Interpret and match the given potential map with HOCl, FOCl and HOF molecules. Concept introduction: The electrostatic potential map is the representation of the atoms present in a molecule carrying partial positive or negative charges on them. The atom carrying higher positive or negative charges are shown with the darker color in the potential map. The intensity of the color in the potential map is the indication of the amount of charge the atom carrying on it. For example; the electrostatic potential map for chloromethane is shown as: The color code for the atom present in a given molecule carrying higher positive charge is violet or dark blue while the color code for the atom present carrying higher negative charge is orange.
Interpret and match the given potential map with HOCl, FOCl and HOF molecules. Concept introduction: The electrostatic potential map is the representation of the atoms present in a molecule carrying partial positive or negative charges on them. The atom carrying higher positive or negative charges are shown with the darker color in the potential map. The intensity of the color in the potential map is the indication of the amount of charge the atom carrying on it. For example; the electrostatic potential map for chloromethane is shown as: The color code for the atom present in a given molecule carrying higher positive charge is violet or dark blue while the color code for the atom present carrying higher negative charge is orange.
Solution Summary: The author explains that the electrostatic potential map is the representation of the atoms present in a molecule carrying partial positive or negative charges.
Interpret and match the given potential map with HOCl, FOCl and HOF molecules.
Concept introduction:
The electrostatic potential map is the representation of the atoms present in a molecule carrying partial positive or negative charges on them. The atom carrying higher positive or negative charges are shown with the darker color in the potential map. The intensity of the color in the potential map is the indication of the amount of charge the atom carrying on it. For example; the electrostatic potential map for chloromethane is shown as:
The color code for the atom present in a given molecule carrying higher positive charge is violet or dark blue while the color code for the atom present carrying higher negative charge is orange.
Use Lewis symbols and Lewis structures to diagram the formationof PF3 from P and F atoms, showing valence-shellelectrons. (a) How many valence electrons does P have initially?(b) How many valence electrons does each F haveinitially? (c) How many valence electrons surround the P inthe PF3 molecule? (d) How many valence electrons surroundeach F in the PF3 molecule? (e) How many bonding pairs ofelectrons are in the PF3 molecule?
The electronegativity of elements on the periodic table increases going
a column and to the
in each row.
O up; left
O down; left
O up; right
O down; right
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INTRODUCTION TO MOLECULAR QUANTUM MECHANICS -Valence bond theory - 1; Author: AGK Chemistry;https://www.youtube.com/watch?v=U8kPBPqDIwM;License: Standard YouTube License, CC-BY