No. The energy of an EM wave is E = h*c / (wavelength), therefore waves with the shortest wavelength (or highest frequency) carry the greatest energy.
No, gamma rays have the shortest wavelength among all electromagnetic radiations. They have the highest frequency and highest energy in the electromagnetic spectrum.
Gamma rays have the greatest frequency among the electromagnetic waves. They have the shortest wavelength and highest energy in the electromagnetic spectrum.
Radio waves have the longest wavelengths among all types of electromagnetic energy. They have wavelengths ranging from a few millimeters to kilometers.
Light waves with the shortest wavelength carry the greatest amount of energy. This is because energy is inversely proportional to wavelength according to Planck's equation E = hc/λ, where E is energy, h is Planck's constant, c is the speed of light, and λ is wavelength.
Amount of energy in a wave is defined by the wave's amplitude. The wave's location on the electro-magnetic spectrum does not define it's energy. However, there could be a correlation between a wave's wavelength and it's energy per wavelength. In this case, it would be your gamma ray.
radio waves
radio wave is form of electromagnetic energy which has the longest wavelength in electromagnetic spectrum
No, gamma rays have the shortest wavelength among all electromagnetic radiations. They have the highest frequency and highest energy in the electromagnetic spectrum.
Gamma rays have the greatest frequency among the electromagnetic waves. They have the shortest wavelength and highest energy in the electromagnetic spectrum.
The colors of visible light
Radio waves have the longest wavelengths among all types of electromagnetic energy. They have wavelengths ranging from a few millimeters to kilometers.
Radio waves have the longest wavelength in the electromagnetic spectrum (EM), and are pure energy, they have no mass.
the lowest frequency Lester was here
-- longest wavelength -- lowest frequency
Light waves with the shortest wavelength carry the greatest amount of energy. This is because energy is inversely proportional to wavelength according to Planck's equation E = hc/λ, where E is energy, h is Planck's constant, c is the speed of light, and λ is wavelength.
Amount of energy in a wave is defined by the wave's amplitude. The wave's location on the electro-magnetic spectrum does not define it's energy. However, there could be a correlation between a wave's wavelength and it's energy per wavelength. In this case, it would be your gamma ray.
Gamma rays have the greatest energy of photons among all electromagnetic waves. They are the most energetic and have the shortest wavelength in the electromagnetic spectrum.