For flowing water, what is the magnitude of the velocitygradient needed to produce a

BIO​ ​1030​ ​CHAPTER​ ​6-​ B ​ aldwin ATP​ ​Production:​ ​​Potential​ ​energy​ ​of​ ​glucose​ ​to​ ​kinetic​ ​energy​ ​of​ ​ATP 1. Glycolysis:​ ​glucose​ ​goes​ ​through​ ​glycolysis​ ​to​ ​produce​ ​2​ ​ATP​ ​from​ ​each​ ​glucose,​ ​In addition,​ ​2​ ​pyruvate​ ​and​ ​4H​ ​(metabolized;​ ​2​ ​NADH​ ​+H).​ ​NADH​ ​will​ ​provide​ ​potential energy​ ​for​ ​later​ ​on.​ ​Happ​ n​ he​ ​cytoplasm. 2. Pyruvate​ ​Oxidation:​ ​2​ ​pyruvates​ ​(1​ ​glucose)​ ​produce​ ​2​ ​Acetyl​ ​CoA​ ​+​ ​4H.​ ​We​ ​now​ ​have​ ​8 hydrogens​ ​total.​ ​Happens​ ​in​ ​the​ ​mitochondria. 3. Citric​ ​Acid​ ​Cycle:​ ​Acetyl​ ​CoA​ ​enters​ ​and​ ​produces​ ​8H​ ​+​ ​1​ ​ATP.​ ​Happens​ ​twice,​ ​so​ ​each glucose​ ​produces​ ​16H​ ​(6​ ​NADH;​ ​2​ ​FADH2)​ ​+​ ​2​ ​ATP.​ ​FADH​ ​does​ ​not​ ​have​ ​as​ ​much carrying​ ​capacity/energy​ ​as​ ​NADH.​ ​Each​ ​NADH​ ​is​ ​worth​ ​about​ ​3​ ​ATP,​ ​and​ ​each​ ​FADH is​ ​worth​ ​about​ ​2​ ​ATP.​ ​Happens​ ​in​ ​the​ ​mitochondrial​ ​matrix. 4. Electron​ ​Transport​ ​and​ ​Oxidative​ ​Phosphorylation:​ ​produces​ ​3​ ​ATP​ ​from​ ​each​ ​2H. Therefore​ ​20H​ ​produce​ ​30​ ​ATP.​ ​​ ​ETC​ ​occurs​ ​on​ ​the​ ​inner​ ​membrane​ ​(cristae).​ ​Oxidative phosphorylation​ ​occurs​ ​with​ ​F1​​ articles. 5. In​ ​total,​ ​up​ ​to​ ​38​ ​ATP​ ​are​ ​made​ ​from​ ​one​ ​molecule​ ​of​ ​glucose,​ ​but​ ​usually​ ​only​ ​produce 34-36. 6. Although​ ​#4​ ​is​ ​really​ ​not​ ​that​ ​simple.​ ​Each​ ​NADH+H​ ​produces​ ​3​ ​ATP,​ ​however​ ​each