t Predict the relative intensities of the M and M+2 for the following compound. [References] Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio. CHBr 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 H 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 100 170 16.9991 0.04 180 17.9992 0.20 Sulfur 32.066 S 31.9721 100 33 S 32.9715 0.78 34S 33.9679 4.40 Chlorine 35.453 35 Cl 34.9689 100 37 Cl 36.9659 31.98 791 78.9183 100 Bromine 79.904 81 Br 98.0 80.9163
t Predict the relative intensities of the M and M+2 for the following compound. [References] Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio. CHBr 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 H 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 100 170 16.9991 0.04 180 17.9992 0.20 Sulfur 32.066 S 31.9721 100 33 S 32.9715 0.78 34S 33.9679 4.40 Chlorine 35.453 35 Cl 34.9689 100 37 Cl 36.9659 31.98 791 78.9183 100 Bromine 79.904 81 Br 98.0 80.9163
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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Predict the relative intensities of the M and M+2 for the following compound.
[References]
Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio.
CHBr
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
H
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
170
16.9991
0.04
180
17.9992
0.20
Sulfur
32.066
S
31.9721
100
33 S
32.9715
0.78
34S
33.9679
4.40
Chlorine
35.453
35 Cl
34.9689
100
37 Cl
36.9659
31.98
791
78.9183
100
Bromine
79.904
81 Br
98.0
80.9163](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd27a10b1-cf54-43e7-9638-ada2bbfcee1b%2Fc63fb195-122f-4a40-a40f-8ba6eabf92bf%2Fjs3cbyi_processed.jpeg&w=3840&q=75)
Transcribed Image Text:t
Predict the relative intensities of the M and M+2 for the following compound.
[References]
Choose the approximate ratio of intensities from the drop-down list provided. Use values from the table below to determine the ratio.
CHBr
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
H
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
170
16.9991
0.04
180
17.9992
0.20
Sulfur
32.066
S
31.9721
100
33 S
32.9715
0.78
34S
33.9679
4.40
Chlorine
35.453
35 Cl
34.9689
100
37 Cl
36.9659
31.98
791
78.9183
100
Bromine
79.904
81 Br
98.0
80.9163
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