hi i am Rod Stewart Paalisbo
this is the answer
The glucose is broken down into 2 molecules of pyruvate, which are two smaller molecules. A net yield of 2 ATP and 2 NADH result. Each pyruvate is connected to a coenzyme. The resulting molecule is called Acetyl CoA. That reaction also gives off 2 molecules of C02. The Acetyl CoA enters the Krebs Cycle, from which (through a series of steps), 2 more ATP, 6 NADH, 2 FADH2, and 6 CO2 are formed. The 6 NADH and FADH2 (which are coenzymes) move on to the electron transfer chain. Here, they give up their H+ and electrons to the chain. The electrons reduced the proteins on the chain, allowing H+ from outside the cell to be brought in. Bringing this H+ into the cell builds up the concentration. When the concentration gets high enough, the H+ wants to go back out of the cell. The only way to do this is through the ATP synthase. When is passes through this, the synthase combines an ADP with an inorganic phosphate, forming ATP. The typical yield is 32 ATP from this, giving a total of 36 when you add in the ATP from glycolysis and the Krebs cycle.
Glycolysis
hi i am Rod Stewart Paalisbo
this is the answer
The glucose is broken down into 2 molecules of pyruvate, which are two smaller molecules. A net yield of 2 ATP and 2 NADH result. Each pyruvate is connected to a coenzyme. The resulting molecule is called Acetyl CoA. That reaction also gives off 2 molecules of C02. The Acetyl CoA enters the Krebs Cycle, from which (through a series of steps), 2 more ATP, 6 NADH, 2 FADH2, and 6 CO2 are formed. The 6 NADH and FADH2 (which are coenzymes) move on to the electron transfer chain. Here, they give up their H+ and electrons to the chain. The electrons reduced the proteins on the chain, allowing H+ from outside the cell to be brought in. Bringing this H+ into the cell builds up the concentration. When the concentration gets high enough, the H+ wants to go back out of the cell. The only way to do this is through the ATP synthase. When is passes through this, the synthase combines an ADP with an inorganic phosphate, forming ATP. The typical yield is 32 ATP from this, giving a total of 36 when you add in the ATP from glycolysis and the Krebs cycle.
Two phosphate groups must be attached to glucose.
Before respiration the food molecules are broken down and converted to glucose. This breaking down of food molecules results in the production of energy.
Dehydration synthesis must occur before two glucose molecules can join together. When organisms have extra glucose left over, they bond it together to create a polysaccharide.
they must break down first
Fermintation
When cellular respiration takes place the energy stored in the chemical bonds of glucose (C6H12O6) is released that energy is used to produce ATP(adinosinetri phosphate): In respiration glucose is oxidized and oxygen is reduced to form water(H2O). The carbon atoms of the sugar molecule are released as carbon dioxide (CO2).
During cellular respiration the sugars formed during photosynthesis are broken into simpler molecules. These simpler molecules are carbon dioxide and water.
The gas that is formed during respiration is carbon dioxide. Humans breathe in a mixture of nitrogen, oxygen and carbon dioxide. Although, only oxygen is used. When humans exhale they release all of the nitrogen and more carbon dioxide than was inhaled.
Main waste material is CO2.Lactate Ethanol are also waste products
ATP formed is from ADP during cellular respiration. This will be made possible when ADP binds a high energy phosphate group to itself and thereby forming ATP.
Glycolysis
glycose
Carbon Dioxide
Carbon Dioxide
When cellular respiration takes place the energy stored in the chemical bonds of glucose (C6H12O6) is released that energy is used to produce ATP(adinosinetri phosphate): In respiration glucose is oxidized and oxygen is reduced to form water(H2O). The carbon atoms of the sugar molecule are released as carbon dioxide (CO2).
No it is not formed in aerobic respiration. It is produced in anaerobic respiration
Carbon dioxide.
During cellular respiration the sugars formed during photosynthesis are broken into simpler molecules. These simpler molecules are carbon dioxide and water.
ATP is formed in aerobic respiration. 36/38 ATP's formed from the whole process.
The gas that is formed during respiration is carbon dioxide. Humans breathe in a mixture of nitrogen, oxygen and carbon dioxide. Although, only oxygen is used. When humans exhale they release all of the nitrogen and more carbon dioxide than was inhaled.
carbon dioxide: a heavy odorless colorless gas formed during respiration and by the decomposition of organic substances
Lactic Acid I know only one, there might be more.