It goes back to its ground state.
When a photon is absorbed by an atom, it can excite an electron to a higher energy level or even ionize the atom by completely removing an electron. This absorption of energy can cause the atom to undergo various processes such as fluorescence, photoelectric effect, or photoionization, depending on the energy of the photon and the characteristics of the atom.
light is given off by an atom when and electron moves from one shell to a lower shell and a specific amount of energy is released in the process (known as a photon). If the wavelength of the released photon are in the spectrum of visible light, we will see it as a specific color based on the wavelength of the photon.
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A single photon can only produce one electron in certain photoelectric interactions. This process involves the photon transferring all its energy to an electron, causing it to be ejected from an atom.
When an electron is released, it can either emit energy in the form of photons or transfer its energy to another particle through collisions. The energy released by the electron comes from its interaction with other particles or from changes in its movement within an atom or material.
When an electron jumps downward to a lower energy state in an atom, it releases energy in the form of a photon which is emitted. When the electron returns to the outer ring, it absorbs energy in the form of a photon. The energy of the photon absorbed is equal to the energy of the photon released during the downward jump.
The energy of the photon is the same as the energy lost by the electron
Photon disintegration can occur through the photoelectric effect, Compton scattering, and pair production. In the photoelectric effect, a photon is absorbed by an atom, ejecting an electron. Compton scattering involves a photon colliding with an electron, causing the photon to lose energy and change direction. Pair production occurs when a photon interacts with the nucleus of an atom, producing an electron-positron pair.
When a photon is absorbed by an atom, it can excite an electron to a higher energy level or even ionize the atom by completely removing an electron. This absorption of energy can cause the atom to undergo various processes such as fluorescence, photoelectric effect, or photoionization, depending on the energy of the photon and the characteristics of the atom.
light is given off by an atom when and electron moves from one shell to a lower shell and a specific amount of energy is released in the process (known as a photon). If the wavelength of the released photon are in the spectrum of visible light, we will see it as a specific color based on the wavelength of the photon.
The energy of the photon is the same as the energy lost by the electron
One byproduct of photoelectric absorption is the ejection of an electron from an atom. This process occurs when a photon's energy is entirely absorbed by an atom, causing an electron to be released from its orbit around the nucleus. This electron can go on to contribute to electrical conductivity or ionization processes.
the atom is obvorbed with a structre of strikes which can power a energy photon by 31 x10 but can obloute to -19. the sequal atom is a number of strikes added to a molecue. answer: high mark.
The electron emits a photon of light which we can see in a spectrograph as color. Four colors are normally seen in a hydrogen atom subjected to energy.
The absorbed photon may excite the electron to a higher energy level within the atom. Subsequently, the excited electron may release this energy as a photon by transitioning back to its original energy level. This process is known as emission or fluorescence.
The highest energy photon that can be absorbed by a ground-state hydrogen atom without causing ionization is the photon energy equivalent to the ionization energy of hydrogen, which is approximately 13.6 electron volts. This is the energy required to completely remove the electron from the atom. Any photon with higher energy would cause ionization of the hydrogen atom.
You may be confusing "proton" with "photon". A proton is a positively-charged particle contained within the nucleus of an atom. A photon is a discrete unit of energy normally expressed as light. Around the nucleus of the atom, there are some electrons in energy levels. When an atom absorbs energy, it absorbs a specific amount, or "quantum" of energy and the electron boosted to a higher energy level. When the electron drops to a lower energy level, it emits a photon in the form of light at a specific energy and frequency.