There is a range of wavelengths for visible light. Violet is at the short wavelength end of the range(about 400 nm) and Red is at the long wavelength end of the range(about 600 nm). Yellow is in the middle with a wavelength of about 500 nanometers . That would be .0000005 meters.
Green algae utilise mainly red and some blue light for photosynthesis.
Amplitude is independent of frequency. Higher amplitude means more brightness.
The diameters of isolated neutral atoms range between 0.06 and 0.6 nanometers.
The wavelength of green light is very roughly about 510 nanometers.
It depends on the colour as there is a range of wavelengths for visible light.
Appox. 540 nm Zeiss Guy
5460.74 Angstroms
The SI unit is meter. But nanometer and angstrom are commonly used units to measure the wavelength of light.
"Wavelength" is described in any convenient unit of length or distance, such as meter, foot, inch, furlong, kilometer, Angstrom, smoot, light-year, etc.
For visible light, the wavelength will usually be specified in nm (nanometers).
No all distances are measured in metres. Large distances in multiples of a metre, and small distances in fractions of a metre. Radii of atoms fall between 30 and 300 picometres. A picometre, pm, is 10−12 metres.
Nanometres. mX10^-9
The SI unit is meter. But nanometer and angstrom are commonly used units to measure the wavelength of light.
1 Angstrom = .1 nanometer
In SI system, unit of wavelength is meter. Any way meter is a large unit so we use Angstrom and some times nanometer. Angstrom (Ǻ) equals to 10 -10 m and nano metre equals to 10-9 m. The range of wavelength for visible light is from 3700 Ǻ to 7200 Ǻ.
"Wavelength" is described in any convenient unit of length or distance, such as meter, foot, inch, furlong, kilometer, Angstrom, smoot, light-year, etc.
No, the angstrom is a unit of distance. Specifically 0.1 nanometer. It is a very convenient unit for measuring the wavelengths of various colors of visible light.
nanometer
For visible light, the wavelength will usually be specified in nm (nanometers).
The word is "angstrom," not "anstrom." An angstrom is a unit of length - a very, very small unit. One angstrom is ten to the minus ten meters, which is one ten-billionth of a meter. Angstrom units are often used in measurements such as the wavelengths of various kinds of light, from say infrared to ultraviolet.
In SI system, unit of wavelength is meter. Any way meter is a large unit so we use Angstrom and some times nanometer. Angstrom (Ǻ) equals to 10 -10 m and nano metre equals to 10-9 m. The range of wavelength for visible light is from 3700 Ǻ to 7200 Ǻ.
The word is "angstrom," not "anstrom." An angstrom is a unit of length - a very, very small unit. One angstrom is ten to the minus ten meters, which is one ten-billionth of a meter. Angstrom units are often used in measurements such as the wavelengths of various kinds of light, from say infrared to ultraviolet.
No all distances are measured in metres. Large distances in multiples of a metre, and small distances in fractions of a metre. Radii of atoms fall between 30 and 300 picometres. A picometre, pm, is 10−12 metres.
The wavelength of light is expressed in different metric subunits derived from meters. For example, radio waves are measured in meters, visible light is measured in nanometers, and gamma rays are measured in picometers.I believe that would be the nanometer. In the past, the angstrom (= 1/10 nm) has been frequently used.