What is the correct coefficient for ATP in the complete combustion
of glucose
What is the correct coefficient for ATP in the complete combustion of glucose
In a calorimeter, the combustion of 1 mole of glucose produces 690 kcal. 1. What percentage of ATP energy is produced when 3 moles of glucose react in glycolysis? (7.3 kcal/mole ATP) 2. What percentage of ATP energy is produced when 3 moles of glucose are oxidized into acetyl CoA? (7.3 kcal/mole ATP) 3. What percentage of ATP energy is produced when 3 moles of glucose react in the citric acid cycle? (7.3 kcal/mole ATP) 4. What percentage of ATP...
Calculate the number of ATP generated from the complete oxidation of one molecule of glucose to carbon dioxide and water. Calculate the number of ATP generated from the complete oxidation of one molecule of palmitic acid (18.0) Now calculate the number of ATP that can be produced by the complete oxidation of one gram of glucose, and one gram of palmitic acid, and compare the two numbers. which type of fuel is generating more ATP. And how much is the...
Calculate the number of ATP generated from the complete oxidation of one molecule of glucose to carbon dioxide and water. Calculate the number of ATP generated from the complete oxidation of one molecule of palm tic acid Now calculate the number of ATP that can be produced by the complete oxidation of one gram of glucose, and one gram of palm tic acid, and compare the two numbers. Which type of fuel is generating more ATP. And how much is...
Assume that the complete combustion of one mole of glucose to carbon dioxide and water liberates 2870 kJ/mol (AG' = -2870 kJ/mol). If one contraction cycle in muscle requires 63 kJ, and the energy from the combustion of glucose is converted with an efficiency of 43% to contraction, how many contraction cycles could theoretically be fueled by the complete combustion of one mole of glucose? Round your answer to the nearest whole number. cycles per mole glucose =
Assume that the complete combustion of one mole of glucose to carbon dioxide and water liberates 2870 kJ/mol (ΔG°′=−2870 kJ/mol). If one contraction cycle in muscle requires 61 kJ, and the energy from the combustion of glucose is converted with an efficiency of 37% to contraction, how many contraction cycles could theoretically be fueled by the complete combustion of one mole of glucose? Round your answer to the nearest whole number. CYCLE PER MOLE GLUCOSE =
Assume that the complete combustion of one mole of glucose to carbon dioxide and water liberates 2870 kJ/mol ( Δ?°′=−2870 kJ/mol ). If one contraction cycle in muscle requires 67 kJ , and the energy from the combustion of glucose is converted with an efficiency of 43% to contraction, how many contraction cycles could theoretically be fueled by the complete combustion of one mole of glucose? Round your answer to the nearest whole number. Cycles per mole glucose = ___________...
Attempt 6 Assume that the complete combustion of one mole of glucose to carbon dioxide and water liberates 2870 kJ/mol (AG"' = -2870 kJ/mol). If one contraction cycle in muscle requires 57 kJ, and the energy from the combustion of glucose is converted with an efficiency of 45% to contraction, how many contraction cycles could theoretically be fueled by the complete combustion of one mole of glucose? Round your answer to the nearest whole number. cycles per mole glucose =
How much ATP can be obtained by the cell from the complete oxidation of one glucose vs anaerobically converting to lactate or ethanol? Fill in the table below: Aerobic Oxidation of Glucose Molecule Produced ATP Made Glycolysis ATP NADH АТР 2 pyruvate acetyl-CoA NADH NADH citric acid cycle (2 rounds) FADH2/QH2 Total Anaerobically ATP made. FT
Calculate the work of expansion accompanying the complete combustion of 1.0g of glucose to carbon dioxide and (a) liquid water, (b) water vapour at 20 degrees Celsiuswhen the external pressure is 1 atm
During which stage in the complete oxidation of glucose are the greatest number of ATP molecules formed from ADP? (a) glycolysis (b) Kreb’s cycle (c) conversion of pyruvic acid to acetyl CoA (d) electron transport chain.