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The relative abundance of the isotopes is 2.3137.
How do we calculate relative abundances?
The relative abundance for a specific ion in the sample can be calculated by dividing the number of ions with a particular m / z m/z m/z ratio by the total number of ions detected.
Relative abundance = [tex]\frac{m}{z}[/tex]
The atomic masses of Li are 6.941amu.
The atomic number of Li is 3
Relative abundance = [tex]\frac{6.941}{3}[/tex]
Relative abundance = 2.3137
The relative abundance of the isotopes is 2.3137.
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The isotopes have a relative abundance of 2.3137.
What is relative abundance?
A species' relative abundance is determined by how many of that species there are in relation to all the other organisms in the area. Among the most well-known and extensively researched patterns in macroecology, relative species abundances frequently follow certain patterns.
Relative abundance = m/z
The atomic masses of Li are 6.941amu.
The atomic number of Li is 3
Relative abundance = 6.941/3
Relative abundance = 2.3137
The isotopes have a relative abundance of 2.3137.
To learn more about relative abundance, refer
https://brainly.com/question/1594226
#SPJ4
