The wavelength of a photon is the distance between one crest of the wave and the next. This distance is measured in nanometers.
How To Calculate The Energy of a Photon Given Frequency & Wavelength in nm Chemistry
What is the wavelength of a photon?
What is the wavelength of the photon released in part b?
How does the wavelength of a photon affect its properties?
What are the applications of wavelength
The wavelength of a photon is the distance between its crests. The shorter the wavelength, the higher the energy of the photon.
What are the dangers of wavelength
There are a few things to consider when discussing the wavelength of a photon.
First, a photon is a quantum particle and has a range of possible energy levels.
Second, photons have a specific wavelength because they are composed of a particular type of energy (in the form of a light particle).
Third, the shorter the wavelength of a photon, the higher its energy.
Finally, the higher the energy of a photon, the more dangerous it is to either the human eye or other electronic equipment.
There are two types of photons: the quanta that make up light and the photons that are released when the quanta are absorbed. The wavelength of a photon is the distance between two consecutive quanta in a wave. This is different from the color of a photon, which is determined by the frequency of the light.
In conclusion, the wavelength of the photon that was released in part B was 400 nanometers.