Of the three major stages of cellular respiration, the electron transport chain produces the most ATP. Per glucose molecule, glycolysis results in the net production of 2 ATP.
<h3>What does the chain of electron transport do?</h3>
The electron transport chain, commonly referred to as the oxidative phosphorylation process, is made up of four protein complexes that work together to combine redox events to create an electrochemical gradient that leads to the synthesis of ATP.
In mitochondria, both cellular respiration and photosynthesis take occur.
<h3>What are the three essential steps in the chain of electron transport?</h3>
The electron transport chain's three primary steps are as follows:
- a proton gradient is created across the mitochondrial membrane. In the mitochondrial intermembrane gap, proton buildup takes place.
- water is created and molecular oxygen is reduced.
- Chemiosmosis is used to make ATP.
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C=C, the double carbon bond creates a kink in the chain of carbons, and prevents the fats from stacking neatly and forming a solid. The double carbon bonds present in canola oil are why it is a liquid at room temperature, while the lack of such bonds in butter allows for the molecules to lay flat on one another, making butter a solid.
the awnser is chyme hope i helped comment and tell me if i helped
<h3>Explanation:</h3>
Mitosis actually happens in four phases. The first phase of mitosis through which chromatin condenses into chromosomes, the nuclear case breaks down, centrioles divide, and a spindle begins to form. Microtubule fibres that enable the division of sister chromatids during mitosis and meiosis.
They are both types of acid.