5,000 km = roughly 3,107 miles
The frequency of the source that produced the wave.
E = h f (relation of energy with frequency) E = h c / λ (relation of energy with wavelength) h = Planck's constant ≈ 6.026 × 10⁻³⁴ J.s c = speed of light = 299,792,458 m/s in vacuum ≈ 3.0 × 10⁸ m/s
Gamma rays have the shortest wavelength compared to most of other electromagnetic radiation. Gamma rays have high penetrating power and are high in frequency. Exposure to this type of radiation can cause many health complications.
If you divide the speed of light (in meters/second) by the frequency (in Hz), you get the wavelength (in meters).
In the visible spectrum the color is determined by its' wavelength. The energy of the quantum package is determined by the wavelength. The shorter the wavelength the more power per package.
You will need to have the right formula. The best one to use would be wavelength=frequency/speed of light. to find energy you would need energy=frequency*h. And intensity=power/area.
You will need to have the right formula. The best one to use would be wavelength=frequency/speed of light. to find energy you would need energy=frequency*h. And intensity=power/area.
An electromagnetic wave with a longer wavelength will have a smaller frequency, and less energy per photon.An electromagnetic wave with a longer wavelength will have a smaller frequency, and less energy per photon.An electromagnetic wave with a longer wavelength will have a smaller frequency, and less energy per photon.An electromagnetic wave with a longer wavelength will have a smaller frequency, and less energy per photon.
That number has no units, and just-plain-numbers don't have wavelengths. If you mean that number to have the unit of "Hertz", and to be a frequency of, say, an electromagnetic wave in vacuum, then it's wavelength would be 296.8 nanometers ... an ultraviolet wave.
The frequency of the source that produced the wave.
E = h f (relation of energy with frequency) E = h c / λ (relation of energy with wavelength) h = Planck's constant ≈ 6.026 × 10⁻³⁴ J.s c = speed of light = 299,792,458 m/s in vacuum ≈ 3.0 × 10⁸ m/s
Gamma rays have the shortest wavelength compared to most of other electromagnetic radiation. Gamma rays have high penetrating power and are high in frequency. Exposure to this type of radiation can cause many health complications.
If you divide the speed of light (in meters/second) by the frequency (in Hz), you get the wavelength (in meters).
For electromagnetic radiation, frequency x wavelength equals the speed of liqht, c, in a vacuum, which is 3.0 x 108 cm/s.Formula: c = frequency x wavelengthYour given information is the frequency of 2.5 x 108/s.Your known information is c, which is 3.0 x 108 m/s.To solve for wavelength, do the following:wavelength = c/frequency = (3.0 x 108 m/s)/(2.5 x 108/s) = 12 m
In the visible spectrum the color is determined by its' wavelength. The energy of the quantum package is determined by the wavelength. The shorter the wavelength the more power per package.
Those are the ones with the highest frequency/shortest wavelength/most energy per photon. Most . . . gamma rays Next most . . . X-rays . . . Least . . . low-frequency radio waves
The speed of light is fixed and so the wavelength and the frequency of light are related like this:wavelength * frequency = speed of lightYou just have to be careful your units match up. Often wavelengths of light are listed in nanometers, or nm, while the speed of light is often given in meters per second, or m/s. Make sure everything is in terms of meters or your answer will be way off. Frequency is almost always given in terms of 1/seconds, which is also called a Hertz. See the Web Links for more information about the electromagnetic spectrum.