Thursday, March 5, 2020
Chemistry Oxidation and Reduction
Chemistry Oxidation and ReductionOxidation and reduction are widely regarded as 'dirty' words. Some people consider them to be unscientific and unethical. Most people in the profession of chemistry, however, know about oxidation and reduction and regard them as part of their job description. They do not consider them as dangerous or as practices that are unsafe.New substances have the tendency to react with one another and with its surroundings. This is inevitable as there is no room for safety in this process. There is a danger, however, when substances with different properties mix together and react. This happens mostly when two substances are identical but differ in chemical properties. This is called conjugation.Although these processes may seem easy enough to carry out, they are very complicated. The use of oxidizing agents or reducing agents and reacting reactions are the steps involved in this chemical reaction.All chemical reactions involve an element being reduced and an el ement being oxidized. In chemistry, these are referred to as oxidation and reduction reactions. A source of reactive substance can give rise to both oxidization and reduction reactions.The primary oxidizing agent in a chemical reaction is oxygen. Oxygen atoms are assigned to different chemical elements. Oxidation is the reduction of electrons.The secondary reducing agent in a chemical reaction is commonly known as the reducing agent. The basic steps involved in chemical reactions include reducing the reducing agent to its original state and then to the reducing product.Apart from oxygen, reducing agents like nickel, zinc, iron, lead, sodium, potassium, magnesium, boron, manganese, and calcium are used. However, the most common reducing agents are magnesium, boron, copper, aluminum, lead, and potassium. Nitrogen compounds like ammonia, water, nitric acid, carbon dioxide, and hydrogen are used in some reactions.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.