3: Atoms and Nuclear Chemistry

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Page ID: 521715

Sol Parajon Puenzo
Cañada College

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Nuclear reactions are quite different from the chemical reactions that we will focus on throughout most of the book. The main difference is that an atom of one element can turn into an atom of another element! Nuclear chemistry has many applications in medicine. Benefits include use in diagnostics and treatment, but radiation can also cause illness and cancer. In this chapter you will read about radiation, the decay of radioisotopes, and nuclear equations.

3.1: The Structure of the Atom
Chemistry is based on the modern atomic theory, which states that all matter is composed of atoms. Atoms themselves are composed of protons, neutrons, and electrons. Each element has its own atomic number, which is equal to the number of protons in its nucleus. Isotopes of an element contain different numbers of neutrons. Elements are represented by an atomic symbol. The periodic table is a chart that organizes all the elements.
3.2: The Elements and The Periodic Table
All matter is composed of elements. Chemical elements are represented by a one- or two-letter symbol.
3.3: Atomic Number and Mass Number
Elements can be identified by their atomic number and mass number. Isotopes are atoms of the same element that have different mass number.
3.4: Isotopes and Atomic Weights
Elements can be identified by their atomic number and mass number. Isotopes are atoms of the same element that have different masses. Atoms have a mass that is based largely on the number of protons and neutrons in their nucleus.
3.5: Radiation
The three main forms of radioactive emissions are alpha particles, beta particles, and gamma rays.
3.6: Nuclear Reactions and Nuclear Equations
Nuclear equations are symbols used to efficiently represent nuclear reactions.
3.7: Uses of Radioactive Isotopes
Radioactivity has several practical applications, including tracers, medical applications, dating once-living objects, and the preservation of food.
3.8: Radioactive Decay- Units and Half-Life
Natural radioactive processes are characterized by a half-life, the time it takes for half of the material to decay radioactively. The amount of material left over after a certain number of half-lives can be easily calculated.
3.E: Atoms and Nuclear Chemistry (Exercises)
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