This is because of the the fact that , the inter-particle interaction between electron-proton and electron-neutron, taken one attosecond to cease, only after which can a photoelectron be liberated from the forces of attraction and repulsions within the atom.
The particle nature of light is illustrated by the photoelectric effect.
When the light combine with the speed in a photoelectric effect it produces a picture of the object.
A candle
photoelectric effect
Einstein's photoelectric effect work found that the incident light involved in the photoelectric effect was made of individual quanta (photons) that interacted with the metal's electrons like discrete particles, not waves.
The particle nature of light is illustrated by the photoelectric effect.
When the light combine with the speed in a photoelectric effect it produces a picture of the object.
A candle
photoelectric effect
Einstein's photoelectric effect work found that the incident light involved in the photoelectric effect was made of individual quanta (photons) that interacted with the metal's electrons like discrete particles, not waves.
The particle nature of light is illustrated by the photoelectric effect.
yes it will
No. To explain the photoelectric effect, you have to think of light as a particle, not a wave. The fact that light can be both a wave and a particle is part of quantum mechanics, not classical physics.
The particle nature of light is illustrated by the photoelectric effect.
the particle nature of light
light knocks electrons off metal ions << apex : )
After irradiation with photons metals emit electrons.