Cellular Respiration Balanced Equation. The balanced cellular respiration equation yields 36 or 38 atp molecules that depends on the extramitochondrial nadh reducing equivalents which are recycled for glycolysis like glycerol 3 phosphate that gives 36 atp molecules and malate or aspartate shuttle yields 38 atps. The word equation for cellular respiration is glucose sugar oxygen carbon dioxide water energy as atp.
You can see that. The overall chemical equation for aerobic respiration is c6h12o6 6o2 6h2o 12h2o 6co2 36 38atp. The balanced cellular respiration equation yields 36 or 38 atp molecules that depends on the extramitochondrial nadh reducing equivalents which are recycled for glycolysis like glycerol 3 phosphate that gives 36 atp molecules and malate or aspartate shuttle yields 38 atps.
C 6 h 12 o 6 glucose 6o 2 36 adp depleted atp 36 p i phosphate groups 6co 2 6h 2 o 36 atp.
The word equation for cellular respiration is glucose sugar oxygen carbon dioxide water energy as atp. In order to balance the equation for cellular respiration a 6 must be added in front of the oxygen carbon dioxide and water. The overall chemical equation for aerobic respiration is c6h12o6 6o2 6h2o 12h2o 6co2 36 38atp. The balanced cellular respiration equation yields 36 or 38 atp molecules that depends on the extramitochondrial nadh reducing equivalents which are recycled for glycolysis like glycerol 3 phosphate that gives 36 atp molecules and malate or aspartate shuttle yields 38 atps.