10. As you saw in Model 1, all Arthenius bases in Model I have an OH^- ion in their chemical formulas. Write a balanced chemical reaction for the reaction of HCl(aq) with OH^-(aq) to illustrate that the hydroxide ion is also a Bronsted -Lowry base. 11. If you reverse Reaction 1 in Model 2, the following reaction is obtained. H_(3)O^-(aq)+Cl^-(aq)leftharpoons HCl(aq)+H_(2)O(l) a. For the reaction above, which reactant is acting like a Brensted-Lowry acid? How can you tell? b. For the reaction above, which reactant is acting like a Bronsted-Lowry base?How can you tell? 12. Write the reverse reactions for Reactions 2 and 3 in Model 2. Label the Bronsted-Lowry acid and base reactants for each reaction. Reaction 2 Reaction 3

## Step 1: Identify the reactants for the balanced chemical reaction between \( HCl(aq) \) and \( OH^{-}(aq) \).## Step 2: Combine the ion from with the ion to form water ( ).## Step 3: Write the remaining ion ( ) as the other product, which will be part of the salt.## Step 4: Balance the chemical equation to ensure the number of atoms of each element is the same on both sides.### \( HCl(aq) + OH^{-}(aq) \rightarrow H_{2}O(l) + Cl^{-}(aq) \)## Step 5: For question 11a, identify the reactant that donates a proton in the given reaction.## Step 6: For question 11b, identify the reactant that accepts a proton in the given reaction.## Step 7: For question 12, write the reverse reactions for Reactions 2 and 3 and identify the Bronsted-Lowry acid and base for each.