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Cellular respiration an exergonic process that transfers energy from bonds in glucose to form ATP. Photophosphorylation the process of converting energy from a light-excited electron into the pyrophosphate bond of an ADP molecule.
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Is the process of converting energy from a light-excited electron into ATP.?
Cellular respiration an exergonic process that transfers energy from bonds in glucose to form ATP. Photophosphorylation the process of converting energy from a light-excited electron into the pyrophosphate bond of an ADP molecule.
The process of converting energy from a light-excited electron into a pyrophosphate bond of an ADP molecule?
photosynthesis
The process of converting energy from a light-excited electron into the pyrophosphate bond of ADP molecule?
Phosphorylation
Is the process of converting energy from a light-excited electron into ATP?
Cellular respiration an exergonic process that transfers energy from bonds in glucose to form ATP. Photophosphorylation the process of converting energy from a light-excited electron into the pyrophosphate bond of an ADP molecule.
Energy can be released from a pigment with an excited electron by what method?
Energy can be released from a pigment with an excited electron through the emission of light, a process known as fluorescence. When an electron returns to its ground state from an excited state, the energy difference is released as light energy.
If an electron has absorbed energy and has shifted to a higher energy level the electron is said to be what?
This electron is called excited.
What happens when an excited electron is passed to an electron acceptor in a photosystem?
When an excited electron is passed to an electron acceptor in a photosystem, it creates an electron transport chain that helps generate energy in the form of ATP and NADPH through a series of redox reactions. This process is a crucial step in photosynthesis that ultimately contributes to the production of glucose and other organic molecules.
Does an excited electron move up or down an energy level?
The excited electron move up.
Can an electron stay in an excited state without outside energy?
No, an electron cannot remain in an excited state without additional energy input. Excited states are temporary and the electron will eventually return to its ground state, releasing the energy it absorbed as photons.
When an electron gets excited is energy released or absorbed?
When an electron gets excited, energy is absorbed to move the electron to a higher energy level. This absorbed energy gets released when the electron returns to its original energy level, emitting electromagnetic radiation such as light.
What did Planck say about energy and electron?
He said that electrons can become excited and begin to hop energy levels; when this happens an electron is in the excited state.
An electron that has absorbed energy?
excited state
