i dont even know..
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.
In the Raman effect, a photon is scattered inelastically (meaning it has a different, lower, energy after scattering than before) from an atom or molecule, causing excitation, i.e., raising an electron to a higher energy level.In the Compton effect, a photon is scattered inelastically from an atom or molecule, causing ionization, i.e., ejecting an electron from the atom or molecule.
When an atom loses a gamma ray, it transitions to a lower energy state by releasing a high-energy photon. This process is known as gamma decay and the atom becomes more stable after losing the energy in the form of gamma radiation.
When photons of sufficient energy are incident on a surface, an electron is ejected out from the core shell. The electron from the p-orbital or any other orbital of higher energy loses that much energy to fill up the gap created by the loss of this core electron. The energy lost by the p-orbital electron is absorbed by another electron in the same or higher shell, causing it to eject from the atom. This second atom is called the "Auger electron" and the effect is called Auger effect.
The relationship between atomic structure and ionization energy is that the ionization energy of an atom is influenced by its atomic structure. Specifically, the ionization energy is the amount of energy required to remove an electron from an atom. Factors such as the number of protons in the nucleus, the distance between the nucleus and the outermost electron, and the shielding effect of inner electrons all play a role in determining the ionization energy of an atom.
The energy required to remove an electron from a neutral atom is the atom's ionization energy. It represents the amount of energy needed to remove the most loosely bound electron from an atom in its gaseous state.
Energy that is stored in the nucleus of an atom is called Atomic Energy or nuclear energy.
bond energy
because it is from an atom. think about it atom-ic. not that hard of a concept
When energy is absorbed by an atom, the electrons in the atom can jump to higher energy levels. When they return to their original positions, they release the extra energy in the form of light. This is how light is produced in an atom.
The energy contained within an atom is determined by its nucleus and the arrangement of its electrons. This energy is known as the atom's binding energy, which is the amount of energy required to break the nucleus apart. The binding energy of an atom varies depending on its size and composition.
To remove an electron from a hydrogen atom that is in the E2 energy level, the atom must absorb energy equal to the ionization energy from that level. The ionization energy from E2 is approximately 10.2 eV. Thus, the hydrogen atom must absorb at least 10.2 eV of energy for the electron to be completely removed from the atom.