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13 Nov 2019
CcH 1206 + 6O2 â 6 CO, + 6 H2O + Energy In the overall equation for cellular respiration above, it is clear that this reaction is-A-because energy is a product of this reaction which results in a_BAG. This suggests that this reaction will be Cwithin a biological system which means that it can occur on its own. In addition to the energetics, we are able to tell that entropyã)-as this reaction proceeds because there is more Ein the products than in the reactants. During the course of this reaction, we observe the organic carbon molecules of glucose being broken apart into individual inorganic carbons of CO making this reaction a(n) E reaction. The energy released from the bonds is used to produce ATP and we see oxygenG in this reaction as it forms water. In forming ATP, we will phosphorylate ADP in a reaction that requires an investment of at least 7.3 kcal/mol. This energy input requirement allows us to characterize the phosphorylation as a(n)-LL-reaction. 1) Select the term that most appropriately fills in each letter blank in the paragraph Endergonic Oxidized Activation energy Free Energy Energized Hydrogen Spontaneous Increases Heat Anabolic Electrons Exergonic Decreases Positive Chaos Enthalpy Entropy Order Reduced Endothermic Catabolic Non-spontancous Exothermic Negative Potential Energy
CcH 1206 + 6O2 â 6 CO, + 6 H2O + Energy In the overall equation for cellular respiration above, it is clear that this reaction is-A-because energy is a product of this reaction which results in a_BAG. This suggests that this reaction will be Cwithin a biological system which means that it can occur on its own. In addition to the energetics, we are able to tell that entropyã)-as this reaction proceeds because there is more Ein the products than in the reactants. During the course of this reaction, we observe the organic carbon molecules of glucose being broken apart into individual inorganic carbons of CO making this reaction a(n) E reaction. The energy released from the bonds is used to produce ATP and we see oxygenG in this reaction as it forms water. In forming ATP, we will phosphorylate ADP in a reaction that requires an investment of at least 7.3 kcal/mol. This energy input requirement allows us to characterize the phosphorylation as a(n)-LL-reaction. 1) Select the term that most appropriately fills in each letter blank in the paragraph Endergonic Oxidized Activation energy Free Energy Energized Hydrogen Spontaneous Increases Heat Anabolic Electrons Exergonic Decreases Positive Chaos Enthalpy Entropy Order Reduced Endothermic Catabolic Non-spontancous Exothermic Negative Potential Energy
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