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Can electron excitation happen in a semiconductor nanoparticle without light or thermal energy?
Yes, electron excitation in a semiconductor nanoparticle can occur without light or thermal energy through mechanisms like electrical injection, impact ionization, or tunneling. These processes can lead to electron promotion across energy levels within the nanoparticle, resulting in excitation.
What causes an electron in an atom o move to a higher energy level?
excitation
An atom that undergoes excitation and de-excitation emits?
An atom that undergoes excitation and de-excitation emits photons of light. When an electron in an atom absorbs energy and moves to a higher energy level (excitation), it eventually returns to its original state (de-excitation) and emits a photon of light corresponding to the energy difference between the two levels.
What happened to the energyof an electron as it goes farther from the nucleus?
if an electron gains enough energy it jumps to a higher energy level. when this happens the atom is in an "excited" state.
What has to happen before you can move to a new energy level in the electron cloud?
An electron must absorb or release a specific amount of energy, typically in the form of a photon, to move to a new energy level in the electron cloud. This process is known as electron excitation or de-excitation.
What causes an electron in an atom to move to higher energy level?
excitation
What causes an electron to change energy levels within an atom?
An electron changes energy levels within an atom when it absorbs or emits a specific amount of energy, typically in the form of light or heat. This process is known as electron excitation or de-excitation.
Can electron excitation happen in a semiconductor nanoparticle without light or thermal energy?
Yes, electron excitation in a semiconductor nanoparticle can occur without light or thermal energy through mechanisms like electrical injection, impact ionization, or tunneling. These processes can lead to electron promotion across energy levels within the nanoparticle, resulting in excitation.
What causes an electron in an atom o move to a higher energy level?
excitation
An atom that undergoes excitation and de-excitation emits?
An atom that undergoes excitation and de-excitation emits photons of light. When an electron in an atom absorbs energy and moves to a higher energy level (excitation), it eventually returns to its original state (de-excitation) and emits a photon of light corresponding to the energy difference between the two levels.
What happened to the energyof an electron as it goes farther from the nucleus?
if an electron gains enough energy it jumps to a higher energy level. when this happens the atom is in an "excited" state.
What has the author Sean Joseph King written?
Sean Joseph King has written: 'Electron impact excitation of krypton atoms'
What has to happen before you can move to a new energy level in the electron cloud?
An electron must absorb or release a specific amount of energy, typically in the form of a photon, to move to a new energy level in the electron cloud. This process is known as electron excitation or de-excitation.
In a protein complex for the light reaction why is energy transferred from pigment molecule to pigment molecule to a special chlorophyll a molecule and eventually to the primary electron acceptor?
Energy is transferred from pigment molecule to pigment molecule in the protein complex through resonance energy transfer, leading to excitation of a special chlorophyll a molecule called P680. This excitation of P680 causes the release of an electron, which is then transferred to the primary electron acceptor, initiating the electron transport chain in photosynthesis.
What is the use of excitation table in digital electronics?
Excitation tables helps to know the input conditions of the flip flops that will cause the required transition from the present state to the next state.
What causes an emission when the SEM's primary electron beam bombards a specimen?
When the SEM's primary electron beam hits the specimen, it causes excitation of atoms in the specimen. This excitation leads to the emission of secondary electrons, backscattered electrons, characteristic X-rays, and Auger electrons, which are then detected by various detectors in the SEM for imaging and analysis.
What rhymes with ovation?
Nation, automation, celebration, excitation, deliberation, excitation, penetrationcelebration, excitation, deliberation, excitation, penetration
