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...
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 ( 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 =
Assume that the complete combustion of one mole of fructose, a monosaccharide, to carbon dioxide and water liberates 2810 kJ of energy (Δ?°′=−2810 kJ/mol ). If the energy generated by the combustion of fructose is entirely converted to the synthesis of a hypothetical compound X, calculate the number of moles of the compound that could theoretically be generated. Use the value Δ?°′compound X=−75.7 kJ/mol . Round your answer to two significant figures. Thank you!! Assume that the complete combustion of...
Assume that the complete combustion of one mole of fructose, a monosaccharide, to carbon dioxide and water liberates 2810 kJ of energy ( Δ G ° ' = − 2810 kJ/mol ). If the energy generated by the combustion of fructose is entirely converted to the synthesis of a hypothetical compound X, calculate the number of moles of the compound that could theoretically be generated. Use the value Δ G ° ' compound X = − 70.7 kJ/mol . Round...
The combustion of glucose (C6H12O6) with oxygen gas produces carbon dioxide and water. This process releases 2,668 kJ per mole of glucose. When 2.670 mol of oxygen react in this way with glucose, what is the energy released in Calories (big C calories). Input your answer as a number without units.
The combustion of glucose (C6H120.) with oxygen gas produces carbon dioxide and water. This process releases 2.387 kJ per mole of glucose. When 3.348 mol of oxygen react in this way with glucose, what is the energy released in Calories (big C calories). Input your answer as a number without units lint: write a balanced equation for the combustion process)
Consider the complete combustion of one mole of ethane to yield carbon dioxide and gaseous water. (c) Determine the work done and estimate the heat of reaction if the reaction takes place under isothermal conditions at a pressure of 1.02 bar.
4. Glucose (CaHi2 is metabolized by a combustion reaction to form carbon dioxide and water. (glucose has 5 C-C, 7 C-O, 5 0-H, 7 CH) a) Write a balanced reaction C6 H,,06(s) +60,(リーウ.coz(S) t 6H20,9 н-о Determine the enthalpy for the reaction using the bond enthalpies listed in the table. Is the reaction endothermic or exothermic? b) Bond Enthalpy (kJ/mol) Bond C-C C-O O-H C-H O-O 347 351 460 414 498.7 799 c) How much glucose (in g) must be...
Consider the complete combustion of 1.00g of glucose to carbon dioxide and water. Calculate the work of expansion when water obtained is(a)liquid, (b)vapour at 20.0°C when the external pressure is 1.20atm.For both cases, briefly comment on the meaning of the sign/result.