first box: Draw the missing curved arrow notation. Add lone pairs of electrons and nonzero formal charges.Second Box: Draw the product that will be produced. Be sure to draw in any hydrogen at chiral centers. Add lone pairs of electrons. **Instruction:**Please draw all four bonds at chiral centers.**Diagram Explanation:**1. **Molecule Structure on the Left:** - This molecule features a carbon atom bonded to a chlorine atom (Cl) and a hydrogen atom (H). - There is a nitrile group (C≡N) as part of the structure. - A wedge line represents bonds coming out of the plane towards the viewer.2. **Arrow Symbol:** - An arrow points towards a plus sign, indicating a possible chemical reaction or interaction.3. **Molecule on the Right:** - This depicts a chloride ion (Cl⁻) with its electron configuration shown in dots around the chlorine symbol.**Note:** The visual representation emphasizes the importance of identifying and properly drawing the bonds at chiral centers in molecular structures.

Nucleophilic substitution biomolecular reaction (SN2): The bimolecular nucleophilic substitution reaction is a concerned reaction completed in a single step. In this reaction, the attack of the nucleophile and the removal of the leaving group take place simultaneously.The SN2 reaction proceeds by the inversion of the configuration at the carbon atom where the substitution takes place. In the given reaction the chloride ion is substituted by the cyanide ion. The product of the reaction is as follows: