disscus the addition and dissociation reaction with one example
Answers
Explanation:
dissociation reaction is a chemical reaction in which a compound breaks apart into two or more components.
The general formula for a dissociation reaction follows the form:
AB → A + B
Dissociation reactions are usually reversible chemical reactions. One way to recognize a dissociation reaction is when there is only one reactant but multiple products.
Explanation:
When you write a dissociation reaction in which a compound breaks into its component ions, you place charges above the ion symbols and balance the equation for both mass and charge. The reaction in which water breaks into hydrogen and hydroxide ions is a dissociation reaction. When a molecular compound undergoes dissociation into ions, the reaction can also be called ionization.
H2O → H+ + OH-
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:HCl → H+(aq) + Cl-(aq)
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:HCl → H+(aq) + Cl-(aq)While some molecular compounds such as water and acids form electrolytic solutions, most dissociation reactions involve ionic compounds in water, or aqueous solutions. When ionic compounds dissociate, water molecules break apart the ionic crystal. This occurs because of the attraction between the positive and negative ions in the crystal and the negative and positive polarity of water.
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:HCl → H+(aq) + Cl-(aq)While some molecular compounds such as water and acids form electrolytic solutions, most dissociation reactions involve ionic compounds in water, or aqueous solutions. When ionic compounds dissociate, water molecules break apart the ionic crystal. This occurs because of the attraction between the positive and negative ions in the crystal and the negative and positive polarity of water.In a written equation, you'll usually see the state of matter of the species listed in parentheses following the chemical formula: s for solid, l for liquid, g for gas, and aq for aqueous solution. Examples include:
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:HCl → H+(aq) + Cl-(aq)While some molecular compounds such as water and acids form electrolytic solutions, most dissociation reactions involve ionic compounds in water, or aqueous solutions. When ionic compounds dissociate, water molecules break apart the ionic crystal. This occurs because of the attraction between the positive and negative ions in the crystal and the negative and positive polarity of water.In a written equation, you'll usually see the state of matter of the species listed in parentheses following the chemical formula: s for solid, l for liquid, g for gas, and aq for aqueous solution. Examples include:NaCl(s) → Na+(aq) + Cl-(aq)
H2O → H+ + OH-When acids undergo dissociation, they produce hydrogen ions. For example, consider the ionization of hydrochloric acid:HCl → H+(aq) + Cl-(aq)While some molecular compounds such as water and acids form electrolytic solutions, most dissociation reactions involve ionic compounds in water, or aqueous solutions. When ionic compounds dissociate, water molecules break apart the ionic crystal. This occurs because of the attraction between the positive and negative ions in the crystal and the negative and positive polarity of water.In a written equation, you'll usually see the state of matter of the species listed in parentheses following the chemical formula: s for solid, l for liquid, g for gas, and aq for aqueous solution. Examples include:NaCl(s) → Na+(aq) + Cl-(aq)Fe2(SO4)3(s) → 2Fe3+(aq) + 3SO42-(aq)