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How Atoms Differ. a. Properties of Subatomic Particles ParticleSymbolLocationRelative Charge Relative mass Actual mass (g) Electron Proton Neutron.

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Presentation on theme: "How Atoms Differ. a. Properties of Subatomic Particles ParticleSymbolLocationRelative Charge Relative mass Actual mass (g) Electron Proton Neutron."— Presentation transcript:

1 How Atoms Differ

2 a. Properties of Subatomic Particles ParticleSymbolLocationRelative Charge Relative mass Actual mass (g) Electron Proton Neutron

3 b. Atomic Number the number of protons in an atom Identifies element c. Mass Number represents the total number of protons and neutrons in the nucleus A Z atomic number X Mass number

4 d. Isotopes Atoms that have the same number of protons but have a different masses Ex: 3 isotopes of carbon: 12 6 C 13 6 C 14 6 C

5 e. Average Atomic Mass the weighted average of the isotopes of that element. Formula: Atomic mass of an element = ( % abundance of Isotope #1 x mass of Isotope #1 ) + ( % abundance of Isotope #2 x mass of Isotope #2 ) + …

6 Example 1 Silver has two naturally occurring isotopes. Ag-107 has an abundance of 51.82% and mass of 106.9 amu. Ag-109 has a relative abundance of 48.18% and a mass of 108.9 amu. Calculate the average atomic mass of silver.

7 Example 2 Rubidium is a soft, silvery-white metal that has two common isotopes, Rb and Rb. If the abundance of 85 Rb is 72.2% and the abundance of 87 Rb is 27.8%, what is the average atomic mass of rubidium? 85 37 87 37

8 Example 3 Boron has two naturally occurring isotopes. If the abundance of 11 B is 80.10% with an amu of 11.0093, find the abundance of 10 B.

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