Given that a reaction can be presented in several different forms, we should make a clear distinction between each type of equation. The sulfite ion, SO32-(aq), is very soluble with respect to most cations, and its fully protonated form, H2SO3 (aq) (sulfurous acid), is a weak acid. Its singly protonated form, HSO3, is also a weak acid. The following equations depict several reactions that could occur if sulfurous acid and sodium hydroxide were added to water. Classify each depicted reaction as being a molecular equation, a complete ionic equation, or a net ionic equation. Drag the equations to their respective bins. • View Available Hint(s) Reset Help NaHSO, + H,O = H2SO, + NaOH Nat + OH-+H,SO, = Nat + HSO,- + H2O(1) SO,2 (aq) + H2O(1) = HSO, (aq) + OH (aq) HSO3 (aq) + OH (aq) = SO,² (aq) + H2O(1) Molecular equation Complete ionic equation Net ionic equation

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Given that a reaction can be presented in several different forms, we should make a clear distinction between each type of equation. The sulfite ion, SO32-(aq), is very soluble with respect to most cations, and its fully protonated form, H2SO3 (aq) (sulfurous acid), is a weak acid. Its singly protonated form, HSO3, is also a weak acid. The following equations depict several reactions that could occur if sulfurous acid and sodium hydroxide were added to water. Classify each depicted reaction as being a molecular equation, a complete ionic equation, or a net ionic equation. Drag the equations to their respective bins. • View Available Hint(s) Reset Help NaHSO, + H20 = H2SO3 + NaOH Na+ + OH-+H2SO3 = Na+ + HSO3 +H2O(1) SO,²- (aq) + H2O(1) = HSO, (аq) + OН (аq) HSO3 (aq) + OH (aq) SO,² (aq) + H2O(1) Molecular equation Complete ionic equation Net ionic equation