**Vanillin and Infrared Spectroscopy**Vanillin is one of the components extracted from vanilla beans. To understand how this compound interacts with infrared light, we can analyze its infrared (IR) spectra. Below, we will explore how to represent and predict these spectra.**Chemical Structure of Vanillin:**- The structure provided shows a benzene ring with various substituents: - A hydroxyl group (OH) - A methoxy group (OCH₃) - An aldehyde group (CHO)**Infrared Spectroscopy Expectations:**1. **Draw the IR Spectrum**: - Label the x-axis as "Wavenumber (cm⁻¹)" and the y-axis as "Transmittance (%)". - Common peaks to feature include: - O–H stretching (around 3200-3550 cm⁻¹) - C=O stretching (around 1700 cm⁻¹ for aldehydes) - C–H stretching (around 2800-3000 cm⁻¹)2. **Comparison with Ethyl Vanillin**: - Ethyl vanillin has an ethoxy group (OEt) instead of a methoxy group (OCH₃). - Consider how this minor structural change might affect the IR spectrum. You might see slight shifts in the peaks associated with the changes in the methoxy to ethoxy group structure.**Thought Exercise:**- How would the IR spectra differ between vanillin and ethyl vanillin? Consider the impact of the ethoxy group on the bond environments.

IR is one of the characterisation techniques which helps us distinguish between the two structures.

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Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question

**Vanillin and Infrared Spectroscopy**

Vanillin is one of the components extracted from vanilla beans. To understand how this compound interacts with infrared light, we can analyze its infrared (IR) spectra. Below, we will explore how to represent and predict these spectra.

**Chemical Structure of Vanillin:**

- The structure provided shows a benzene ring with various substituents:
- A hydroxyl group (OH)
- A methoxy group (OCH₃)
- An aldehyde group (CHO)

**Infrared Spectroscopy Expectations:**

1. **Draw the IR Spectrum**:
- Label the x-axis as "Wavenumber (cm⁻¹)" and the y-axis as "Transmittance (%)".
- Common peaks to feature include:
- O–H stretching (around 3200-3550 cm⁻¹)
- C=O stretching (around 1700 cm⁻¹ for aldehydes)
- C–H stretching (around 2800-3000 cm⁻¹)

2. **Comparison with Ethyl Vanillin**:
- Ethyl vanillin has an ethoxy group (OEt) instead of a methoxy group (OCH₃).
- Consider how this minor structural change might affect the IR spectrum. You might see slight shifts in the peaks associated with the changes in the methoxy to ethoxy group structure.

**Thought Exercise:**

- How would the IR spectra differ between vanillin and ethyl vanillin? Consider the impact of the ethoxy group on the bond environments.

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