The electron transport chain through glucose
water
As they both accept electrons and are reduced, but NAD carries stripped electrons from glucose ( becoming NADH ) to the electron transfer chain while oxygen is the final electron acceptor.
Oxygen is the ultimate destination of electrons stripped of glucose.
ionic
An atom stripped of its valence electrons, so that its remaining electrons are all in closed shells.
No, it is not possible to stop the electrons from revolving around the nucleus unless they are stripped off from the nucleus.
As they both accept electrons and are reduced, but NAD carries stripped electrons from glucose ( becoming NADH ) to the electron transfer chain while oxygen is the final electron acceptor.
Oxygen is the ultimate destination of electrons stripped of glucose.
Plasma
The lithium ion will be stripped of its electron by the flouride ion, resulting in an ionic bond, where the lithium atom will have 0 valence electrons and the fluoride ion will have 8
An atom stripped of its valence electrons, so that its remaining electrons are all in closed shells.
ionic
respiration: the metabolic processes whereby certain organisms obtain energy from organic molecules; processes that take place in the cells and tissues during which energy is released and carbon dioxide is produced and absorbed by the blood to be transported to the lungs.
An atom stripped of its valence electrons, so that its remaining electrons are all in closed shells.
This is plasma.
Respiration is the most convenient form when producing energy for the cell; hydrogen is transferred from glucose to oxygen. Respiration takes energy out of storage and makes it available for ATP synthesis. Hydrogen atoms are stripped from glucose, they passed NAD+ , which then acts an oxidizing agent. NAD+ receives two negatively charged electrons and one positive proton, then neutralizes it. Cellular respiration brings hydrogen and oxygen together to form H2O. The electron transport chain is used in respiration to break the fall of electrons to oxygen into several steps. Energy is not released and wasted in one single-step but cascaded down the chain from one carrier molecule to the next, losing a small amount of energy until oxygen, the terminal electron receptor, is reached. Oxygen pulls the electron down the chain in an energy-yielding tumble for the production of ATP.
Stripping an atom of all its protons and electrons is not possible. It would just be a core.
No, it is not possible to stop the electrons from revolving around the nucleus unless they are stripped off from the nucleus.