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Chemistry 7.1

Chemistry 7.1. Ions. 7.1.

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Chemistry 7.1

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  1. Chemistry 7.1

  2. Ions 7.1 • Pyrite (FeS2), a common mineral that emits sparks when struck against steel, is often mistaken for gold—hence its nickname, “fool’s gold.” Pyrite is an example of a crystalline solid. In this chapter, you will learn about crystalline solids composed of ions that are bonded together. But first you need to understand how ions form from neutral atoms.

  3. 7.1 Valence Electrons • Valence Electrons • How do you find the number of valence electrons in an atom of a representative element?

  4. 7.1 Valence Electrons • Valence electrons are the electrons in the highest occupied energy level of an element’s atoms. • The number of valence electrons largely determines the chemical properties of an element.

  5. 7.1 Valence Electrons • To find the number of valence electrons in an atom of a representative element, simply look at its group number.

  6. 7.1 Valence Electrons • Applications of Group 4A Elements Silicon Carbon Germanium

  7. 7.1 Valence Electrons • Electron dot structures are diagrams that show valence electrons as dots.

  8. 7.1 The Octet Rule • The Octet Rule • Atoms of which elements tend to gain electrons? Atoms of which elements tend to lose electrons?

  9. 7.1 The Octet Rule • Noble gases, such as neon and argon, are unreactive in chemical reactions. In 1916, chemist Gilbert Lewis used this fact to explain why atoms form certain kinds of ions and molecules. • He called his explanation the octet rule: In forming compounds, atoms tend to achieve the electron configuration of a noble gas. (Gilbert Lewis, 1916).

  10. 7.1 The Octet Rule • Atoms of which elements tend to gain electrons? Atoms of which elements tend to lose electrons? • Atoms of metals tend to lose their valence electrons, leaving a complete octet in the next-lowest energy level. Atoms ofsomenon-metals tend to gain electrons or to share electrons with another nonmetal to achieve a complete octet.

  11. 7.1 Formation of Cations • Formation of Cations • How are cations formed?

  12. 7.1 Formation of Cations • An atom’s loss of valence electrons produces a cation, or a positively charged ion.

  13. 7.1 Formation of Cations • The most common cations are those produced by the loss of valence electrons from metal atoms. • You can represent the electron loss, or ionization, of the sodium atom by drawing the complete electron configuration of the atom and of the ion formed.

  14. 7.1 Formation of Cations • The electron configuration of the sodium ion is the same as that of a neon atom.

  15. 7.1 Formation of Cations • Using electron dot structures, you can show the ionization more simply.

  16. 7.1 Formation of Cations • The sodium atoms in a sodium-vapor lamp ionize to form sodium cations.

  17. 7.1 Formation of Cations • A magnesium atom attains the electron configuration of neon by losing both valence electrons. The loss of valence electrons produces a magnesium cation with a charge of 2+.

  18. 7.1 Formation of Cations • Walnuts are a good dietary source of magnesium. Magnesium ions (Mg2+) aid in digestive processes.

  19. 7.1 Formation of Cations • Cations of Group 1A elements always have a charge of 1+. Cations of group 2A elements always have a charge of 2+.

  20. 7.1 Formation of Cations • A copper atom can ionize to form a 1+ cation (Cu+). By losing its lone 4s electron, copper attains a pseudo noble-gas electron configuration.

  21. 7.1 Formation of Anions • Formation of Anions • How are anions formed?

  22. 7.1 Formation of Anions • The gain of negatively charged electrons by a neutral atom produces an anion. • An anion is an atom or a group of atoms with a negative charge. • The name of an anion typically ends in -ide.

  23. 7.1 Formation of Anions • The figure shows the symbols of anions formed by some elements in Groups 5A, 6A, and 7A.

  24. 7.1 Formation of Anions • A gain of one electron gives chlorine an octet and converts a chlorine atom into a chloride ion. It has the same electron configuration as the noble gas argon.

  25. 7.1 Formation of Anions • Both a chloride ion and the argon atom have an octet of electrons in their highest occupied energy levels.

  26. 7.1 Formation of Anions • In this equation, each dot in the electron dot structure represents an electron in the valence shell in the electron configuration diagram. • Copy the equation:

  27. 7.1 Formation of Anions • The negatively charged ions in seawater—the anions—are mostly chloride ions.

  28. 7.1 Formation of Anions • The ions that are produced when atoms of chlorine and other halogens gain electrons are called halide ions. • All halogen atoms have seven valence electrons. • All halogen atoms need to gain only one electron to achieve the electron configuration of a noble gas.

  29. 7.1 Formation of Anions • Oxygen is in Group 6A.

  30. 7.1 Formation of Anions

  31. Conceptual Problem 7.1 7.1

  32. Conceptual Problem 7.1 7.1

  33. Conceptual Problem 7.1 7.1

  34. Practice Problems For Conceptual Problem 7.1 for Conceptual Problem 7.1 Problem Solving 7.1 Solve Problem 1 with the help of an interactive guided tutorial.

  35. 7.1 Section Quiz. • 7.1.

  36. 7.1 Section Quiz. • 1. How many valence electrons are there in an atom of oxygen? • 2 • 4 • 6 • 8

  37. 7.1 Section Quiz. • 2. Atoms that tend to gain a noble gas configuration by losing valence electrons are • metals. • nonmetals. • noble gases. • representative elements.

  38. 7.1 Section Quiz. • 3. When a magnesium atom forms a cation, it does so by • losing two electrons. • gaining two electrons. • losing one electron. • gaining one electron.

  39. 7.1 Section Quiz. • 4. When a bromine atom forms an anion, it does so by • losing two electrons. • gaining two electrons. • losing one electron. • gaining one electron

  40. END OF SHOW

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