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*How did Moseley arrange the periodic table?
Quick Review *Describe Newlands periodic table…how was it arranged? What law did he have? *What did Mendeleev and Meyer do? What did Mendeleev do that Meyer didn’t? *How did Moseley arrange the periodic table? *What does it mean to be periodic? *What are the 3 ways we classify elements in the periodic table?
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Section 6.2 Classification of the Elements
Explain why elements in the same group have similar properties. valence electron: electron in an atom's outermost orbitals; determines the chemical properties of an atom Identify the four blocks of the periodic table based on their electron configuration. Elements are organized into different blocks in the periodic table according to their electron configurations. Section 6-2
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Organizing the Elements by Electron Configuration
Recall electrons in the highest principal energy level are called valence electrons. All group 1 elements have one valence electron. All group 2 elements have two valence electrons. Section 6-2
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Organizing the Elements by Electron Configuration (cont.)
The energy level of an element’s valence electrons indicates the period on the periodic table in which it is found. For example, Zirconium (element 40) has an electron configuration of: [Kr] 5s24d2. Zirconium is the in 5th period and it’s valence electrons are in the 5th energy level Section 6-2
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Helium is the exception to that as it has only 2 valence electrons.
Organizing the Elements by Electron Configuration (cont.) The number of valence electrons for elements in groups is ten less than their group number. Helium is the exception to that as it has only 2 valence electrons. Section 6-2
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The s-, p-, d-, and f-Block Elements
The shape of the periodic table becomes clear if it is divided into blocks representing the atom’s energy sublevel being filled with valence electrons. 4 different energy sublevels, so 4 different blocks. Section 6-2
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The s-, p-, d-, and f-Block Elements (cont.)
s-block elements consist of group 1 and 2, and the element helium. Group 1 elements have a partially filled s orbital with one electron. Group 2 elements have a completely filled s orbital with two electrons. Section 6-2
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The s-, p-, d-, and f-Block Elements (cont.)
After the s-orbital is filled, valence electrons occupy the p-orbital. Groups contain elements with completely or partially filled p orbitals. Section 6-2
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The s-, p-, d-, and f-Block Elements (cont.)
The d-block contains the transition metals and is the largest block. There are exceptions, but d-block elements usually have filled outermost s orbital, and filled or partially filled d orbital. The five d orbitals can hold 10 electrons, so the d-block spans ten groups on the periodic table. Remember that the d orbital is always an energy level below the outermost energy level. From before: Zirconium (element 40) has an electron configuration of: [Kr] 5s24d2. Section 6-2
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The s-, p-, d-, and f-Block Elements (cont.)
The f-block contains the inner transition metals. f-block elements have filled or partially filled outermost s orbitals and filled or partially filled 4f and 5f orbitals. The 7 f orbitals hold 14 electrons, and the inner transition metals span 14 groups. Section 6-2
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Without using the periodic table, determine the group, period, and block of an atom with the following electron configuration: [Ar]4s23d104p5 Group = 17 Period = 4 Last block = p block
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A B C D Section 6.2 Assessment
Which of the following is NOT one of the elemental blocks of the periodic table? A. s-block B. d-block C. g-block D. f-block A B C D Section 6-2
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A B C D Section 6.2 Assessment Which block spans 14 elemental groups?
A. s-block B. p-block C. f-block D. g-block A B C D Section 6-2
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