Gamma rays have the most energy per photon.
No. It is electromagnetic radiation, beyond the violet end of the visible spectrum.
light energy
We call that ionizing radiation.
Energy is equal to Planck's constant times the speed of light divided by the wavelength of the light. E=h*c / lambda. So the electromagnetic radiation with the largest wavelength will correspond to the lowest energy. Since radio waves have the largest wavelength (about 1,000m) they will have the lowest energy!
When radiation wavelength becomes longer, the energy of the radiation decreases. This generally corresponds to moving from higher energy regions of the electromagnetic spectrum (e.g. ultraviolet, X-rays) to lower energy regions (e.g. infrared, radio waves). This change in energy can affect how the radiation interacts with matter and the environment.
Gamma rays have the highest energy of all electromagnetic radiation wavelengths.
The relationship between wavelength and frequency in electromagnetic radiation is inverse - shorter wavelengths correspond to higher frequencies. Higher frequency radiation carries more energy, as energy is directly proportional to frequency in the electromagnetic spectrum.
Gamma rays have the most energy per photon.
Gamma rays carry the most energy among electromagnetic waves. They have the shortest wavelength and highest frequency, making them the most energetic form of electromagnetic radiation.
Gamma rays carry the maximum energy among all types of radiation, as they have the shortest wavelength and highest frequency in the electromagnetic spectrum.
inversely
Electromagnetic radiation has the lowest energy due to its long wavelength and low frequency. In the electromagnetic spectrum, radiation with longer wavelengths, such as radio waves, carries lower energy compared to higher-frequency radiation like gamma rays.
A photon is a particle of electromagnetic radiation with no mass that carries a quantum of energy. It is the fundamental unit of light and other forms of electromagnetic radiation.
True. Shorter wavelengths of electromagnetic radiation correspond to higher energy levels. This relationship is described by the equation E=hf, where E is energy, h is Planck's constant, and f is frequency. The higher the frequency (related to wavelength inversely), the more energy the wave carries.
The frequency of an electromagnetic wave is directly proportional to the energy of the radiation. Higher frequency waves have higher energy levels.
Electromagnetic radiation
Visible light is the energy in the form of electromagnetic radiation that is most often associated with a wavelength that is visible to the human eye.