the number that indicates the amount of glucose levels that you should not go over.
reabsorbed completely unless their concentrations in the filtrate exceed their transport maximum
The maximum number of ATP molecules that can be produced from each glucose molecule in aerobic respiration is 36-38 ATP molecules. This occurs through glycolysis, the citric acid cycle, and the electron transport chain.
Theoretically NADH produces a maximum of 3 ATPs and FADH2 produces a maximum of 2 ATPs. However in reality the numbers are closer to 2.5 and 1.5 respectively due to protons leaking across the inner membrane.
2. (1)glucose --> (2)Carbon dioxide + (2) Ethanol + (2) ATP aerobic on the other hand produces 38 Atp per glucose molecule. (1) glucose + (6) oxygen---> (6) oxygen + (1) water + (38) atp
The maximum efficiency of aerobic respiration is around 66% in terms of converting glucose into usable energy in the form of ATP. This means that about one-third of the energy in glucose is lost as waste heat during the process of cellular respiration.
The complete oxidation of one molecule of glucose produces 36-38 ATP. Therefore, the complete oxidation of 3 molecules of glucose would produce 108-114 ATP in total.
Oxidative phosphorylation and Krebs cycle
C6H12O6 (180.16 g/ mol) ---> 2C2H5OH (46.07 g/mol) + 2 CO2 600.4 g glucose @ 92.14 g ethanol / 180.16 g glucose = 307.06 grams of ethanol can be produced 307.06 grams of ethanol @ 0.789g/ml = 389.2 millilitres ========= your answers: 307 grams of ethanol & 0.389 litres of ethanol
C) The maximum level of blood glucose would be higher.
Glucose
Yes. It could be the onset of Diabetes. 6.0 Ha1c/120 fasting are usually the maximum healthy levels.
I don't think you can. The maximum solubility of glucose in water is 91% w/v. That would mean dissolving 91g of glucose in 100ml of water. for a 100% solution you would need to dissolve 100g in 100ml, and you cant do it under normal conditions.