---### Predict the Relative Intensities of M and M+2 for CH₃CH₂ClTo predict the relative intensities of the M and M+2 peaks for the compound \[ \text{CH}_3\text{CH}_2\text{Cl} \], use the provided table of isotope data. Choose the approximate ratio of intensities from the drop-down list, utilizing values from the table to determine the ratio.#### Ratio of Relative Intensities for M and M+2:\[ \text{CH}_3\text{CH}_2\text{Cl} \]**Table 14.2: Precise Masses and Natural Abundances of Isotopes. Relative to 100 Atoms of the Most Abundant Isotope**| Element | Atomic Weight | Isotope | Precise Mass (amu) | Relative Abundance ||------------|---------------|---------|---------------------|---------------------|| **Hydrogen** | 1.0079 | ^1H | 1.00783 | 100 || | | ^2H | 2.01410 | 0.016 || **Carbon** | 12.011 | ^12C | 12.0000 | 100 || | | ^13C | 13.0034 | 1.11 || **Nitrogen** | 14.007 | ^14N | 14.0031 | 100 || | | ^15N | 15.0001 | 0.38 || **Oxygen** | 15.999 | ^16O | 15.9949 | 100 || | | ^17O | 16.9991 | 0.04 || | | ^18O | 17.9992 | 0.20 || **Sulfur** | 32.066 | ^32S | 31.9721 | 100 || | | ^33S | 32.9715 | 0.78 || | | ^34S | 33.9679 | 4.40 || **Chlor

Here we are required to find relative intensity of M and M+2 for the following compound.

Predict the relative intensities of the M and M+2 for the following compound. Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio. CH3CH₂Cl Ratio of Relative Intensities for M and M+2: Table 14.2: Precise Masses and Natural Abundances of Isotopes. Relative to 100 Atoms of the Most Abundant Isotope Element Atomic Weight Isotope Precise Mass (amu) Relative Abundance Hydrogen 1.0079 ¹H 1.00783 100 2H 2.01410 0.016 Carbon 12.011 12 C 12.0000 100 13 C 13.0034 1.11 Nitrogen 14.007 14N 14.0031 100 15 N 15.0001 0.38 Oxygen 15.999 160 15.9949 100 16.9991 0.04 17.9992 0.20 Sulfur 32.066 31.9721 100 32.9715 0.78 33.9679 4.40 Chlorine 35.453 34.9689 100 36.9659 31.98 Bromine 79.904 78.9183 100 170 180 32g 33 g 34g 36 CI ST CL 79 Br

Predict the relative intensities of the M and M+2 for the following compound. Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio. CH3CH₂Cl Ratio of Relative Intensities for M and M+2: Table 14.2: Precise Masses and Natural Abundances of Isotopes. Relative to 100 Atoms of the Most Abundant Isotope Element Atomic Weight Isotope Precise Mass (amu) Relative Abundance Hydrogen 1.0079 ¹H 1.00783 100 2H 2.01410 0.016 Carbon 12.011 12 C 12.0000 100 13 C 13.0034 1.11 Nitrogen 14.007 14N 14.0031 100 15 N 15.0001 0.38 Oxygen 15.999 160 15.9949 100 16.9991 0.04 17.9992 0.20 Sulfur 32.066 31.9721 100 32.9715 0.78 33.9679 4.40 Chlorine 35.453 34.9689 100 36.9659 31.98 Bromine 79.904 78.9183 100 170 180 32g 33 g 34g 36 CI ST CL 79 Br

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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