Metabolism is the process of breaking down larger molecules into smaller ones, while catabolism is the synthesis of cell molecules and structures.

Metabolism is the process of breaking down larger molecules into smaller ones, while anabolism is the synthesis of cell molecules and structures.

Metabolism is the process of synthesizing larger molecules from smaller ones, while catabolism is the breakdown of cell molecules and structures.

Metabolism is the process of synthesizing larger molecules from smaller ones, while anabolism is the breakdown of cell molecules and structures.

Glycolysis (2 ATP), Krebs cycle (2 ATP), and electron transport chain (36 ATP)

Glycolysis (4 ATP), Krebs cycle (2 ATP), and electron transport chain (38 ATP)

Glycolysis (2 ATP), Krebs cycle (4 ATP), and electron transport chain (36 ATP)

Glycolysis (4 ATP), Krebs cycle (4 ATP), and electron transport chain (38 ATP)

Conversion of glucose to CO2 and recovery of energy

Conversion of glucose to pyruvic acid and release of energy

Conversion of pyruvic acid to glucose and storage of energy

Conversion of pyruvic acid to CO2 and release of energy

Acetyl CoA goes in and CO2, ATP, NADH, and FADH2 come out

CO2 goes in and acetyl CoA, ATP, NADH, and FADH2 come out

NADH goes in and CO2, ATP, acetyl CoA, and FADH2 come out

FADH2 goes in and CO2, ATP, acetyl CoA, and NADH come out

It transfers energy stored in acetyl CoA to NAD and FAD

It transfers electrons from reduced carriers to generate ATP

It converts glucose to pyruvic acid and releases energy

It breaks down larger molecules into smaller ones and releases energy

Anaerobic respiration uses oxygen as the final electron acceptor, while aerobic respiration uses other oxidized inorganic compounds

Anaerobic respiration uses other oxidized inorganic compounds as the final electron acceptor, while aerobic respiration uses oxygen

Anaerobic respiration does not require oxygen, while aerobic respiration does

Anaerobic respiration produces more ATP than aerobic respiration

They are converted into glucose through glycolysis

They are broken down into smaller molecules through the Krebs cycle

They are used as terminal electron acceptors in the electron transport chain

They are converted into ATP through fermentation