Metals are good conductors of heat & electricity

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Presentation transcript:

Metals are good conductors of heat & electricity Metals are solids at room temperature Metals reflect light (called luster) Metals are malleable (rolled into thin sheets) 11/24/2018

Metals Metals are ductile (drawn into thin wires) Metals have 1 to 3 electrons in the outer energy level Metals tend to give up electrons easily Metals combine with nonmetals, metals lose electrons and form ionic bonds 11/24/2018

The Properties of Metals This presentation shows the main properties of metals and their meanings. 11/24/2018

1. Strong and Hard Most metals are generally strong and hard. They are difficult to break down into smaller pieces and changing their shape usually involves a lot of effort. 11/24/2018

2. Conductors They are very good conductors of heat and electricity. This is why they are used for pots and pans and in electrical circuits to carry the current. 11/24/2018

3. Dense Most metals have high density. This is why they feel heavy and sink when placed in water. 11/24/2018

4. Shiny and Silvery Most metals are silvery in colour, except copper and gold. Some go dull over time. All metals are shiny when freshly cut. 11/24/2018

5. High Melting & Boiling Points Most metals have very high melting and boiling points. They need to be heated to very high temperatures before they melt to become liquids. 11/24/2018

6. Solids All metals are solids at room temperature. The only exception is mercury. Mercury is the only liquid under normal conditions. 11/24/2018

7. Malleable This property means that metals can be hit without shattering. They can be hammered into shape, even when cold and not break into lots of small pieces. 11/24/2018

8. Ductile This property means that metals can stretched very thinly without them breaking. This is why they can be drawn out into wires. 11/24/2018

9. Sonorous This property refers to the sound that metals make when they are hit. Metals make a ringing sound when they are struck. 11/24/2018

Ionic Bonding in Metals When metals combine with nonmetals, the atoms of the metals tend to lose electrons to the atoms of nonmetals, forming ionic bonds. Both metals and nonmetals become more chemically stable when they form ions. 11/24/2018

Metallic Bonding In metallic bonding, positively charged metallic ions are surrounded by a cloud of electrons. 11/24/2018

Properties of Nonmetals Most of your body’s mass is made of oxygen, carbon, hydrogen, and nitrogen. Calcium, a metal, and other elements make up the remaining four percent of your body’s mass. 11/24/2018

Properties of Nonmetals Nonmetals are elements that usually are gases or brittle solids at room temperature. Most nonmetals do not conduct heat or electricity well, and generally they are not shiny. In the periodic table, all nonmetals except hydrogen are found at the right of the stair-step line. 11/24/2018

Most nonmetals can form ionic and covalent compounds. Bonding in Nonmetals The electrons in most nonmetals are strongly attracted to the nucleus of the atom. So, as a group, nonmetals are poor conductors of heat and electricity. Most nonmetals can form ionic and covalent compounds. 11/24/2018

Periodic Table 11/24/2018

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The Alkali Metals The alkali metals are the most reactive of all the metals. They react rapidlysometimes violentlywith oxygen and water. Each atom of an alkali metal has one electron in its outer energy level. 11/24/2018

The Alkaline Earth Metals Each atom of an alkaline earth metal has two electrons in its outer energy level. The alkaline earth metals make up Group 2 of the periodic table. 11/24/2018

Alkaline Earth Metals Group 2 11/24/2018

Transition Elements Transition elements are those elements in Groups 3 through 12 in the periodic table. They are called transition elements because they are considered to be elements in transition between Groups 1 and 2 and Groups 13 through 18. 11/24/2018

Transition Metals 11/24/2018

Transition Elements Transition elements are familiar because they often occur in nature as uncombined elements. Transition elements often form colored compounds. Gems show brightly colored compounds containing chromium. 11/24/2018

Iron, Cobalt, and Nickel The first elements in Groups 8, 9, and 10iron, cobalt, and nickelform a unique cluster of transition elements. These three sometimes are called the iron triad. 11/24/2018

The Inner Transition Metals The two rows of elements that seem to be disconnected from the rest on the periodic table are called the inner transition elements. 11/24/2018

The Lanthanides The Actinides The first row includes a series of elements with atomic numbers of 58 to 71. These elements are called the lanthanide series because they follow the element lanthanum. The Actinides The second row of inner transition metals includes elements with atomic numbers ranging from 90 to 103. All of the actinides are radioactive and unstable. 11/24/2018

The Inner Transition Metals They are called this because like the transition elements, they fit in the periodic table between Groups 3 and 4 in periods 6 and 7, as shown. 11/24/2018

