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There are two types of covalent bonds: polar and nonpolar. Nonpolar covalent bonds form between two atoms of the same or different elements that share the electrons equally ( [link] ). In a polar covalent bond , the electrons shared by the atoms spend more time closer to one nucleus than to the other nucleus. Because of the unequal distribution of electrons between the different nuclei, a slightly positive (δ+) or slightly negative (δ–) charge develops. Water is an example of a molecule formed with polar covalent bonds ( [link] ).

A water molecule is labeled “polar covalent bond”; it consists of a central oxygen atom with 8 electrons in its outermost shell, 4 of which are shared (2 each) with 2 hydrogen atoms; the hydrogen atoms have a slightly positive charge and the oxygen atom has a slightly negative charge. A methane molecule is labeled “nonpolar covalent bond”; it consists of a central carbon atom with 8 electrons in its outermost shell, all of which are shared (2 each) with 4 hydrogen atoms; the molecule is neutral. The formation of sodium chloride is shown, with the sodium atom giving the only electron in its outermost shell to the chlorine atom, resulting in a sodium atom with no electrons in its outermost shell and a net positive charge, and a chlorine atom with 8 electrons in its outermost shell and a net negative charge.
The water molecule (top left) depicts a polar bond with a slightly positive charge on the hydrogen atoms and a slightly negative charge on the oxygen. Methane (top right) is an example of a nonpolar covalent bond. Sodium chloride (bottom) is a substance formed from ionic bonds between sodium and chlorine.

Ions and ionic bonds

When an atom does not contain equal numbers of protons and electrons, it is called an ion . Because the number of electrons does not equal the number of protons, each ion has a net charge. Positive ions are formed by losing electrons and are called cations . Negative ions are formed by gaining electrons and are called anions .

For example, a sodium atom has only has one electron in its outermost shell. It takes less energy for the sodium atom to donate that one electron than it does to accept seven more electrons, which it would need to fill its outer shell. If the sodium atom loses an electron, it now has 11 protons and only 10 electrons, leaving it with an overall charge of +1. It is now called a sodium ion (Na + ).

A chlorine atom has seven electrons in its outer shell. Again, it is more energy efficient for the chlorine atom to gain one electron than to lose seven. Therefore, it will more likely gain an electron to form an ion with 17 protons and 18 electrons, giving it a net negative (–1) charge. It is now called a chloride ion (Cl ). This movement of electrons from one atom to another is referred to as electron transfer. Because positive and negative charges attract, these ions stay together and form an ionic bond , or a bond between ions. When Na + and Cl ions combine to produce NaCl, an electron from a sodium atom stays with the other seven from the chlorine atom, and the sodium and chloride ions attract each other in a lattice of ions with a net zero charge ( [link] ).

Polyatomic ions consist of multiple atoms joined by covalent bonds; but unlike a molecule, a polyatomic ion has a positive or negative charge. It behaves as a cation or anion and can therefore form ionic bonds with other ions to form ionic compounds. The atoms in a polyatomic ion may be from the same element or different elements.

[link] lists some cations and anions that commonly occur in microbiology. Note that this table includes monoatomic as well as polyatomic ions.

Some Common Ions in Microbiology
Cations Anions
sodium Na + chloride Cl
hydrogen H + bicarbonate HCO 3
potassium K + carbonate CO 3 2
ammonium NH 4 + hydrogen sulfate H 2 SO 4 2
copper (I) Cu + hydrogen sulfide HS
copper (II) Cu 2+ hydroxide OH
iron (II) Fe 2+ hypochlorite ClO
iron (III) Fe 3+ nitrite NO 2
nitrate NO 3
peroxide O 2 2
phosphate PO 4 3
pyrophosphate P 2 O 7 4
sulfite SO 3 2
thiosulfate S 2 O 3 2

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Anatomy is the study of the structure of the body, while physiology is the study of the function of the body. Anatomy looks at the body's organs and systems, while physiology looks at how those organs and systems work together to keep the body functioning.
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Source:  OpenStax, Microbiology. OpenStax CNX. Nov 01, 2016 Download for free at http://cnx.org/content/col12087/1.4
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