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the main fuel for cellular respiration is protein, fat, sugar, and oxygen from the food you eat.
Glycolosis uses two ATP to release the energy, creating four ATP.
a food chain should only consist of four or five organisms to carry our cellular respiration
The four stages of aerobic cellular respiration are:GlycolisisLink ReactionKrebs CycleElectron Transport ChainEach step is important and cannot happen without the one before it.
The four phases in aerobic cellular respiration are: 1. Glycolysis 2. Krebs cycle 3. oxidative phosphorylation 4. Electron transport chain (ETC)
the main fuel for cellular respiration is protein, fat, sugar, and oxygen from the food you eat.
Glycolosis uses two ATP to release the energy, creating four ATP.
a food chain should only consist of four or five organisms to carry our cellular respiration
The four stages of aerobic cellular respiration are:GlycolisisLink ReactionKrebs CycleElectron Transport ChainEach step is important and cannot happen without the one before it.
four
The four phases in aerobic cellular respiration are: 1. Glycolysis 2. Krebs cycle 3. oxidative phosphorylation 4. Electron transport chain (ETC)
Krebs Cycle
Cellular respiration is the process of oxidizing food molecules, like glucose, to carbon dioxide and water. The energy released is trapped in the form of ATP for use by all the energy-consuming activities of the cell.
All chemical reactions need energy, and ATP (adenosine triphosphate) is the bodies energy storing and providing molecule. In the process of cellular respiration, two ATP are used, and four are formed, so there is a net gain of two ATP. For some organisms this is enough, but in many organisms, a higher yield of ATP is needed. The body uses what is known as the kreb cycle, which is much more complex, and produces around 36 molecules of ATP.
Cellular respiration occurs in four stages, each stage accomplishing different tasks. These are: 1. glycolysis 2. the transition stage 3. the Krebs cycle (aka citric acid cycle) 4. the electron transport chain
There are four main steps in cellular respiration are glycolysis, Link Reaction, Krebs Cycle and Hydrogen Transport Chain.In glycolysis, glucose molecules are broken down into pyruvate and pyruvic acid. Two molecules of ATP are produced in this cycle. This is fed into a link reaction, where some chemical rearrangement occurs.The Krebs cycle, also called the Citric acid cycle, allows extensive rearrangement of the atoms to occur. 2 molecules of ATP are produced in this cycle, bringing the total to four so far. Carbon dioxide is released as a byproduct, while the hydrogen atom is passed on to the next cycle.The hydrogen transport chain, also called the electron transport chain, is the last step of cellular respiration. In this phase, the electron belonging to the hydrogen is passed along a chain of receptors, with oxygen as the final receptor. The hydrogen atom is not used up in the reaction. This step provides the most ATP, with 32 molecules being produced.
Cellular respiration allows organisms to use (release) energy stored in the chemical bonds of glucose (C6H12O6). The energy in glucose is used to produce ATP. Cells use ATP to supply their energy needs. Cellular respiration is therefore a process in which the energy in glucose is transferred to ATP.In respiration, glucose is oxidized and thus releases energy. Oxygen is reduced to form water.The carbon atoms of the sugar molecule are released as carbon dioxide (CO2).The complete breakdown of glucose to carbon dioxide and water requires two major steps: 1) glycolysis and 2) aerobic respiration. Glycolysis produces two ATP. Thirty-four more ATP are produced by aerobic pathways if oxygen is present.In the absence of oxygen, fermentation reactions produce alcohol or lactic acid but no additional ATP.