Chemical changes happen everywhere in a cell. Cells are chemical engines, everything they do is based on chemical reactions.
If the same metal is used as both the anode and cathode in an electrochemical cell, no redox reaction will occur and no electrons will flow between the electrodes. This would result in no electricity being generated or no chemical reaction taking place within the cell.
Yes, the cell potential can change with concentration variations in a chemical reaction. This is because the concentration of reactants and products can affect the flow of electrons in the cell, which in turn influences the cell potential.
When a cell uses chemical energy to perform work, it couples an exergonic (energy-releasing) reaction with an endergonic (energy-requiring) reaction. This coupling allows the cell to harness the energy released from the exergonic reaction to drive the endergonic reaction, enabling the cell to perform work such as transport, mechanical movement, or synthesis of molecules.
One common by-product in a fuel cell is water. The chemical formula for water is H2O.
When an acid and metal come in contact, a chemical reaction occurs where the metal will dissolve and release hydrogen gas. This reaction is known as a single displacement reaction, where the metal displaces hydrogen from the acid.
In the cytoplasm, because that is where the chemical reactions happen.
Cooking is a chemical process.
hi! the chemical reaction that happens in every cell is called glucose
a chemical reaction makes something happen, like rust or water
the chemical inside the dry cell is the fluid where chemical reaction take place this fluid is CYTOPLASM
in Vivo
the chemical shall be changed
No
If the same metal is used as both the anode and cathode in an electrochemical cell, no redox reaction will occur and no electrons will flow between the electrodes. This would result in no electricity being generated or no chemical reaction taking place within the cell.
Yes, photosynthesis is a reaction typical for plants.
every were in the cell
its metabolism