A hot potatoe and a oven mit
Electrons are split in a process called oxidation-reduction reactions, where they are transferred between molecules. This transfer of electrons creates a flow of energy that can be harnessed to generate electricity.
The charging process will cause electrons to either experience an attractive or repulsive force with other electrons around them depending upon whether the electrons have a positive or negative charge to begin with.
Positively charged electrons play no role in the process of electricity conduction. In fact, it is the negatively charged electrons that move through a conductor, such as a wire, that carry the electrical current. The flow of these electrons is what allows electricity to be conducted from one point to another.
The word that describes the process of water turning into water vapor is "evaporation." This process occurs when water molecules gain enough energy to escape into the air in the form of vapor.
A wire carrying a current is not normally charged; it carries a flow of electric charge as a current. Charging refers to the process of adding or removing excess electrons from an object, which is not typically the case for a wire carrying a current.
The equation that describes a reduction process is when a substance gains electrons, which is represented as: A e- - B
NADH carries high-energy electrons that can be used in the process of chemiosmosis to create a proton gradient across the inner mitochondrial membrane. This proton gradient is then used to generate ATP through ATP synthase.
Electron carriers are like a relay race, where each carrier passes the "baton" (electrons) from one to the other in a coordinated manner. Just as relay runners work together to pass the baton efficiently, electron carriers transport electrons through a series of reactions to generate energy in living organisms.
To process material into protein
NADPH carries energy to the process of photosynthesis in plant cells, where it acts as a reducing agent to provide electrons for the conversion of carbon dioxide into sugars. It is also involved in various anabolic reactions in cells that require the input of energy.
Oxidative stress is a term that describes the loss of electrons that can create free radicals. Free radicals are molecules with unpaired electrons that can damage cells by reacting with other molecules, leading to a chain reaction that destroys chemical bonds in the process.
The term that describes a chemical reaction in which electrons are gained is "reduction." In redox (reduction-oxidation) reactions, reduction refers specifically to the process where an atom or molecule gains electrons, leading to a decrease in its oxidation state. This is always paired with oxidation, where another atom or molecule loses electrons.
Analogy for smooth endoplasmic reticulum is a process plant. This is taught in biology.
NADH is a coenzyme that carries electrons from glucose molecules through the electron transport chain in the mitochondria. These electrons are used to generate ATP, the cell's primary energy source, through a process called oxidative phosphorylation.
The term that describes a reactant that removes electrons from another reactant is "oxidizing agent" or "oxidant." In a redox (reduction-oxidation) reaction, the oxidizing agent undergoes reduction by gaining electrons, while facilitating the oxidation of the other reactant. This process is essential in many chemical reactions, including combustion and respiration.
An Analogy for Golgi apparatus would be the UPS because they process's, sort and deliver proteins
Respiration is the process that carries oxygen to the cells and removes carbon dioxide from them. Blood carries the oxygen to the cells.