Since TWO pyruvic acid molecules go through the Krebs cycle at the same time, the Krebs cycle total is FOUR ATPs, SIX NADHs, and TWO FADH2s for each PYRUVIC molecule.
The third step in cellular respiration is the ELECTRON TRANSPORT CHAIN, and it requires OXYGEN.
The Electron Transport Chain releases about 34 ATPs for each NADH molecule.
Since ___________ pyruvic acid molecules go through the Krebs cycle at the same time, the ___________ cycle total is ___ ATPs, ___ NADHs, and ___ FADH2s for each ___ molecule.
The third step in cellular respiration is the ___________ ___________ ___________ , and it requires ___________ .
The Electron Transport Chain releases about ___ ATPs for each ___________ molecule.
fill in the blanks
3 answers
you forgot to fill one in
Apologies for the oversight.
Since TWO pyruvic acid molecules go through the Krebs cycle at the same time, the Krebs cycle total is FOUR ATPs, SIX NADHs, and TWO FADH2s for each PYRUVIC molecule.
The third step in cellular respiration is the ELECTRON TRANSPORT CHAIN, and it requires OXYGEN.
The Electron Transport Chain releases about 34 ATPs for each NADH molecule.
Since TWO pyruvic acid molecules go through the Krebs cycle at the same time, the Krebs cycle total is FOUR ATPs, SIX NADHs, and TWO FADH2s for each PYRUVIC molecule.
The third step in cellular respiration is the ELECTRON TRANSPORT CHAIN, and it requires OXYGEN.
The Electron Transport Chain releases about 34 ATPs for each NADH molecule.