colour blue ------> red frequency drops, wavelength increases, because speed remains constant and speed=frequency*wavelength
The frequency reduces because red has lower frequency then blue
it gets higher.
As you increase frequency past violet light, to the region where the eye no longer perceives it, you're in the "ultraviolet" region.
Infared
what
c = wavelength x frequency, where c = speed of light, which is 299,792,458m/sKnown: c and frequencyUnknown: wavelengthWavelength = c/frequency = (299,792,458m/s)/(3,000,000/s) = 99.9mIt is in the radio region of the electromagnetic spectrum.See the related link below.
it gets higher.
I think in the ultraviolet region of the electromagnetic spectrum.
It lies in infrared region of electromagnetic spectrum.
6.6´1015 Hz, ultraviolet
It Increases. Red light has a wave length of about, 620-750 nm. Blue light a wave length of about 450-475 nm
It Increases. Red light has a wave length of about, 620-750 nm. Blue light a wave length of about 450-475 nm
As you increase frequency past violet light, to the region where the eye no longer perceives it, you're in the "ultraviolet" region.
Visible region.
Infared
what
c = wavelength x frequency, where c = speed of light, which is 299,792,458m/sKnown: c and frequencyUnknown: wavelengthWavelength = c/frequency = (299,792,458m/s)/(3,000,000/s) = 99.9mIt is in the radio region of the electromagnetic spectrum.See the related link below.
the visible light spectrum