Fully explain what the data in IR and GC-MS spectra mean in the dehydration of 2-Methylcyclohexanol .  

GC-MS data (gas chromatography): Illustrated in picture 

*ignore peak at 8.87 minutes

Peak 1 mass = 96.2 (1-methylcyclohexene)

Peak 2 mass = 96.2 (3-methylcyclohexene)

Peak 3 mass = 114.2 (impurity)

IR Spectra (Infrared Spectroscopy): Illustrated in picture. 

Transcribed Image Text:

### Infrared Spectroscopy Graph #### Description The graph shown is an infrared (IR) spectrum, which is a plot of transmittance (%) versus wavenumber (cm^-1). This type of spectrum is used to identify functional groups in compounds by observing their specific absorption bands. #### Graph Details - **Wavenumber Range:** 4000 to 500 cm^-1 - **Transmittance Range:** -20% to 120% - **Notable Peaks:** - **Peak 1:** Appears at a wavenumber of 2926.9 cm^-1 with an intensity of 59.45248. - **Peak 2:** Appears at a wavenumber of 1657.7 cm^-1 with an intensity of 98.92707. #### Table of Peaks | Peak Number | Wavenumber (cm^-1) | Intensity | |-------------|------------------------------|------------| | 1 | 1657.73350 | 98.92707 | | 2 | 2926.89204 | 59.45248 | This IR spectrum can be useful for identifying the molecular structure of a compound by analyzing the position and intensity of its absorption peaks.

Transcribed Image Text:

This image is a chromatogram, typically used in analytical chemistry to separate components of a mixture. It features several peaks indicating the presence of different compounds. ### Peaks and Measurements: 1. **First Peak:** - **Height:** 836.96 - **Area:** 28289 2. **Second Peak:** - **Height:** 859.70 - **Area:** 46222.786 3. **Third Peak:** - **Height:** 952.29 - **Area:** 171915 4. **Fourth Peak:** - **Height:** 654.14 - **Area:** 81425.3 ### Axes: - **X-Axis (Horizontal):** Represents time in minutes. - **Y-Axis (Vertical):** Represents the signal intensity, correlating to the concentration of the compounds detected. The chromatogram indicates the separation of various substances over time, with each peak corresponding to a different compound. The area under each peak is proportional to the quantity of that compound in the sample. The time and intensity information is critical for identifying and quantifying chemicals in the mixture.