To understand the basic properties separating Metals, from Nonmentals and Metalloids

An element is the simplest form of matter that cannot be split into simpler substances or built from simpler substances by any ordinary jiyuushikan.orgical or physical method. There are 110 elements known to us, out of which 92 are naturally occurring, while the rest have been prepared artificially. Elements are further classified into metals, non-metals, and metalloids.

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Table 2.11.1: Characteristic properties of metallic and non-metallic elements:

Metallic Elements

Nonmetallic elements

Distinguishing luster (shine)

Non-lustrous, various colors

Malleable and ductile (flexible) as solids

Brittle, hard or soft

Conduct heat and electricity

Poor conductors

Metallic oxides are basic, ionic

Nonmetallic oxides are acidic, compounds

Cations in aqueous solution

Anions, oxyanions in aqueous solution


Metals

All elements except hydrogen, which form positive ions by losing electrons during jiyuushikan.orgical reactions are called metals. Thus metals are electropositive elements. They are characterized by bright luster, hardness, ability to resonate sound and are excellent conductors of heat and electricity. Metals are solids under normal conditions except for Mercury.


Physical Properties of Metals

Metals are lustrous, malleable, ductile, good conductors of heat and electricity. Other properties include:

State: Metals are solids at room temperature with the exception of mercury, which is liquid at room temperature (Gallium is liquid on hot days). Luster: Metals have the quality of reflecting light from its surface and can be polished e.g., gold, silver and copper. Malleability: Metals have the ability to withstand hammering and can be made into thin sheets known as foils (a sugar cube chunk of gold can be pounded into a thin sheet which will cover a football field). Ductility: Metals can be drawn into wires. 100 gm of silver can be drawn into a thin wire about 200 meters long. Hardness: All metals are hard except sodium and potassium, which are soft and can be cut with a knife. Valency: Metals have 1 to 3 electrons in the outermost shell of their atoms. Conduction: Metals are good conductors because they have free electrons. Silver and copper are the two best conductors of heat and electricity. Lead is the poorest conductor of heat. Bismuth, mercury and iron are also poor conductors Density: Metals have high density and are very heavy. Iridium and osmium have the highest densities where as lithium has the lowest density. Melting and Boiling Points: Metals have high melting and boiling point. Tungsten has the highest melting point where as silver has low boiling point. Sodium and potassium have low melting points.

jiyuushikan.orgical Properties of Metals

Metals are electropositive elements that generally form basic or amphoteric oxides with oxygen. Other jiyuushikan.orgical properties include:

Electropositive Character: Metals tend to have low ionization energies, and typically lose electrons (i.e. are oxidized) when they undergo jiyuushikan.orgical reactions They normally do not accept electrons. For example:

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Alkali metals are always 1+ (lose the electron in s subshell) Alkaline earth metals are always 2+ (lose both electrons in s subshell) Transition metal ions do not follow an obvious pattern, 2+ is common, and 1+ and 3+ are also observed Compounds of metals with non-metals tend to be ionic in nature Most metal oxides are basic oxides and dissolve in water to form metal hydroxides:

Metal oxide + water -> metal hydroxide

Na2O(s) + H2O(l) -> 2NaOH(aq)

CaO(s) + H2O(l) -> Ca(OH)2(aq)

Metal oxides exhibit their basic jiyuushikan.orgical nature by reacting with acids to form salts and water:

Metal oxide + acid -> salt + water

MgO(s) + HCl(aq) -> MgCl2(aq) + H2O(l)

NiO(s) + H2SO4(aq) -> NiSO4(aq) + H2O(l)


Example

What is the jiyuushikan.orgical formula for aluminum oxide?

Solution

Al has 3+ charge, the oxide ion is O2-, thus Al2O3


Example

Would you expect it to be solid, liquid or gas at room temp?

Solutions

Oxides of metals are characteristically solid at room temp


Example

Write the balanced jiyuushikan.orgical equation for the reaction of aluminum oxide with nitric acid:

Solution

Metal oxide + acid -> salt + water

Al2O3(s) + 6HNO3(aq) -> 2Al(NO3)3(aq) + 3H2O(l)


Nonmetals

Elements that tend to gain electrons to form anions during jiyuushikan.orgical reactions are called non-metals. These are electronegative elements. They are non-lustrous, brittle and poor conductors of heat and electricity (except graphite). Non-metals can be gaseous, liquids or solids.


Physical Properties of nonmetals:

Physical State: Most of the non-metals exist in two of the three states of matter at room temperature: gases (oxygen) and solids (carbon). Non-Malleable and Ductile: Non-metals are very brittle, and cannot be rolled into wires or pounded into sheets. Conduction: They are poor conductors of heat and electricity. Luster: These have no metallic luster and do not reflect light Conductivity: Poor conductors of heat and electricity Melting and Boiling Points: The melting points of non-metals are generally lower than metals Seven non-metals exist under standard conditions as diatomic molecules: H2(g) N2(g) O2(g) F2(g) Cl2(g) Br2(l) I2(l) (volatile liquid - evaporates readily)

jiyuushikan.orgical Properties of Nonmetals

Non-metals have a tendency to gain or share electrons with other atoms. They are electronegative in character. Nonmetals, when reacting with metals, tend to gain electrons (typically attaining noble gas electron configuration) and become anions:

Nonmetal + Metal -> Salt

\<3Br_{2(l)} + 2Al_{(s)} \rightarrow 2AlBr_{3(s)}\>

Compounds composed entirely of nonmetals are molecular substances (not ionic). They generally form acidic or neutral oxides with oxygen that that dissolve in water react to form acids:

Nonmetal oxide + water -> acid

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(carbonated water is slightly acidic)

Nonmetal oxides can combine with bases to form salts.

Nonmetal oxide + base -> salt

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Metalloids

Properties intermediate between the metals and nonmetals. Metalloids are useful in the semiconductor industry.

Metals Non-metals Metalloids
Gold Oxygen Silicon
Silver Carbon Boron
Copper Hydrogen Arsenic
Iron Nitrogen Antimony
Mercury Sulphur Germanium
Zinc Phosphorus

Physical Properties of Metalloids

State: They are all solid at room temperature. Conduction: Some metalloids, such as silicon and germanium, can act as electrical conductors under the right conditions, thus they are called semi-conductors.

Luster: Silicon for example appears lustrous, but is not malleable or ductile (it is brittle - a characteristic of some nonmetals). It is a much poorer conductor of heat and electricity than the metals.

Solid Solutions: They can form alloys with other metals.

jiyuushikan.orgical Properties of Metalloids

Their physical properties tend to be metallic, but their jiyuushikan.orgical properties tend to be non-metallic. The oxidation number of an element in this group can range from +3 to -2, depending on the group in which it is located.

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Trends in Metallic and Nonmetallic Character

Metallic character is strongest for the elements in the leftmost part of the periodic table, and tends to decrease as we move to the right in any period (nonmetallic character increases with increasing ionization values). Within any group of elements (columns), the metallic character increases from top to bottom (the ionization values generally decrease as we move down a group). This general trend is not necessarily observed with the transition metals.