add curved arrows to show the forming and breaking of bonds in the reaction below.

Quick answer

Curved arrows in chemistry reactions show which bonds break and form by tracking electron movement; a simple acid-base reaction example demonstrates this, and related intents all center on learning or verifying this electron-tracking skill.

Worked solution

Step 1: Pick a simple reaction

Use the acid-base reaction: $\ce{HCl + OH^- -> Cl^- + H2O}$

Step 2: Identify electron source

The lone pair on $\ce{OH^-}$ is the electron donor. Draw a curved arrow from the lone pair on $\ce{O}$ in $\ce{OH^-}$ to the $\ce{H}$ in $\ce{HCl}$.

Step 3: Identify bond to break

The $\ce{H-Cl}$ bond breaks, with electrons going to $\ce{Cl}$. Draw a curved arrow from the $\ce{H-Cl}$ bond to $\ce{Cl}$.

Step 4: Show final products

The arrows lead to $\ce{Cl^-}$ (gained electrons) and $\ce{H2O}$ (formed new $\ce{O-H}$ bond).

Check

• The curved arrow from $\ce{OH^-}$'s lone pair to $\ce{HCl}$'s $\ce{H}$ correctly shows the formation of the new $\ce{O-H}$ bond in $\ce{H2O}$.
• The arrow from the $\ce{H-Cl}$ bond to $\ce{Cl}$ correctly shows the breaking of the $\ce{H-Cl}$ bond and the formation of the negatively charged $\ce{Cl^-}$.
• Related intents: "add curved arrows... answer key" seeks a verified correct arrow placement; "add curved arrows... explained" wants a breakdown of why arrows are placed that way; "what is the answer to add curved arrows..." asks for the final, correct arrow-drawn reaction—all focus on mastering how to use curved arrows to map electron flow and bond changes.