Properties of Metalloids Metalloids share unusual characteristics. Metalloids can form ionic and covalent bonds with other elements and can have metallic and nonmetallic properties. Some metalloids can conduct electricity better than most nonmetals, but not as well as some metals, giving them the name semiconductor. 11/24/2018

Hydrogen A diatomic molecule consists of two atoms of the same element in a covalent bond. 11/24/2018

Boron, a metalloid, is the first element in Group 13. The Boron Group Boron, a metalloid, is the first element in Group 13. If you look around your home, you might find two compounds of boron. 11/24/2018

The Carbon Group Each element in Group 14, the carbon family, has four electrons in its outer energy level, but this is where much of the similarity ends. 11/24/2018

Allotropes of Carbon Allotropes, which are different forms of the same element, have different molecular structures. Diamond, graphite, and buckminsterfullerene are allotropes of an element. In the mid-1980s, a new allotrope of carbon called buckminsterfullerene was discovered. This soccer-ball-shaped molecule 11/24/2018

The nitrogen family makes up Group 15. The Nitrogen Group The nitrogen family makes up Group 15. Each element has five electrons in its outer energy level. These elements tend to share electrons and to form covalent compounds with other elements. 11/24/2018

The Oxygen Group Group 16 on the periodic table is the oxygen group. Oxygen, a nonmetal, exists in the air as diatomic molecules, O2. During electrical storms, some oxygen molecules, O2, change into ozone molecules, O3. 11/24/2018

The Halogens Halogen lights contain small amounts of bromine or iodine. These elements, as well as fluorine, chlorine, and astatine, are called halogens and are in Group 17. 11/24/2018

The Halogens Because an atom of a halogen has seven electrons in its outer energy level, only one electron is needed to complete this energy level. If a halogen gains an electron from a metal, an ionic compound, called a salt is formed. 11/24/2018

The Halogens In the gaseous state, the halogens form reactive diatomic covalent molecules and can be identified by their distinctive colors. Chlorine is greenish yellow, bromine is reddish orange, and iodine is violet. 11/24/2018

Chlorine compounds are used to disinfect water. Uses of Halogens Chlorine compounds are used to disinfect water. Chlorine, the most abundant halogen, is obtained from seawater at ocean-salt recovery sites. 11/24/2018

Uses of Halogens Iodine, a shiny purple-gray solid at room temperature, is obtained from seawater. When heated, iodine changes directly to a purple vapor. The process of a solid changing directly to a vapor without forming a liquid is called sublimation. 11/24/2018

The Noble Gases The noble gases exist as isolated atoms. They are stable because their outermost energy levels are full. No naturally occurring noble gas compounds are known. 11/24/2018

The Noble Gases The stability of noble gases is what makes them useful. The light weight of helium makes it useful in lighter-than-air blimps and balloons. Neon and argon are used in “neon lights” for advertising. 11/24/2018

Noble Gases Group 18 11/24/2018

Main Points of the Bohr Model Electrons orbit the nucleus in orbits that have a set size and energy. The energy of the orbit is related to its size. The lowest energy is found in the smallest orbit. Radiation is absorbed or emitted when an electron moves from one orbit to another.

All atoms in a Lewis dot diagram want to have eight electrons in their outermost (valence) shell, since this is the most stable configuration.

Lewis structures (also known as Lewis dot diagrams, electron dot diagrams, and electron dot structures) are diagrams that show the bonding between atoms of a molecule and the lone pairs of electrons that may exist in the molecule

Electron dot diagrams, also known as electron dot structures or symbols, show electron location in an atom. In order to start an electron dot diagram, you need to write the element’s symbol (either one letter or two letters) like this: Next, we are going to count valence electrons of the element. In our example, we listed helium, He. Helium has 2 valence electrons. We know this because we counted to see which group helium is in, which is IIA. Because it’s the second element in its row, we know the configuration would be 1s2, which means it has two valence electrons. Now, using a dot to represent each electron, we’re going to place them around the element’s symbol, like this: Notice that we did not place the electrons directly next to each other on the same side. Electrons fill the orbitals according to the diagonal rule. The order in which electrons are written around the element symbol is this:

You need to know which elements are involved and what number of electrons they lose, gain, or share in order to become stable. The relationship between an element’s position on the periodic table and the number of electrons it gains or loses is called the oxidation number of an element. Physical Science 11/24/2018

An oxidation number tells you how many electrons an atom has gained, or shared to become stable. For ionic compounds the oxidation number is the same as the charge on the ion. For example, a sodium ion has a charge of 1+ and an oxidation number of 1+. Physical Science 11/24/2018

Oxidation Numbers The number at the top of each column is the most common oxidation number of elements in that group. Physical Science 11/24/2018

Oxidation Numbers Physical Science 11/24/2018