Draw the amide formed when 1-methylethylamine (CH,CH(CH, )NH,) is heated with each carboxylic acid. Reaction A Select Draw Rings More Erase CH, CH, CH, COOH + CH,СH(СH,)NH, Reaction B Select Draw Rings More Erase (CH,),CHCH,COOH + CH,CH(CH,)NH,

Draw the amide formed when 1‑methylethylamine (CH3CH(CH3)NH2)(CH3CH(CH3)NH2) is heated with each carboxylic acid.

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### Reaction Overview In this image, we are examining two different chemical reactions involving carboxylic acids and amines which have been set up for educational exploration. #### Reaction C - **Reactants:** - Cyclopentanecarboxylic acid (\( \text{COOH} \) bonded to a cyclopentane ring) - Isopropylamine (\( \text{CH}_3\text{CH}(\text{CH}_3)\text{NH}_2 \)) - **Diagram Explanation:** - The skeletal formula on the left shows cyclopentanecarboxylic acid. It is reacting with isopropylamine. - An empty area with workspace features like "Select," "Draw," "Rings," and "More" is provided for users to draw and predict the reaction product. #### Reaction D - **Reactants:** - Isovaleric acid (a branched carboxylic acid) - Isopropylamine (\( \text{CH}_3\text{CH}(\text{CH}_3)\text{NH}_2 \)) - **Diagram Explanation:** - The skeletal formula on the left shows isovaleric acid. It also reacts with isopropylamine. - Similar to Reaction C, there is a workspace for drawing and envisioning the outcome of the reaction with features like "Select," "Draw," "Rings," and "More." ### Learning Objectives 1. **Understand reaction mechanisms** for the formation of amides through the reaction of carboxylic acids and amines. 2. **Practice drawing reaction products**, exploring the electronic structure changes. 3. **Apply knowledge** of functional groups and their reactivity in organic chemistry. This interactive setup encourages students to experiment by predicting the reaction outcomes and verifying their understanding of fundamental organic chemistry reaction mechanisms.

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**Amide Formation Reactions** In this exercise, we explore the formation of amides when 1-methylethylamine (\(CH_3CH(CH_3)NH_2\)) is heated with different carboxylic acids. Below are two reactions where this process is demonstrated. --- **Reaction A** **Reactants:** 1. Propanoic Acid (\(CH_3CH_2COOH\)) 2. 1-Methylethylamine (\(CH_3CH(CH_3)NH_2\)) **Visual Instruction:** In Reaction A, there is an interactive area where you can draw the chemical structure of the resulting amide. Use the tools provided: "Select," "Draw," "Rings," and "More" to construct the chemical structure. An "Erase" button is available for corrections. --- **Reaction B** **Reactants:** 1. 3-Methylbutanoic Acid (\((CH_3)_2CHCH_2COOH\)) 2. 1-Methylethylamine (\(CH_3CH(CH_3)NH_2\)) **Visual Instruction:** Similarly, Reaction B provides an interactive drawing tool section for sketching the resulting amide. Use the same set of tools to complete the drawing. --- **Tools Explanation:** - **Select**: Choose existing elements in your drawing. - **Draw**: Add bonds and atoms to create structures. - **Rings**: Insert common ring structures. - **More**: Access additional drawing options. - **Erase**: Remove selected parts of your drawing. This hands-on activity will help deepen your understanding of amide synthesis and molecular structure representation.