No. This is a reaction, but not a reaction mechanism. The mechanism would should the individual steps or alterations that take place with the HCl dissociating, and the electrons moving from one place to another, etc.
In photosynthesis, ETC and chemiosmosis occur in the thylakoid membranes of chloroplasts. In cellular respiration, these processes take place in the inner mitochondrial membrane. These locations are where the electron transport chain (ETC) pumps protons across the membrane, creating a proton gradient that drives ATP production through chemiosmosis.
The standard conditions under which you carry out a reaction are:Carried out at room temperature, 250CA concentration of 1 mol/L for solutions1 atmospheric pressureAll reactants and products must be in physical states that are expected in the above conditions.Standard conditions allow enthalpy changes of different reactions to be compared.
Photochemical reaction: a chemical reaction induced by electromagnetic radiations: ul- traviolet, visible, etc.) Thermal reaction: a chemical reaction induced by increasing the temperature (ex.: thermal dissociation, etc.)
ETC---Electron transport chain
An acid and an alkali/base takes place in a neutralization reaction. For reactions such as redox, precipitation etc. an acid or a base might not take place.
Most of cellular respiration occurs within the mitochondria of the cell. Glycolysis occurs outside of the mitochondria, while the Krebs Cycle and ETC takes place inside the mitochondria.
Could take place anywhere, New York, Paris, Vienna, London, Rome, Prague etc etc.
Could take place anywhere, New York, Paris, Vienna, London, Rome, Prague etc etc.
No. This is a reaction, but not a reaction mechanism. The mechanism would should the individual steps or alterations that take place with the HCl dissociating, and the electrons moving from one place to another, etc.
There could be many possibilities depending of the reaction. Some of them are change in colour, odour, evolution of gases, formation of precipitate etc
Cytoplasm is like jello. It holds everything in the cell in place, like ribosomes, endoplasmic reticulums, etc.
In photosynthesis, ETC and chemiosmosis occur in the thylakoid membranes of chloroplasts. In cellular respiration, these processes take place in the inner mitochondrial membrane. These locations are where the electron transport chain (ETC) pumps protons across the membrane, creating a proton gradient that drives ATP production through chemiosmosis.
The electron transport chain (ETC) occurs in the inner mitochondrial membrane of eukaryotic cells. In prokaryotic cells, the ETC takes place in the cell membrane.
ETC takes place in the Cristae of the Mitochondria.
ATP is produced through cellular respiration (glycolysis, Kreb's cycle, Electron Transport Chain, etc.). The enzymes in these pathways use something called negative feedback inhibition. Negative inhibition means that the products of a reaction inhibit the reaction from taking place. Thus, when the cell is making more ATP than it needs, the pathway begins shutting itself down. Genius!
This depends on where you live.