Chapter 3: The Periodic Table

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	Howard University General Chemistry: An Atoms First Approach
Unit 1: Atomic Theory Unit 2: Molecular Structure Unit 3: Stoichiometry Unit 4: Thermochem & Gases Unit 5: States of Matter Unit 6: Kinetics & Equilibria Unit 7: Electro & Thermo Chemistry Unit 8: Materials

The modern periodic table emphasizes the electronic structure of atoms. The original periodic table emphasized the reactivity of the elements. In this chapter we will learn about the connection between the two, how the electronic structure is related to the macroscopic properties of the elements.

Chapter 3.1: The History of the Periodic Table
This page covers the history and development of the periodic table, noting key figures like Dobereiner, Newlands, Meyer, and Mendeleev, who contributed to its formation through various arrangements and predictions of elements. Mendeleev's foresight in leaving gaps for undiscovered elements, later filled by gallium and germanium, emphasizes the table's predictive power.
Chapter 3.2: Sizes of Atoms and Ions
This page covers atomic and ionic sizes, highlighting that atoms cannot be defined as fixed spheres. It explains atomic radii types and periodic trends, stating that atomic radii decrease across periods and increase down groups. Effective nuclear charge (Zeff) is addressed, illustrating its impact on atomic size and electron shielding. Cations are shown to be smaller and anions larger than their neutral forms due to electron repulsion.
Chapter 3.3: Energetics of Ion Formation
This page covers key concepts of ionization energies, electron affinities, and electronegativity, outlining how these properties vary across the periodic table. It highlights trends such as the increase in ionization energy across a period and the general decline down a group, with notable spikes when core electrons are removed. It discusses the stability of specific ions, variations in electron affinities, and differences between Pauling and Mulliken electronegativity scales.
Chapter 3.4: The Chemical Families
This page covers the chemical properties, reactivity, and oxidation states of main group elements in the periodic table. Key trends like atomic size and ionization energy are discussed, with a focus on groups 1-18, including alkali and alkaline earth metals, pnicogens, chalcogens, halogens, and noble gases. The versatility of elements like aluminum and carbon is highlighted, alongside the identification of elements based on their reactions.
Chapter 3.5: End of Chapter Material
This page covers the properties and uses of titanium and magnetite, emphasizing titanium’s benefits in aviation and shipping due to its strength and corrosion resistance. It examines magnetite's magnetic properties, particularly focusing on unpaired electrons in its ions. Additionally, it illustrates periodic trends for predicting element states, with francium as an example, and discusses its presence in uranium ores, while also comparing the ionization energies of zinc and iron.

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