Most reactive element in the modern periodic table

Most reactive element


Today. I give your answer, who wants to know which element is the most reactive element in the Modern periodic table or Periodic table. So, why you wait let’s come to know the answer. You will be shocked after hearing the answer of the most reactive element. Because you are very familiar with this element and it’s name is SODIUM (Na).


Sodium is that the most reactive element within the modern table.

  • The hardness of sodium is almost identical to an eraser that uses at school time.
  • The density of sodium is almost the same as the water melting point being[97] degree Celsius.
  • Sodium may be a very soft metal that you simply can cut with a knife.

Sodium react with bases


Sodium metal reacts rapidly with water to make a colourless basic solution of caustic soda (NaOH) and hydrogen gas (H2). The reaction continues even when the answer becomes basic. The resulting solution is basic. The reaction is exothermic. During the reaction, the sodium metal could become so hot that it catches fire and burns with a characteristic orange colour. The reaction is slower than that of potassium (immediately below sodium within the periodic table) but faster than that of lithium (immediately above sodium within the periodic table). Reaction continues, the concentration of hydroxide increases.

The previous section introduced the concept of a cyclic element, which is a non-deterministic element, like a linear element. The latter type is known as a reactant, while the former type is known as a reactant and an inhibitor. The reactant is an element that is reactive, like hydrogen, but the inhibitor is a reactive element, like mercury, and the reactant and inhibitor react together to form a new compound. In the same way, the reactant of the cyclic element is the oxygen, but the inhibitor is hydroxyl, and the reactant and inhibitor react together to form a new compound, oxygen and hydroxyl compound.


The structure of an oxygen and hydroxyl compound is a hydroxyl and oxygen atom. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like hydrogen. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like oxygen. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like hydrogen.


The structure of an oxygen and hydroxyl compound is a hydroxyl and oxygen atom. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like hydrogen. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like oxygen. For the hydroxyl to be present, the hydroxyl has to be a reactive element, like hydrogen.


In the last section, we explained how to determine the structure of a compound, but how do we know what a compound is? This is a very complex question, and it has been studied for hundreds of years, so there is no one answer. We can find many answers in the literature, but we need to know the correct structure, and that is why it is called a structure.


A compound is a compound because of its structure. If we have a compound and we know the structure, we can use a chemical formula to calculate the compound’s chemical composition, and if we know the chemical composition, we can calculate the compound’s molecular weight, and then calculate the compound’s atomic weight.

For example, a compound with a molecular weight of 82.65 is known as a molecule with a molecular weight of 82.65, and if we know the atomic weight, we can calculate the compound’s atomic weight. If we have a molecule with a molecular weight of 82.65, and we know the structure, we can calculate the structure, and if we know the structure, we can calculate the molecular weight. If we have a compound with a molecular weight of 82.65, and we know the structure, we can calculate the structure, and if we know the structure, we can calculate the molecular weight.


An important property of an element is that the element is reactive, and the reactant and the inhibitor are reactive. The element is reactive because it has an atomic number of 1. The element is reactive because it has a valence electron configuration of 1, the atomic number of 2, and the atomic number of 3. The element is reactive because it has a valence electron configuration of 1, the atomic number of 2, and the atomic number of 3.

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