Diffraction, Interference etc are the phenomenon which confirm the wave nature of light.!
No, particles of the medium do not become part of the wave
Louis de Broglie
Compression is the squeezing of a group of particles in a wave.
in a transverse wave the individual particles of the medium
If the particles themselves do not move, then you have no wave, and nothing is transferred.If the particles are free to move about their rest positions, then you can have a wave, andit can transfer energy from place to place.
The particles of the medium will gain some energy. The exact effect will depend on the nature of the wave as well as that of the medium.
by observing the dark fringe due to absence of electrons and by observing bright fringe due to excess of electrons.
No, particles of the medium do not become part of the wave
Many people contributed to the knowledge of the nature of light - some proving that it behaved as a stream of particles, others proving that it behaved as a wave.
In physics, light can be thought of as packets of particles called photons. Light also has a wave nature.
Louis de Broglie
Compression is the squeezing of a group of particles in a wave.
The particles of the wave (for compressive waves). Or for transverse waves, yet the particles move parallel to the wave too.
The bird, is the word.
A Transverse wave of particles.
Yes, in the form of a probability wave. It's important to realize that the wave behavior of electrons in atoms isn't analogous to, say, a wave in the ocean. An electron's wave behavior is one of probability, there's no macroscopic equivalent. The probability of finding an electron at a certain location oscillates like a wave, not the electron itself.
in a transverse wave the individual particles of the medium