Here you have the frequencies of BLUE and colors next to it:
violet
380-450 nmblue
450-475 nmcyan
476-495 nm
The wavelength of visible light ranges from 380 to 740 nano meters.
Out of this, what we consider to be blue is approximately between 420-475 nano meters.
Here you have the frequencies of the colour and those next to it:
violet668-789 THz380-450 nmblue631-668 THz450-475 nmcyan606-630 THz476-495 nm
The Wavelength absorbed (nm) of violet blue is 430 nm
Blue light has a wavelength of approx 475 nanometres.
375 nanometers.
450-475 nm
Its wavelength (or frequency).
It defines light because wavelength has a L in it's word, and so does light.
For visible light, the wavelength will usually be specified in nm (nanometers).
The shortest wavelength of visible light is the wavelength of the last color you can see on the blue end of the rainbow or spectrum.
wavelength = speed of light/frequency so we rearrange frequency = speed of light/wavelength Hopefully you can figure it out from here...
No object can vibrate at the wavelength of light. wavelength of light depends on the intensity of light and electron movements.
Scattering of light
Its wavelength (or frequency).
wavelength = c/frequency of light where c is the speed of light.
It defines light because wavelength has a L in it's word, and so does light.
No, red light has the longest wavelength within the visible light spectrum.
No, red light has the longest wavelength within the visible light spectrum.
Red light (longer wavelength)
Red is the longest wavelength of visible light
Red is the longest wavelength of visible light
For visible light, the wavelength will usually be specified in nm (nanometers).
The shortest wavelength of visible light is the wavelength of the last color you can see on the blue end of the rainbow or spectrum.