Textbook Question
(b) Using data from Appendix C, Figure 7.11, Figure 7.13, and the value of the second ionization energy for Ca, 1145 kJ/mol, calculate the lattice energy of CaCl2.
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Ch.8 - Basic Concepts of Chemical Bonding
Chapter 8, Problem 36c
Using Lewis symbols and Lewis structures, diagram the formation of PF3 from P and F atoms, showing valence-shell electrons. (c) How many valence electrons surround the P in the PF3 molecule?
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Identify the number of valence electrons for each atom: Phosphorus (P) has 5 valence electrons, and each Fluorine (F) atom has 7 valence electrons.
Draw the Lewis symbol for Phosphorus (P) with 5 dots around it, representing its 5 valence electrons.
Draw the Lewis symbol for each Fluorine (F) atom with 7 dots around it, representing its 7 valence electrons.
Form bonds by pairing unpaired electrons: Phosphorus will share one of its unpaired electrons with an unpaired electron from each of the three Fluorine atoms, forming three P-F single bonds.
Count the total number of valence electrons around the Phosphorus atom in the PF_3 molecule: After forming the bonds, Phosphorus will have 8 electrons in its valence shell, satisfying the octet rule.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Lewis Symbols
Lewis symbols represent the valence electrons of an atom as dots surrounding the element's symbol. Each dot corresponds to a valence electron, allowing for a visual representation of how atoms bond and share electrons. This concept is crucial for understanding the formation of molecules, as it helps predict how atoms will interact based on their electron configurations.
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00:52
Lewis Dot Symbols
Lewis Structures
Lewis structures are diagrams that depict the arrangement of atoms and the distribution of valence electrons in a molecule. They illustrate how atoms are bonded together and show lone pairs of electrons. By using Lewis structures, one can visualize the connectivity and electron sharing in molecules like PF3, which is essential for understanding molecular geometry and reactivity.
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Valence Electrons
Valence electrons are the outermost electrons of an atom and are involved in chemical bonding. The number of valence electrons determines how an atom can bond with others, influencing the molecule's structure and properties. In PF3, phosphorus has five valence electrons, and each fluorine contributes one, leading to a total of eight electrons around phosphorus in the molecule.
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Related Practice
Textbook Question
(b) A substance, XY, formed from two different elements, melts at −33 °C. Is XY likely to be a covalent or an ionic substance?
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Textbook Question
Using Lewis symbols and Lewis structures, diagram the formation of SiCl4 from Si and Cl atoms, showing valence-shell electrons. e. How many bonding pairs of electrons are in the SiCl4 molecule?
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Textbook Question
Use Lewis symbols and Lewis structures to diagram the formation of PF3 from P and F atoms, showing valence-shell electrons. e. How many bonding pairs of electrons are in the PF3 molecule?
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Textbook Question
(b) How many bonding electrons are in the structure?
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Textbook Question
(c) Do you expect the O—O bond in H2O2 to be longer or shorter than the O—O bond in O2? Explain.
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