Oxidation-reduction reactions, balancing equations

Oxidation is not always associated with the presence of oxygen! When oxygen produced electron loss in a reaction, the word was first employed. The contemporary definition encompasses a broader range of topics. During a process, a molecule, atom, or ion loses electrons, which is known as oxidation. When a molecule’s, atom’s, or ion’s oxidation state […]

Redox processes that transfer electrons between reactants to generate products utilise the phrases oxidising and reducing agents to describe the reactants.  This article explains what an oxidising or reducing agent is, how to identify oxidising and reducing agents in a chemical reaction, and the significance of this concept in real-life situations. The reaction between hydrogen

Organic redox reactions, also known as organic reductions, organic oxidations, or organic redox reactions, are redox reactions that occur with organic molecules. Oxidations and reductions differ from regular redox reactions in organic chemistry because many processes bear the nomenclature but do not require electron transport in the electrochemical sense. Instead, intake of oxygen and/or loss

An oxidation–reduction process, often known as a redox reaction, is a reaction in which electrons are transferred between chemical species (the atoms, ions, or molecules involved in the reaction).  Redox reactions may be found all around us: fuel combustion, metal corrosion, and even photosynthesis and cellular respiration entail oxidation and reduction. The potential charge of

Nucleophilic Addition Reaction is a term used to describe the addition of nucleophiles to a nucleophile. As oxygen is highly electronegative, it forms a polar bond with carbon, in which the electrons are distributed unequally among the two molecules. As a result, the oxygen atom receives a partial negative charge, whereas the carbon atom receives

The oxidation state of an atom in a compound helps in determining the loss, gain or acquiring of electrons in a compound. The oxidation state of any element hence helps in determining the loss of electrons in a chemical compound during a chemical reaction. The highest oxidation state of any element is determined by the

Magnesium hydroxide is a chemical compound with the formula Mg(OH)2. Magnesium hydroxide is a magnesium-containing compound. It can be found naturally as the mineral brucite. It appears in water as a white solid with a low solubility (Ksp = 5.611012). Magnesium hydroxide, a common component of the compound, is found in antacids such as milk

Magnesium hydroxide was made by constantly pumping two aqueous solutions of MgCl2 and NaOH into the reactor chamber, where they reacted to generate Mg(OH)2. The impacts of several operating variables on the size of magnesium hydroxide nanoparticles were explored,including rotation speed,reactant concentration, and liquid flow rate of the reactants. As the flow rate increased, the

The loss or sharing of its two because electrons, magnesium almost invariably has a +2 oxidation state in compounds. However, a tiny number of coordination compounds with magnesium-magnesium links, LMgMgL, have a formal +1 oxidation state in the magnesium centres. Magnesium carbonate, or MgCO3, is found in nature as the mineral magnesite and is a

There is growing concern about the levels of oxygen in the air we breathe and the impact that this may be having on public health.  In the laboratory, oxygen can be prepared in multiple ways. By knowing how to prepare oxygen, you can ensure that your experiments are carried out smoothly and that the results