Characteristics of the Groups

Groups are the eighteen series of elements in columns across the table. For instance, the elements in group one (the alkali metals) are hydrogen, lithium, sodium, potassium, rubidium, caesium and francium. Each of these groups are special for the common characteristics their constituent elements share.

Alkali Metals (Group 1)

- do not occur elementally in nature
- have one valence electron
- have low ionization energies
- form colorless ions, each with a +1 charge
- are reactive metals obtained by reducing the +1 ions in their natural compounds
- are stored under kerosene or other hydrocarbon solvent because they react with water vapor or oxygen in air
- form water-soluble bases
- are strong reducing agents
- are good conductors of electricity and heat
- are ductile, malleable, and soft enough to be cut with a knife
- have a silvery luster, low density, and a low melting point

Alkaline Earth Metals (2)

- do not occur elementally in nature
- occur most commonly as carbonates, phosphates, silicates, and sulfates
- occur naturally as compounds that are either insoluble or only slightly soluble in water
- contain two valence electrons
- tend to lose two electrons per atom, forming ions with a +2 charge
- are less reactive than alkali metals
- primarily form ionic compounds
- react with water to form bases and hydrogen gas
- are good conductors of heat and electricity
- are ductile and malleable
- have a silvery luster
- include the naturally radioactive element radium

Transition Metals (3-12)

- consist of metals in groups 3 through 12
- contain one or two valence electrons
- are usually harder and more brittle than metals in groups 1 and 2
- have higher melting and boiling points that metals in groups 1 and 2
- are good conductors of heat and electricity
- are malleable and ductile
- have a silvery luster, except copper and gold
- include radioactive elements 89 through 109
- include mercury, the only metal that is liquid at room temperature
- have chemical properties that tend to differ from each other
- tend to have two or more common oxidation states
- often form colored compounds
- may form complex ions

Boron Family (13)

- do not occur elementally in nature
- are scarce in nature (except aluminum, which is the most abundant metallic element)
- have three valence electrons
- are metallic (except boron, which is a solid metalloid)
- are soft and have low melting points (except boron, which is hard and has a high melting point)
- are chemically reactive at moderate temperatures (except boron)

Carbon Family (14)

- includes a nonmetal (carbon), two metalloids (silicon and germanium) and two metals (tin and lead)
- vary greatly in both physical and chemical properties
- occur in nature in both combined and elemental forms
- have four valence electrons
- are relatively unreactive
- tend to form covalent compounds (tin and lead also form ionic compounds)

Nitrogen Family (15)

- consists of two nonmetals (nitrogen and phosphorus), two metalloids (arsenic and antimony), and one metal (bismuth)
- nitrogen is most commonly found as atmospheric N₂, phosphorus as phosphate rock, and arsenic, antimony, and bismuth as sulfides or oxides; antimony and bismuth are also found elementally
- range from very abundant elements (nitrogen and phosphorus) to relatively rare elements (arsenic, antimony, and bismuth)
- have five valence electrons
- tend to form covalent compounds, most commonly with oxidation numbers of +3 or +5
- are solids at room temperature, except nitrogen

Oxygen Family (16)

- occur elementally in nature and in combined states
- consists of three nonmetals (oxygen, sulfur, and selenium), one metalloid (tellurium), and one metal (polonium)
- have six valence electrons
- tend to form covalent compounds with other elements
- tend to exist as diatomic and polyatomic molecules, such as O₂, O₃, S₆, S₈, and Se₈
- commonly exist in compounds with the -2 oxidation state, but often exhibit other oxidation states

Halogen Family (17)

- are nonmetals and occur in combined form in nature, mainly as metal halides
- are found in the rocks of Earth's crust and dissolved in sea water
- range from fluorine, the 13^th most abundant element, to astatine, which is one of the rarest
- exist at room temperature as a gas (F₂ and Cl₂), a liquid (Br₂), and a solid (I₂ and At)
- have seven valence electrons
- tend to gain one electron to form a halide, X^- ion, but also share electrons and have positive oxidation states
- are reactive, with fluorine being the most reactive of all nonmetals

Noble Gases (18)

- not reactive
- have a full outer energy level
- are all gases
- are all nonmetals

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