Principle of Superposition of Waves
Principle of Superposition of WavesAt any point of the medium, the combined effect is given by the principle of superposition.This principle states that if at any point two waves of the same kind r...
Wave Motion and types of Waves
Wave Motion
A wave is the transfer of energy and momentum, in form of disturbance, from one part of a medium to another without the actual transfer of particles of the medium from one point to another.
For example, water waves spread along the surface from one point to another, every object floating on the water will be disturbed by the wave but it does not travel along with the wave.
This shows that no water particles are actually transferred to carry the wave.
Similarly, sound waves carry energy from the source to the observer by disturbance of air.
Let. f = the frequency of oscillation of a source, 2. = the wavelength of the wave.
For one complete vibration of the source, the disturbance moves forward (ie, away from the source) a distance λ. Therefore, the total distance traveled by the wave in one second (i.e. after f vibrations of the source) is fλ.
V, the velocity of the wave which can be defined as the distance the wave profile or waveform moves in one second, is given by.
V = fλ
This equation is the equation of wave motion for all kinds of waves including mechanical waves, sound waves, and electromagnetic waves.
Waves are classified into two groups according to motions of matter particles of a medium with respect to the direction of propagation of waves.
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Transverse waves: If the matter particles of a medium conveying the wave vibrate in the direction perpendicular to the direction of propagation of the wave, it is called a transverse wave.
For example, waves on the water surface, plucked strings, a vertical spring under tension set into oscillation are transverse waves.
Electromagnetic waves are not mechanical waves.
Though the disturbance that travels conveying the wave is not matter particles but electric and magnetic fields that are perpendicular to the direction of wave propagation.
Thus, electromagnetic waves are also transverse waves.
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Longitudinal waves: If the vibration of the particles conveying the wave is parallel to the direction of propagation of waves, the wave is longitudinal.
Sound wave is the most common example of the longitudinal wave which is propagated by alternate compression and rarefaction of air molecules.
Waves on the surface of the water are neither purely longitudinal nor purely transverse. As the wave passes, the particles of water move both back and forth, and up and down.
