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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.
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.
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.
If the question is referencing the phenomena of light rays contacting certain metals, then the photoelectric effect can be applied. The photoelectric effect, described by Albert Einstein as part of his Nobel Prize, notes that a photon strikes certain metal solids and excites and releases an electron from the metal. Hope thats what you're looking for or if that's even correct! haha :)
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.
Use a metal with a lower work function.
light knocks electrons off metal ions << apex : )
No,The production of x rays is a reverse process of photoelectric effect. X rays are produced when target metal is bombarded by electrons while in photoelectric effect, the electron are produced when light waves are incident on a metal surface.
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.
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.
The production of x rays is a reverse process of photoelectric effect. X rays are produced when target metal is bombarded by electrons while in photoelectric effect, the electron are produced when light waves are incident on a metal surface.
There is the photoelectric effect, which is the process that emitts electrons from a metals surface when light of a certain frequency shines on the surface. In the metal, the nuclei are surrounded by electrons, so when the incoming electrons strike the surface, they pull apart from the electrons of the metal because of how like charges detract from each other.
B: When you shine a particular color of light on it.
If the question is referencing the phenomena of light rays contacting certain metals, then the photoelectric effect can be applied. The photoelectric effect, described by Albert Einstein as part of his Nobel Prize, notes that a photon strikes certain metal solids and excites and releases an electron from the metal. Hope thats what you're looking for or if that's even correct! haha :)
electrons are knocked off atoms causing electricity to flow
This is an interaction between photons and the surface of the metal.