Include the UV-Vis data for the product in a table with the following (experimental wavelength, literature wavelength, molar extinction coefficient, assignment)  product: methyl orange

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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 Include the UV-Vis data for the product in a table with the following (experimental wavelength, literature wavelength, molar extinction coefficient, assignment) 

product: methyl orange 

### UV-Visible Spectrum Analysis

**Concentration**: \( c = 5.2 \times 10^{-5} \, M \)  
**Solvent**: Water

This graph displays the UV-Visible spectrum for a solution with a concentration of \( 5.2 \times 10^{-5} \, M \) in water. 

#### Graph Details

- **Axis Description**:
  - **X-Axis (Wavelength)**: The x-axis represents the wavelength (in nanometers, nm) ranging from approximately 400 nm to 800 nm.
  - **Y-Axis (Absorbance)**: The y-axis represents the absorbance, which measures how much light is absorbed by the sample.

- **Data Explanation**:
  - Two peaks are identified in the spectrum. The first peak occurs at a wavelength of 464.50 nm with an absorbance of 1.0647, and the second peak occurs at a wavelength of 508.50 nm with an absorbance of 1.7528.
  - These peaks indicate the specific wavelengths at which the solution absorbs light most efficiently, suggesting electronic transitions within the sample.

- **Analysis**:
  - Spectral peaks may correspond to different electronic transitions in the sample compounds.
  - Understanding the wavelengths and corresponding absorbance can help identify specific compounds and analyze their concentration and behavior in the solution.

This spectrum is crucial for analyzing the chemical properties and understanding the interaction of the sample with UV-Visible light.
Transcribed Image Text:### UV-Visible Spectrum Analysis **Concentration**: \( c = 5.2 \times 10^{-5} \, M \) **Solvent**: Water This graph displays the UV-Visible spectrum for a solution with a concentration of \( 5.2 \times 10^{-5} \, M \) in water. #### Graph Details - **Axis Description**: - **X-Axis (Wavelength)**: The x-axis represents the wavelength (in nanometers, nm) ranging from approximately 400 nm to 800 nm. - **Y-Axis (Absorbance)**: The y-axis represents the absorbance, which measures how much light is absorbed by the sample. - **Data Explanation**: - Two peaks are identified in the spectrum. The first peak occurs at a wavelength of 464.50 nm with an absorbance of 1.0647, and the second peak occurs at a wavelength of 508.50 nm with an absorbance of 1.7528. - These peaks indicate the specific wavelengths at which the solution absorbs light most efficiently, suggesting electronic transitions within the sample. - **Analysis**: - Spectral peaks may correspond to different electronic transitions in the sample compounds. - Understanding the wavelengths and corresponding absorbance can help identify specific compounds and analyze their concentration and behavior in the solution. This spectrum is crucial for analyzing the chemical properties and understanding the interaction of the sample with UV-Visible light.
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