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Depending on what molecule was used to pass the electron, the number varies from 32 to 34.
The total process creates a total of 36 to 38 ATP. The process of glycolosis creates 2 atp and also 2 molecules of pyruvic acid to go to the citric acid cycle of the Kreb's Cycle. In the crebs cycle, 2 atp is made. The last process is the electron transport chain or ETC for short. In this process, 32 to 34 molecules are made.
Transport number is the fraction of the total current carried by a given ion in an electrolyte
Aerobic respiration (using oxygen) is a high energy yielding process. During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules.
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.
Depending on what molecule was used to pass the electron, the number varies from 32 to 34.
The total process creates a total of 36 to 38 ATP. The process of glycolosis creates 2 atp and also 2 molecules of pyruvic acid to go to the citric acid cycle of the Kreb's Cycle. In the crebs cycle, 2 atp is made. The last process is the electron transport chain or ETC for short. In this process, 32 to 34 molecules are made.
12 protons
This creates a phosphorylated intermediate. Phosphates have high energy bonds, and typically make molecules more reactive. This phosphorylation makes the glucose more reactive.
NEARLY 80%
THE ELECTRON TRANSPORT CHAIN IS THE LAST LINK ALL OF THE ENERGY FROM THE CITRIC ACID CYCLE IS USED FOR THE ELCTRON TRANSPORT CHAIN THE TOTAL ENERGY YIELD IS GLYCOLYSIS CITRIC ACID CYCLE TOTAL 4 NADH2 6 NADH2 10 NADH2 X 3 = 30 ATP 0 FADH 2 FADH2 2 FADH2 X 2 = 4 ATP 2 ATP 2 ATP 36 - 38 ATP ANY QUESTIONS LOOK ME UP i AM ON EVERY WEEK DAY SEARCH YOOHOO
compare chain surveying with modern technique such as total station?
Transport number is the fraction of the total current carried by a given ion in an electrolyte
the total amount of tissue of all the organisms in a food chain is called
Aerobic respiration (using oxygen) is a high energy yielding process. During the process of aerobic respiration as many as 38 molecules of ATP are produced for every molecule of glucose that is utilized. Thus aerobic respiration process breaks down a single glucose molecule to yield 38 units of the energy storing ATP molecules.
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.
Those at the top of the food chain.