Textbook Question
Write a balanced net ionic equation for the reaction of the amphoteric oxide ZnO with:
a. Hydrochloric acid
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Ch.22 - The Main Group Elements
Chapter 22, Problem 22.160d
Give one example from main-group chemistry that illustrates each of the following descriptions.
d. Polar molecule that violates the octet rule
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1. The octet rule states that atoms tend to combine in such a way that they each have eight electrons in their valence shells, giving them the same electronic configuration as a noble gas. However, there are exceptions to this rule, and some molecules can have less than eight electrons (incomplete octet) or more than eight electrons (expanded octet) around the central atom.
2. A polar molecule is a molecule in which the bond dipoles do not cancel each other out, resulting in a net dipole moment. This happens when there is an uneven distribution of electron density, which is usually due to the presence of electronegative atoms or asymmetrical molecular structures.
3. An example of a polar molecule that violates the octet rule is Boron trifluoride (BF3).
4. In BF3, the boron atom only has six electrons in its valence shell, violating the octet rule. The molecule is planar and symmetrical, but the B-F bonds are polar because fluorine is more electronegative than boron. However, the dipole moments of the three B-F bonds cancel each other out, making the molecule nonpolar.
5. Therefore, it's important to note that while BF3 is an example of a molecule that violates the octet rule, it is not a polar molecule. A better example might be the ammonium ion (NH4+), which also violates the octet rule (since the nitrogen atom is surrounded by 10 electrons), but is a polar molecule due to its asymmetrical shape and the presence of polar N-H bonds.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Polar Molecules
Polar molecules are molecules that have a net dipole moment due to the presence of polar bonds, which arise from differences in electronegativity between atoms. This results in an uneven distribution of electron density, leading to partial positive and negative charges. A common example is water (H2O), where the oxygen atom is more electronegative than hydrogen, creating a polar structure.
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Molecular Polarity
Octet Rule
The octet rule is a chemical guideline that states atoms tend to bond in such a way that they each have eight electrons in their valence shell, achieving a stable electron configuration similar to that of noble gases. However, some molecules, particularly those involving elements from the third period and beyond, can violate this rule by having more or fewer than eight electrons, as seen in molecules like phosphorus trifluoride (PF3).
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Examples of Molecules Violating the Octet Rule
Certain molecules, such as sulfur dioxide (SO2) and phosphorus pentachloride (PCl5), illustrate violations of the octet rule. In SO2, the sulfur atom has only six valence electrons in its bonding structure, while in PCl5, phosphorus can expand its valence shell to accommodate more than eight electrons. These examples highlight how some elements can exceed the octet rule due to their ability to utilize d-orbitals.
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Related Practice
Textbook Question
Write a balanced net ionic equation for the reaction of the amphoteric oxide Ga2O3 with:
a. Aqueous sulfuric acid
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Textbook Question
a. Why is the SO3 molecule trigonal planar but the SO32– ion is trigonal pyramidal?
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Textbook Question
An important physiological reaction of nitric oxide (NO) is its interaction with the superoxide ion (O2–) to form the peroxynitrite ion (ONOO–).
a. Write electron-dot structures for NO, O2–, and ONOO–, and predict the O–N–O bond angle in ONOO–.
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Textbook Question
Locate each of the following elements on the periodic table.
(f) Group 5A element that forms the strongest p bonds
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Textbook Question
Look at the location of elements A, B, C, and D in the following periodic table:
Which hydride has the lowest boiling point?
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