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What else can I help you with?
Is water oxidized to produce energy?
Water itself is not oxidized to produce energy in the human body. Instead, during cellular respiration, glucose is oxidized to produce energy in the form of ATP, with oxygen being the final electron acceptor which leads to the formation of water as a byproduct.
Does H2O have resonance?
Yes, water (H2O) does not exhibit resonance as it does not have a delocalized electron system. Water molecules have a bent shape due to the arrangement of lone pairs of electrons on the oxygen atom and the hydrogen atoms, resulting in localized electron density.
What happens when a photon of light hits photosystem 2?
When a photon of light hits photosystem 2, it excites an electron within the reaction center of the photosystem. This electron is then transferred along an electron transport chain, resulting in the generation of ATP and the splitting of water molecules to release oxygen as a byproduct.
What is produced using the energy from photons hitting photosystemII?
The energy from photons hitting photosystem II is used to split water molecules into oxygen, protons, and electrons. This process, known as photolysis, releases oxygen as a byproduct and generates electron carriers that are used in the electron transport chain to produce ATP and NADPH for the light-independent reactions of photosynthesis.
Does boiling water remove oxygen from the water?
No, boiling water does not remove oxygen from the water.
The final acceptor of electrons in the electron transport chain is?
oxygen
In cellular respiration the final electron acceptor is?
O2 ADDED: Not O2, but one atom of oxygen.
What molecule is the final electron acceptor at the end to the electron transport chain?
In aerobic respiration, the final electron acceptor is (usually) oxygen. Sometimes it can be sulfur or nitrogen in the absence of oxygen (as in extreme environments) in extremophiles.
The final electron acceptor of aerobic respiration is?
Oxygen, because it is highly electronegative.
What is the final hydrogen acceptor in electron transport and where did it come from?
The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps. The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps.
The final electron acceptor in glycolysis is?
The final electron acceptor in glycolysis is oxygen, which is needed for the production of ATP in aerobic respiration. Oxygen captures the electrons at the end of the electron transport chain to form water.
What substance acts as the final electron acceptor in the electron transport system?
Element. Oxygen is the final electron acceptor. Some organisms can use alternative electron acceptors such as sulphate and nitrate they are known as anaerobes.
What is the final acceptor of electrons and hydrogens in the electron transport chain?
The final acceptor of electrons and hydrogens in the electron transport chain is oxygen. Oxygen is reduced to form water, which is essential for cellular respiration to continue efficiently.
What is the final acceptor of hydrogen in a cellular respiration?
The final acceptor of hydrogen in cellular respiration is oxygen. Oxygen combines with hydrogen to form water in the electron transport chain of the respiration process.
What are the final electron receptor molecules involved in anaerobic and aerobic respiration?
In aerobic respiration, the final electron acceptor is molecular oxygen O2. With anaerobic respiration, the final electron acceptor is a molecule other than oxygen, such as an organic substance.
The final reduced species in the electron transport chain is?
The final reduced species in the electron transport chain is water. Oxygen is the final electron acceptor in the chain, and it is reduced to form water.
The final electron acceptor of the electron transport chain that functions in oxidative phosphorylation is?
Oxygen is the final electron acceptor of the electron transport chain in oxidative phosphorylation. It accepts electrons from complex IV (cytochrome c oxidase) and combines with hydrogen ions to form water.
