When you shine a certain level of light wavelength on metal, you can knock electrons off the atoms of the metal. This phenomenon was explained by Albert Einstein in 1905, for which he received a Nobel Prize in 1921.
In the photoelectric effect, photons eject electrons from a material's surface. The electrons gain kinetic energy and are emitted as photoelectrons. If the photon has sufficient energy (greater than the material's work function), the electron will be completely ejected from the material.
light knocks electrons off metal ions << apex : )
When you shine a certain level of light wavelength on metal, you can knock electrons off the atoms of the metal. This phenomenon was explained by Albert Einstein in 1905, for which he received a Nobel Prize in 1921.
Apex Light is made of photons.
Light can cause electrons to be released from the surface of a metal. <<<<Apex>>>>
In the photoelectric effect, photons eject electrons from a material's surface. The electrons gain kinetic energy and are emitted as photoelectrons. If the photon has sufficient energy (greater than the material's work function), the electron will be completely ejected from the material.
light knocks electrons off metal ions << apex : )
When you shine a certain level of light wavelength on metal, you can knock electrons off the atoms of the metal. This phenomenon was explained by Albert Einstein in 1905, for which he received a Nobel Prize in 1921.
Light can cause electrons to be released from the surface of a metal. <<<<Apex>>>>
Apex Light is made of photons.
Light can cause electrons to be released from the surface of a metal. <<<<Apex>>>>
Apex Light is made of photons.
electrons that are closer to the nucleus!..apex//
Apex Light is made of photons.
When you shine a certain level of light wavelength on metal, you can knock electrons off the atoms of the metal. This phenomenon was explained by Albert Einstein in 1905, for which he received a Nobel Prize in 1921.
1 -apex
Nope, Chlorine reacts if it gains electrons. Not Lose. Apex