Lewis structure of the amino acid, histidine, is to be drawn. Concept introduction: Lewis dot symbols contain dots, which give information about valence electrons. Lewis dot symbols show both bond and lone pairs as dots. Lewis structures show bonds as lines and lone pairs as dots. In Lewis dot symbol, for each element , dots are mentioned around the symbol of an atom. In Lewis dot symbol, valence electrons are represented by dots. Dots are placed above and below as well as to the left and right of symbol. Number of dots is important in Lewis dot symbol but not the order in which the dots are placed around the symbol. In writing symbol pairing is not done until absolutely necessary. For metals, the number of dots represents the number of electrons that are lost when the atom forms a cation. For second period nonmetals, the number of unpaired dots is the number of bonds the atom can form. Atomic ions can also be represented by dot symbols, by simply adding (for anions) and subtracting (for cations) the appropriate number of dots from Lewis dot symbol.
Lewis structure of the amino acid, histidine, is to be drawn. Concept introduction: Lewis dot symbols contain dots, which give information about valence electrons. Lewis dot symbols show both bond and lone pairs as dots. Lewis structures show bonds as lines and lone pairs as dots. In Lewis dot symbol, for each element , dots are mentioned around the symbol of an atom. In Lewis dot symbol, valence electrons are represented by dots. Dots are placed above and below as well as to the left and right of symbol. Number of dots is important in Lewis dot symbol but not the order in which the dots are placed around the symbol. In writing symbol pairing is not done until absolutely necessary. For metals, the number of dots represents the number of electrons that are lost when the atom forms a cation. For second period nonmetals, the number of unpaired dots is the number of bonds the atom can form. Atomic ions can also be represented by dot symbols, by simply adding (for anions) and subtracting (for cations) the appropriate number of dots from Lewis dot symbol.
Solution Summary: The author explains that Lewis structure of the amino acid, histidine, is to be drawn. Dot symbols contain dots, which give information about valence electrons.
Lewis structure of the amino acid, histidine, is to be drawn.
Concept introduction:
Lewis dot symbols contain dots, which give information about valence electrons.
Lewis dot symbols show both bond and lone pairs as dots.
Lewis structures show bonds as lines and lone pairs as dots. In Lewis dot symbol, for each element, dots are mentioned around the symbol of an atom.
In Lewis dot symbol, valence electrons are represented by dots.
Dots are placed above and below as well as to the left and right of symbol.
Number of dots is important in Lewis dot symbol but not the order in which the dots are placed around the symbol.
In writing symbol pairing is not done until absolutely necessary.
For metals, the number of dots represents the number of electrons that are lost when the atom forms a cation.
For second period nonmetals, the number of unpaired dots is the number of bonds the atom can form.
Atomic ions can also be represented by dot symbols, by simply adding (for anions) and subtracting (for cations) the appropriate number of dots from Lewis dot symbol.
Consider a solution of 0.00304 moles of 4-nitrobenzoic acid (pKa = 3.442) dissolved in 25 mL water and titrated with 0.0991 M NaOH. Calculate the pH at the equivalence point
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