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Learn why the periodic table is essential to determine properties of elements based on their placement. Discover how elements are arranged by atomic number and reactivity, with a focus on families such as alkali metals, halogens, and noble gases. Understand the role of valence electrons in bonding, differences between metals, nonmetals, and metalloids, and the characteristics of specific element families like Boron, Carbon, Oxygen, and more. Dive into the significance of Dmitri Mendeleev's legacy and the modern organization of elements. Explore the periodic table to unveil the secrets of chemical elements and their relationships.
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Why is it important to me? • Useful because it allows you to determine properties of elements by their location on the table.
HOW HIS WORKED… Put elements in rows by increasing atomic mass. Put elements in columns by the way they reacted. SOME PROBLEMS… Left blank spaces for undiscovered elements. Dmitri Mendeleev: Father of the Table
The Current Periodic Table • Now the elements are put in rows by increasing ATOMIC NUMBER (number of protons)!!
Reactivity • Elements are in numbered groups, or families. • Most reactive groups are #1 (alkali metals) and #17 (halogens). • As you move towards the middle of the table, elements become less reactive. • Group #18 does not react at all (noble gases).
- Atoms, Bonding, and the Periodic Table Valence Electrons and Bonding • Elements in the same family have similar properties because of their valence electrons. • Number determines available electrons for bonding; max is 8. • The less valence electrons an atom needs to be close to 8, the more reactive it is.
Electron Dot Diagrams • Draw the symbol • Determine the # of V.E. • Draw that many dots around symbol
Metals • 1-4 valence electrons. • Gives away electrons in a reaction. • Physical properties include: • Luster (shiny) • Conducts heat and electricity • High densities • High melting points • Ductile (stretched into thin wires) • Malleable (hammered into thin sheets)
Nonmetals • 5-8 valence electrons. • Gains electrons in reactions. • Physical Properties: • No luster • Poor conductors of heat and electricity • Brittle (break easily) • Not ductile or malleable • Lower densities and melting points
Metalloids • Properties of both metals and nonmetals. • Along the stair step • Shiny or dull. • Conduct heat and electricity okay. • Ductile and malleable.
Hydrogen • Hydrogen is a reactive gas. • In its own family because its properties are so different.
Alkali Metals • 1 Valence Electron • Very reactive; always combined with something else in nature (like in salt).
Alkaline Earth Metals • 2 Valence Electrons • Reactive; usually combined with something else.
Transition Metals • 1-4 valence electrons (no pattern). • Less reactive, harder metals
Boron Family • 3 Valence Electrons • Less reactive
Carbon Family • 4 Valence Electrons • Not very reactive – would rather share electrons.
Nitrogen Family • 5 Valence electrons. • More reactive than carbon (not much).
Oxygen Family • 6 Valence electrons. • Reactive; usually combined with a metal.
Halogens • 7 Valence electrons • Very reactive, volatile nonmetals • Always combined with another element in nature.
The Noble Gases • 8 Valence electrons (full). • Don’t normally react with other elements.
