math_04 said:I understand that according to the photoelectric effect, the photons are apparently 'absorbed' by the electron if it is of the right energy i.e an all or nothing process. But in the Compton effect, the photon scatters off the electron with a change in wavelength? I am trying to get my head over the meaning of that, it does not make much sense. Anyone care to shed some light on it?
The Compton effect and the photoelectric effect are both phenomena that occur in the field of quantum physics. The Compton effect refers to the scattering of X-rays and gamma rays by electrons, while the photoelectric effect describes the emission of electrons from a metal surface when exposed to light. The main difference between the two is that the Compton effect involves the interaction between a photon and an electron, whereas the photoelectric effect involves the absorption of a photon by an electron.
The Compton effect and the photoelectric effect are related in the sense that they both involve the interaction between photons and electrons. In both cases, the energy of the photon is transferred to the electron, resulting in the emission of electrons. However, the mechanisms behind these two phenomena are different, and they occur under different conditions.
The Compton effect and the photoelectric effect have numerous applications in various fields. The Compton effect is used in medical imaging, such as X-ray computed tomography (CT), while the photoelectric effect is the basis for solar panels and photocells used in converting light energy into electrical energy. Both of these effects are also used in scientific research to study the properties of matter and radiation.
The wave-particle duality of light is a fundamental concept in quantum physics, which states that light can exhibit both wave-like and particle-like properties. The Compton effect and the photoelectric effect provide evidence for this duality by showing that light can behave as both a wave and a particle. In the Compton effect, the scattered photons behave like particles, while in the photoelectric effect, the absorption of photons by electrons is more consistent with the wave-like behavior of light.
No, the Compton effect and the photoelectric effect cannot be explained by classical physics. These phenomena can only be explained by quantum mechanics, which takes into account the wave-particle duality of light and the discrete nature of energy. In classical physics, light is considered to be a continuous wave, and the energy of electrons is not quantized, which is not consistent with the observations of the Compton effect and the photoelectric effect.