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Chapter 17 Section 2

Chapter 17 Section 2. Masses of Atoms. Atomic Mass. The nucleus contains most of the mass of the atom Protons and neutrons are much bigger than electrons The unit of measurement for these particles is the atomic mass unit ( amu ) About equal to the mass of 1 proton or 1 neutron.

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Chapter 17 Section 2

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  1. Chapter 17 Section 2 Masses of Atoms

  2. Atomic Mass • The nucleus contains most of the mass of the atom • Protons and neutrons are much bigger than electrons • The unit of measurement for these particles is the atomic mass unit (amu) • About equal to the mass of 1 proton or 1 neutron

  3. Protons Identify the Element • The number of protons in an atom determine which element it is • Every carbon atom has 6 protons • Every atom with 8 protons is oxygen • Atomic number = the number of protons in an atom

  4. Mass Number • Mass number = the number of protons + the number of neutrons in the nucleus • # of neutrons = mass number – atomic number

  5. Isotopes • Isotopes = atoms of the same element that have different numbers of neutrons • Atoms with different numbers of neutrons have different properties (radioactivity)

  6. Identifying Isotopes • If the number of neutrons is different, that means the atomic mass is different also • To differentiate between isotopes, write the name of the element, followed by its atomic mass • Boron-10 or boron-11 • Carbon-12 or carbon-14

  7. Identifying Isotopes • Average atomic mass = weighted-average mass of a mixture of isotopes • If 4 atoms are boron-11 and 1 atom is boron-10… • 4/5 (11 amu) + 1/5 (10 amu) = 10.8 amu • This is how they find the average atomic mass on the periodic table

  8. Radioactive Isotopes and Half-Lives • Atoms can be used to measure geologic time • Half-life = the time it takes for half of the radioactive atoms in in a piece of rock or bone to change into another element • So, for example, it takes 5,715 years for half of the carbon-14 in a bone to decay into nitrogen-14

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