+20 votes
in Wavelength by
edited by

Your answer

Your name to display (optional):
Privacy: Your email address will only be used for sending these notifications.
+5 votes
by

The energy of a light wave is primarily determined by its frequency, not its amplitude or wavelength. The energy of a single photon of light is directly proportional to its frequency, according to the equation E = hf, where E represents the energy, h is Planck's constant, and f is the frequency of the light wave.

Amplitude: The amplitude of a light wave refers to the maximum displacement or intensity of the wave. It corresponds to the brightness or intensity of the light. The amplitude does not directly determine the energy of the light wave; instead, it affects the intensity or brightness of the light. Higher amplitude light waves appear brighter, while lower amplitude waves appear dimmer. However, the energy of individual photons within the wave is determined by the frequency.

Wavelength: The wavelength of a light wave refers to the distance between two successive points of the wave, such as two peaks or two troughs. Shorter wavelengths correspond to higher frequencies, while longer wavelengths correspond to lower frequencies. However, the energy of a light wave is determined by its frequency, not its wavelength. Therefore, the energy of light is not directly related to the length of its wavelength.

Frequency: The frequency of a light wave refers to the number of oscillations or cycles of the wave that occur per unit of time. Higher frequency light waves have more oscillations per unit time and are associated with shorter wavelengths. Lower frequency light waves have fewer oscillations per unit time and are associated with longer wavelengths. The energy of a light wave is directly proportional to its frequency. Higher frequency light waves have higher energy photons, while lower frequency light waves have lower energy photons.

In summary, the energy of light is primarily determined by its frequency, not its amplitude or wavelength. Higher frequency light waves, associated with shorter wavelengths, have higher energy photons. Lower frequency light waves, associated with longer wavelengths, have lower energy photons. The amplitude of a light wave affects its brightness or intensity but does not directly impact its energy.

Welcome to Physicsgurus Q&A, where you can ask questions and receive answers from other members of the community.
...