Chemistry

Metallic Bonds and Metallic Properties 7.3 Metallic Bonds and Metallic Properties The valence electrons of metal atoms can be modeled as a sea of electrons. The valence electrons are mobile and can drift freely from one part of the metal to another. Metallic bonds consist of the attraction of the free-floating valence electrons for the positively charged metal ions.

Metallic Bonds and Metallic Properties 7.3 Metallic Bonds and Metallic Properties Metals are ductile—that is, they can be drawn into wires. A metal rod can be forced through a narrow opening in a die to produce wire. a) As this occurs, the metal changes shape but remains in one piece. b) If an ionic crystal were forced through the die, it would shatter. Interpreting Diagrams What causes the ionic crystal to break apart?

Metallic Bonds and Metallic Properties 7.3 Metallic Bonds and Metallic Properties A force can change the shape of a metal. A force can shatter an ionic crystal. A metal rod can be forced through a narrow opening in a die to produce wire. a) As this occurs, the metal changes shape but remains in one piece. b) If an ionic crystal were forced through the die, it would shatter. Interpreting Diagrams What causes the ionic crystal to break apart?

Crystalline Structure of Metals 7.3 Crystalline Structure of Metals These tomatoes have a closed-packed arrangement. Similar arrangements can be found in the crystalline structure of metals. These tomatoes illustrate a pattern called a hexagonal close-packed arrangement.

Crystalline Structure of Metals 7.3 Crystalline Structure of Metals Metal atoms are arranged in very compact and orderly patterns. Metal atoms crystallize in characteristic patterns. a) Chromium atoms have a body-centered cubic arrangement. b) Gold atoms have a face-centered cubic arrangement. c) Zinc atoms have a hexagonal close-packed arrangement. Inferring Which of these arrangements is the most closely packed?

7.3 Alloys Alloys are mixtures composed of two or more elements, at least one of which is a metal. Alloys are important because their properties are often superior to those of their component elements.

7.3 Alloys Bicycle frames are often made of titanium alloys that contain aluminum and vanadium. Bicycle frames are often made of titanium alloys that contain aluminum and vanadium.

7.3 Alloys The most important alloys today are steels. Steels have a wide range of useful properties, such as corrosion resistance, ductility, hardness, and toughness.

7.3 Section Quiz. 7.3.

7.3 Section Quiz. 1. The valence electrons of metals can be modeled as a body-centered cube. octets of electrons. a rigid array of electrons. a sea of electrons.

7.3 Section Quiz. 2. In most metals, the atoms are free to move from one part of the metal to another. arranged in a compact and orderly pattern. placed at irregular locations. randomly distributed.

7.3 Section Quiz. 3. Alloys are important because they are pure substances. are the ores from which metals can be refined. can have properties superior to those of their components. are produced by the combustion of metals.

Concept Map 7 Concept Map 7 Solve the Concept Map with the help of an interactive guided tutorial.

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