The energy of a photon is the frequency times Planck's constant, hν. Gamma ray photons have the highest energy, then x-rays, ultraviolet, visible light (from violet to red), infrared, microwaves & radio waves. Then there's intensity whuch depends on how many photons you have. The brighter the light the more energy you get per unit time per unit area.
The amplitude of the wave determines how much energy it is carrying. A wave with a greater amplitude carries more energy than a wave with a smaller amplitude.
The amplitude of a wave determines its energy. The larger the amplitude, the more energy the wave carries.
The amplitude of a wave is the factor that determines a wave's energy. Amplitude is the measure of the height of the wave, which correlates with the energy the wave carries. Waves with larger amplitudes have more energy.
Gamma rays have the highest energy among all electromagnetic waves and can transfer the most energy due to their short wavelengths and high frequency.
The amount of energy in a wave is determined by its amplitude, which is the height of the wave from the equilibrium position. Waves with greater amplitude carry more energy.
Sure it can
The amplitude of the wave determines how much energy it is carrying. A wave with a greater amplitude carries more energy than a wave with a smaller amplitude.
light energy is any visible form of energy that forms part of the electomagnetic spectum it is therefore transmitted as any form of electromagnetic wave.
The amplitude of a wave determines its energy. The larger the amplitude, the more energy the wave carries.
The amplitude of a wave is the factor that determines a wave's energy. Amplitude is the measure of the height of the wave, which correlates with the energy the wave carries. Waves with larger amplitudes have more energy.
Gamma rays have the highest energy among all electromagnetic waves and can transfer the most energy due to their short wavelengths and high frequency.
The amount of energy in a wave is determined by its amplitude, which is the height of the wave from the equilibrium position. Waves with greater amplitude carry more energy.
The energy of an electromagnetic wave is determined by its frequency. The higher the frequency of the wave, the higher the energy it carries. This relationship is described by the equation E=hf, where E is energy, h is the Planck constant, and f is frequency.
The energy of a wave is determined by its amplitude, which is the height of the wave from its equilibrium position. A wave with a higher amplitude will carry more energy. Additionally, the frequency of the wave, which is the number of complete oscillations per second, also affects the energy of the wave.
No, lower frequency does not necessarily mean more energy for amplitude. The energy of a wave is determined by its amplitude, not its frequency. The amplitude of a wave is the height of its peaks and determines the intensity or energy of the wave.
The size of a wave is not affected by the wavelength, but rather by the energy carried by the wave. The wavelength determines the distance between wave crests, while the amplitude of the wave determines its size or height. Changing the wavelength of a wave will not inherently change its size.
The amplitude of a wave determines its intensity or energy. In simpler terms, it represents the maximum displacement of a wave from its equilibrium position. The greater the amplitude, the greater the energy carried by the wave.