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a wave with the longest wavelength..
wavelength
Firstly, diffraction refers to what happens to a range of wavelengths. It means the different wavelengths are spread out, producing a spectrum under the right circumstances. Secondly, the 'obstacle' has to be transparent, so the waves pass from one medium to another. More properly, light hits the boundary between two transparent media (e.g. air and glass), and it is refracted(bent) as it enters the glass block. Shorter wavelengths are refracted more, so the beam is spread out, or diffracted. The easy way to remember this is 'blue bends best'.
Amplitude (the height of the wave)
The sun wave has the most light energy, but most of you might not even know that there are more than one light energy wave and i know it.
a wave with the longest wavelength..
It diffracts
wavelength
The wave diffracts and behaves like the opening is a point source.
Firstly, diffraction refers to what happens to a range of wavelengths. It means the different wavelengths are spread out, producing a spectrum under the right circumstances. Secondly, the 'obstacle' has to be transparent, so the waves pass from one medium to another. More properly, light hits the boundary between two transparent media (e.g. air and glass), and it is refracted(bent) as it enters the glass block. Shorter wavelengths are refracted more, so the beam is spread out, or diffracted. The easy way to remember this is 'blue bends best'.
Yes, light can produce interference patterns. When a light wave passes through two closely spaced slits or obstacles, it diffracts and creates an interference pattern consisting of alternating bright and dark regions on a screen. This phenomenon is known as the interference of light and is a characteristic of wave-like behavior.
Amplitude (the height of the wave)
A secondary wave!
Seismic wave
The sun wave has the most light energy, but most of you might not even know that there are more than one light energy wave and i know it.
When a wave passes from a less dense medium to a denser one, most of the wave energy is answer is reflected FALSE
Increasing a wave's wavelength will most certainly decrease its frequency. See Physics.