Isotopic Abundance & Relative Atomic Mass (Cambridge (CIE) AS Chemistry)

Revision Note

Author

Philippa Platt

Last updated

5 January 2025

Calculating Relative Atomic Mass

Isotopes are different atoms of the same element that contain the same number of protons and electrons but a different number of neutrons.
- These are atoms of the same elements but with different mass numbers
Because of this, the mass of an element is given as relative atomic mass (A_r) by using the average mass of the isotopes
The relative atomic mass of an element can be calculated by using the relative abundance values
- The relative abundance of an isotope is either given or can be read off the mass spectrum
$A_{r} = \frac{(relative {abundance}_{isotope 1} {mass}_{isotope 1}) + (relative {abundance}_{isotope 2} {mass}_{isotope 2}) etc .}{100}$

Worked Example

Calculate the relative atomic mass, A_r, of oxygen to 2 d.p.

Isotope	Percentage abundance
¹⁶O	99.76
¹⁷O	0.04
¹⁸O	0.20

Answer:

A_r= $\frac{(99.76 \times 16) + (0.04 \times 17) + (0.20 \times 18)}{100}$
A_r= 16.0044
A_r = 16.00 (to 2 d.p)

Worked Example

Calculate the relative atomic mass of boron using its mass spectrum, to 2 d.p.

Analytical Techniques Mass Spectrum Boron, downloadable AS & A Level Chemistry revision notes

Answer:

$A_{r} = \frac{(19.9 \times 10) + (80.1 \times 11)}{100}$
A_r= 10.801
A_r = 10.80 (to 2 d.p)

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Previous:Mass SpectrometryNext:Molecular Ion Peak & Fragmentation

Isotopic Abundance & Relative Atomic Mass (Cambridge (CIE) AS Chemistry)

Revision Note

Calculating Relative Atomic Mass

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1. Atomic Structure

Particles in the Atom & Atomic Radius

Atomic Structure & Subatomic Particles

Determining Subatomic Structure

Variations in Atomic & Ionic Radius

Isotopes

Isotopes

Electrons, Energy Levels & Atomic Orbitals

Electronic Structure

Sub-shells & Orbitals

Electronic Configuration

Determining Electronic Configuration

Ionisation Energy

Defining Ionisation Energy

Ionisation Energy Trends

Ionisation Energy & Electronic Configuration

2. Atoms, Molecules & Stoichiometry

Relative Masses of Atoms & Molecules

Relative Masses

The Mole & the Avogadro Constant

The Mole & the Avogadro Constant

Formulas

Formulae

Balancing Equations

Empirical & Molecular Formulae

Water of Crystallisation

Reacting Masses & Volumes (of Solutions & Gases)

Reacting Masses & Volumes

3. Chemical Bonding

Electronegativity & Bonding

Electronegativity

Trends in Electronegativity

Electronegativity & Bonding

Ionic Bonding

Ionic Bonding

Ionic Bonding Examples

Metallic Bonding

Metallic Bonding

Covalent Bonding & Coordinate (Dative Covalent) Bonding

Covalent Bonding

Coordinate Bonding

Hybridisation

Bond Energy & Length

Shapes of Molecules

Shapes of Molecules

Intermolecular Forces, Electronegativity & Bond Properties

Hydrogen Bonding

Bond Polarity & Dipole Moments

Van der Waals' Forces

Inter & Intramolecular Forces

Dot-&-Cross Diagrams

Dot-&-Cross Diagrams

4. States of Matter

The Gaseous State: Ideal & Real Gases & pV = nRT

Gas Pressure

Ideal Gases

Bonding & Structure

Lattice Structures

Bonding & Structure

5 Chemical Energetics

Enthalpy Change, ΔH

Enthalpy Change, ΔH

Reaction Pathway Diagrams

Standard Enthalpy Change

Enthalpy & Bond Energies

Hess’s Law

Hess’s Law

6. Electrochemistry

Redox Processes: Electron Transfer & Changes in Oxidation Number (Oxidation State)

Oxidation Number Rules

Redox Reactions

Oxidising & Reducing Agents

7. Equilibria

Chemical Equilibria: Reversible Reactions & Dynamic Equilibrium