Lambda = wavelength = 1.0 Angstrom = 1.0 x 10-10 m
f = frequency
c = speed of light (2.9979 x 108 m/s)
*Use the following equation:
c = lambda x f (lambda times f)
*Rearrange the equation for frequency:
f = c / (lambda) (c divided by lambda)
= (2.99798 m/s) / (1.0 x 10-10 m/s)
= [answer]
255 nanometers is 0.000000255m
Ten million.1 angstrom = 1 × 10-7 millimetersor1 millimeter = 10,000,000 angstrom
yes, a micrometer is 10^-6 and a picometer is 10^-12
An Angstrom (symbol: Å) is a unit of measure.The Angstrom unit is most suitable for describing a measurement of atomic distance, the the distance between two atoms in a molecule.For example the main gaseous components of air are: 78% Nitrogen (N2), 21%Oxygen (O2) and 1% Argon (Ar).The Angstrom unit is used to measure some of the size attributes of these gases:N2 gas has 2 atoms of Nitrogen, O2 gas has 2 atoms of Oxygen. Argon gas is a single atom.N2 gas has 2 atoms attached with a bond length of 1.09 ÅO2 gas has 2 atoms attached with a bond length of 1.21 ÅN2 gas has a diameter of 3.16 Å *O2 gas has a diameter of 2.96 Å *Ar gas has 1 atom with mean radius of 0.95Å* This is a "gas viscosity kinetic diameter" as N2 and O2 are not spherical.The Angstrom unit is one ten-billionth of a meter.To put the Angstrom size in perspective:1.0 Meter, 1 M0.01 ^10-2 CentiMeter, hundredth, 1/100 M0.001 ^10-3 MilliMeter, thousandth, 1/1,000 M0.000001 ^10-6 MicroMeter, millionth, 1/1,000,000 M (aka. micron)0.000000001 ^10-9 NanoMeter, billionth, 1/1,000,000,000 M0.0000000001 ^10-10 Angstrom 10 billionth, 1/10,000,000,000 M0.000000000001 ^10-12 PicoMeter, trillionth, 1/1,000,000,000,000 MDuncanMiles - Science Writer (original contributor)
picometres (10-12m)
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.
The Angstrom unit is typically used to describe the wavelength of light waves. One Angstrom is equal to 10^-10 meters or 0.1 nanometers. It is commonly used in the field of spectroscopy and optics to measure the electromagnetic spectrum of light.
380 nanometers [Violet] to 750 nanometers [Red].1 nanometer = 10 Angstroms.3800 Angstroms [Violet] to 7500 Angstroms [Red].
I assume you are talking about an electromagnetic wave; in this case, divide the speed of light (300,000,000 meters per second) by the wavelength. You must first convert the wavelength to meters (divide Angstrom by 1010).
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.
To convert the wavelength from nanometers to angstroms, you divide by 10. Therefore, the wavelength of the red light beam, which is 638 nm, would be 63.8 angstroms.
10-10 metres = 1 Angstrom.
255 nanometers is 0.000000255m
1 angstrom = 1 x 10-10m 1 nanometer = 1 x 10-9m 1.9 angstrom = 0.19 nm
do you mean angstrom? 1 angstrom is 1 x 10^-10 meters 1000 = 10^3 10^3 * 10^-10 = 10^(3 + -10) = 10^-7 1000 angstrom = 1 x 10^-7 meters
An 'Angstrom' is 10-10m. The wavelength of visible light starts from 3800 Angstrom and extends up to 7500 Angstrom. These are the wavelengths to which the human eye responds. The color or wavelength to which our eyes respond readily is 5550 Angstrom (green color). The colors that we identify are different wavelengths of visible light. Not surprisingly, evolution has bestowed us with eyes that respond to the wavelength range in which Sun radiates its energy. The wavelength range of different colors in the visible electromagnetic spectrum is as follows:Violet: 3800 - 4500 AngstromIndigo: 4200 - 4500 AngstromBlue: 4500 - 4950 AngstromGreen: 4950 - 5700 AngstromYellow: 5700 - 5900 AngstromOrange: 5900 - 6200 AngstromRed: 6200 - 7500 Angstromif any other questions mail mevsvvssrao@gmail.combabby.vs@facebook.com