves, these are:
  1. Mechanical Wave
  2. Electromagnetic wave


The differences between these two lie in their means of transferring energy. One may not see the difference between sound waves and light rays because as humans we aren’t capable of seeing such things with our naked eyes but thanks to human intelligence and through many research scientists were able to detect movement of energy in waves and thus differentiate the means by which they are transferred.

What are Mechanical Waves?
Mechanical waves are those that need a material medium with particles to enable them to move. Therefore these waves can’t “travel on their own”.

Examples of mechanical waves:

  • Sound Waves
  • Water Waves
  • Waves in springs


What is Electromagnetic wave?
Electromagnetic waves are those that do not need any material medium to enable them to move. Therefore these waves can travel on their own. These waves can travel through a vacuum.

Examples of electromagnetic waves:

  • Visible light
  • X-rays
  • Infrared rays
  • Ultraviolet rays
  • Radio waves
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When two waves interact to produce a weaker wave or a stronger wave Interference is said to have occured.
There are two things that must take place for interference to occur: 
  1. The sources of these waves must have a constant phase difference and the same frequency. This is called Coherent.
  2. Also these waves must have the same amplitude.
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