| A | B |
|---|
| the process of splitting glucose | glycolysis |
| What carries H+ ions to the electron transport chain | NADH and FADH2 |
| The 2-carbon molecule that starts the citric acid (Kreb) cycle | Acetyl CoA |
| Molecule that can be used by the cell to fuel movement | ATP |
| Gross number of ATP produced during aerobic respiration | 38 |
| How many ATP's that must be added to start gylcolysis | 2 |
| The net total of ATP from glycolysis | 2 |
| During heavy exercise your body uses this to produce ATP | Lactic acid fermentation |
| the citric acid (kreb) cycle and electron transport chain (oxidative phosphorolation) occur in this organelle | mitochondria |
| The final electron acceptor | oxygen (O2) |
| the kind of respiration that requires oxygen (O2) | aerobic respiration |
| the kind of respiration that occurs in the absence of oxygen (O2) | anaerobic respiration |
| Where are the carbon molecules in glusose are eventually lost to | carbon dioxide (CO2) |
| The splitting of glucose results in | pyruvate |
| All cells require this | energy |
| this is what ATP is broken down to | ADP + P |
| What molecule in the inner membrane of the mitochondria acts like a machine to produce ATP | ATP synthase |
| Having more H+ ions on one side of the membrane produces this | H+ concentration gradient |
| the overall formula for aerobic cellular respiration | 6 O2 + glucose ---> 6 CO2 + 6 H2O + ATP |
