The "blue end" ... which would be violet.
a longitudinal wave
a longitudinal wave
Visible light wiith the lowest frequency / longest wavelength produces the last color you can see on the red end of the spectrum. Visible light with the highest frequency / shortest wavelength produces the last color you can see on the violet end of the spectrum.
It will form a pulse wave because the rope is being moved once. NOTE: If the movement continued, then the wave would be a transverse wave.
The type of electromagnetic wave the borders visible light at the red end of its range is the Infrared light wave.
violet with shortest wave length is deviated most this type of spectrum ranging from violet and one end red at other and without any discontinuous is called continuous spectrum
The "blue end" ... which would be violet.
a longitudinal wave
a longitudinal wave
The shortest wavelength of visible light for your eye is the wavelength of the lastcolor you can see on the blue end of the rainbow. It may be slightly different forsomeone else's eye.
Just ONE property, the wavelength of the light. The colour of visible light depends on its wavelength. These wavelengths range from 700 nm at the red end of the spectrum to 400 nm at the violet end.
Visible light wiith the lowest frequency / longest wavelength produces the last color you can see on the red end of the spectrum. Visible light with the highest frequency / shortest wavelength produces the last color you can see on the violet end of the spectrum.
It will form a pulse wave because the rope is being moved once. NOTE: If the movement continued, then the wave would be a transverse wave.
Buoyancy
Radars operate in the radio end of the em spectrum.
Violet, scarlet...