Complete the following oxidation reaction by drawing a structural formula for the product. i HCH • You do not have to consider stereochemistry. • You do not have to explicitly draw H atoms. 4 BA CHA ▾ [ ] در ? ChemDoodle"

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### Oxidation Reaction Exercise #### Task: Complete the following oxidation reaction by drawing a structural formula for the product.  \[ \ce{HCHO} \rightarrow ? \] #### Guidelines: - **You do not have to consider stereochemistry.** - **You do not have to explicitly draw H atoms.** Below the instructions, there is a section for creating the molecular structure using various available drawing tools. The toolbox includes options such as selection tools, text tools, adding various bonds (single, double, triple), and drawing rings and other molecular structures. #### Oxidation of Formaldehyde (HCHO): In this reaction, the molecule formaldehyde (HCHO) will undergo oxidation. The product of this oxidation reaction is formic acid (HCOOH). **Step-by-Step Approach:** 1. Identify the reactant: Formaldehyde (HCHO). 2. Determine the product for an oxidation reaction: Formic acid (HCOOH). **Structural Representation:** For the drawing part: - Use the chemical drawing tool to represent the formic acid molecule (HCOOH). ### Important Notes: - The drawing software, ChemDoodle, provides various tools to draw bonds, elements, and other chemical structure components. - This reaction is a simple oxidation where the aldehyde group \(\ce{(-CHO)}\) is converted to a carboxylic acid group \(\ce{(-COOH)}\). ### Example Diagram:  In the blank drawing area, you'll place the structure for the molecule that forms as a result of the oxidation reaction of formaldehyde (HCHO). For more detailed guidance on using ChemDoodle for drawing the chemical structures, refer to the [ChemDoodle User Guide](https://www.chemdoodle.com/user-guide). #### Understanding Oxidation: Oxidation is a process where a substance loses electrons, often resulting in an increase in the oxidation state. For organic molecules, this frequently involves the addition of oxygen or the removal of hydrogen. Feel free to use the tools provided to complete the structure and compare it to known examples of carboxylic acids following oxidation reactions involving aldehydes.