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What are some important questions to ask about cellular respiration?
Some important questions to ask about cellular respiration include: How does cellular respiration produce energy for cells? What are the different stages of cellular respiration and how do they work? What role do mitochondria play in cellular respiration? How is cellular respiration related to the process of photosynthesis? What factors can affect the efficiency of cellular respiration in cells?
Which element is added to NAD to reduce it?
Hydrogen ions and a pair of electrons are added to NAD+ to reduce it to NADH. This reduction reaction is important in cellular respiration for the generation of ATP.
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 is the final hydrogen acceptor in cellular respiration of most plants and animals?
The final hydrogen acceptor in cellular respiration for most plants and animals is oxygen. Oxygen combines with electrons and protons to form water in the electron transport chain, allowing the production of ATP through oxidative phosphorylation.
Why is ATP important for cellular respiration?
Cellular respiration is the production of ATP but, you must use ATP to have cellular respiration. During cellular respiration you use 2 ATP molecules and can make a small amount of ATP (with out oxygen) or you can make a larger amount (with oxygen)
What are some important questions to ask about cellular respiration?
Some important questions to ask about cellular respiration include: How does cellular respiration produce energy for cells? What are the different stages of cellular respiration and how do they work? What role do mitochondria play in cellular respiration? How is cellular respiration related to the process of photosynthesis? What factors can affect the efficiency of cellular respiration in cells?
What is the importance of cellular respiration?
your skin is the most important stage of cellular respiration
Which element is added to NAD to reduce it?
Hydrogen ions and a pair of electrons are added to NAD+ to reduce it to NADH. This reduction reaction is important in cellular respiration for the generation of ATP.
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 is the final hydrogen acceptor in cellular respiration of most plants and animals?
The final hydrogen acceptor in cellular respiration for most plants and animals is oxygen. Oxygen combines with electrons and protons to form water in the electron transport chain, allowing the production of ATP through oxidative phosphorylation.
One of the most important coenzymes that accepts electrons hydrogen is what?
Nicotinamide adenine dinucleotide (NAD+) is one of the most important coenzymes that accepts electrons and hydrogen during cellular respiration to help produce ATP.
How does NAD gain energy in cellular respiration?
it lose a hydrogen ion and one electron
What part of glucose molecule provides electrons in cellular respiration?
hydrogen from the NADH and FADH2
How does water form cellular respiration?
Oxygen is reduced, gaining electrons and hydrogen ions
Hydrogen pumps move hydrogen ions into which structure?
The thylakoid
Why is ATP important for cellular respiration?
Cellular respiration is the production of ATP but, you must use ATP to have cellular respiration. During cellular respiration you use 2 ATP molecules and can make a small amount of ATP (with out oxygen) or you can make a larger amount (with oxygen)
What stages in cellular respiration are affected by cyanide and hydrogen sulfide?
Cyanide primarily affects the electron transport chain stage of cellular respiration by inhibiting cytochrome c oxidase. Hydrogen sulfide inhibits multiple stages of cellular respiration, including the electron transport chain and specific enzymes in the citric acid cycle. Both compounds disrupt the production of ATP, leading to cellular dysfunction and potentially cell death.
