NADPH
The reactant that reduces another atom
The reactant that reduces another atom.
I believe you're talking about redox electroplating in a salt medium. If that's the case, then nickel is in fact the reducing agent. Reducing agent loses electrons, oxidizing agent gains.
relationship between oxidation and oxidising agent in a redox reaction
Reduction is a process that occurs in a chemical reaction that goes hand-in-hand with a process called oxidation. Elements begin the reaction with a certain oxidation state, however sometimes after they react to form a new product they assume a different oxidation state. The only way to do this is through a transfer of electrons. In a reduction-oxidation (redox) reaction, the element that gains electrons is called the oxidizing agent, and the element losing electrons is called the reducing agent. The oxidizing agent oxidizes the reducing agent, and the reducing agent reduces the oxidizing agent. Breakdown: Losing electrons is oxidation. Gaining electrons is reduction.
The higher the concentration of the oxidizing agent, the faster the oxidation rate, and the faster the reaction rate will be, and vice versa.
The reactant that reduces another atom.
reduces another atom
reduces another atom
the reactant that has the atom that gets oxidized
A substance that is good at reducing another atom
Acid base titration involves neutralization reaction between an acid and a base. whereas redox titration involves redox reaction between an oxidizing agent and reducing agent.
The reactant that reduces another atom
The reactant that has the atom that gets oxidized
The reactant that reduces another atom.
No it is not. Propane can be used as fuel during oxidation reaction however it is not an oxidizing agent. In a redox reaction such as combustion, propane acts as a reducing agent. Common agents are O2 and O3.
I believe you're talking about redox electroplating in a salt medium. If that's the case, then nickel is in fact the reducing agent. Reducing agent loses electrons, oxidizing agent gains.
The term oxidation is named after oxygen, which is the most common oxidizing agent. Oxygen has a strong attraction for electrons, and in most chemical reactions it will take two electrons away from another atom (or from two atoms, such as in the case of the famous water molecule which is composed of one oxygen atom and two hydrogen atoms). So when an atom loses one or more electrons, it is oxidized.