Sodium chloride (NaCl) forms during the reaction between elemental sodium (Na) and elemental chlorine (Cl). This reaction is highly exothermic and releases a significant amount of energy. Sodium chloride is a common table salt used in cooking and food preservation.
The reaction between chlorine and barium is called a single displacement reaction, where the chlorine displaces the barium in barium chloride to form barium chloride and elemental chlorine. The balanced equation for this reaction is: Cl2 + Ba → BaCl2 + Cl2
In the reaction between chlorine and iodine ions, a redox reaction occurs where chlorine ions oxidize iodine ions to form diatomic iodine molecules. The chlorine ions are reduced to form chloride ions. This reaction can be represented as Cl2 + 2I- -> 2Cl- + I2.
The chemical equation for the reaction between sodium and chlorine is: 2Na + Cl2 → 2NaCl. This reaction forms sodium chloride (table salt) in which sodium loses an electron to chlorine to form an ionic compound.
No, HCL is not a molecular compound. It is an ionic compound formed by the reaction between hydrogen gas and chlorine gas, resulting in the formation of hydrochloric acid.
Molecular Compound
The reaction between chlorine and barium is called a single displacement reaction, where the chlorine displaces the barium in barium chloride to form barium chloride and elemental chlorine. The balanced equation for this reaction is: Cl2 + Ba → BaCl2 + Cl2
If you mean elemental Phosphorous (As in, just a chunk of P), I believe that the reaction would go to Phosphorous pentachloride like this: P + 5 Cl--> PCl5 THe Lewis Dot structure works out that way, anyways.
In the reaction between chlorine and iodine ions, a redox reaction occurs where chlorine ions oxidize iodine ions to form diatomic iodine molecules. The chlorine ions are reduced to form chloride ions. This reaction can be represented as Cl2 + 2I- -> 2Cl- + I2.
The chemical equation for the reaction between sodium and chlorine is: 2Na + Cl2 → 2NaCl. This reaction forms sodium chloride (table salt) in which sodium loses an electron to chlorine to form an ionic compound.
No, HCL is not a molecular compound. It is an ionic compound formed by the reaction between hydrogen gas and chlorine gas, resulting in the formation of hydrochloric acid.
Yes, the fact that a combination reaction occurs between sodium and chlorine is relevant to the argument that they combine to form table salt (sodium chloride). When these elements react, they form a new compound with different properties from the individual elements, which is the basis of chemical bonding and compound formation.
Common salt is a compound, formed from the reaction between sodium and chlorine, giving NaCl, sodium chloride, common salt.
Common salt is a compound, formed from the reaction between sodium and chlorine, giving NaCl, sodium chloride, common salt.
No. This equation is not balanced and does not even represent any reaction. The equation for the actual reaction between elemental zinc and chlorine is: Zn + Cl2 => ZnCl2.
Sodium chloride is the chemical way of writing it whereas chlorine sodium is simply listing the names of the atoms in the combination. When you name a compound, you name the anion followed by the cation. In this case Sodium (Na) is the anion and Chlorine (Cl) is the cation. So when you combine the two atoms you get Na+Cl->NaCl or Sodium Chloride.
Chlorine trifluoride is a molecular compound. It is composed of covalent bonds between the chlorine and fluorine atoms, rather than ionic bonds between a metal and non-metal.
Molecular Compound