1. Chapter 2: Atoms and Elements The Building Blocks of Chemistry © 2003 John Wiley and Sons Publishers PhotoDisc Inc./Getty Images

2. Atoms and Paper Clips © 2003 John Wiley and Sons Publishers Courtesy Ken Karp

3. Compounds are result of combination of elements (in a fix ratio) What elements composed of ?

4. 2.1 Origins of Atomic Theory Matter is composed of Atoms Atomistic Philosophers- Leucippus & Democritus (ca., 400 BC) Atomos - indivisible (Greek) Democritus http://dbhs.wvusd.k12.ca.us/AtomicStructure/AtomicStructure.html

5. Piles of paper clips, individual paper clips, and fragments of a paper clip. © 2003 John Wiley and Sons Publishers Courtesy Ken Karp

6. Figure 2.1: In a parallel to the demonstration with the paper clips, repeatedly subdividing a piece of gold produces smaller and smaller groups of atoms. © 2003 John Wiley and Sons Publishers

7. What are atoms composed of ?

8. The Structure of Atoms Cathode-Ray Tube (Thomson, 1856–1940): Cathode rays consist of tiny negatively charged particles, now called electrons.

9. The Structure of Atoms Deflection of electron depends on three factors: –Strength of electric or magnetic field –Size of negative charge on electron –Mass of the electron Thomson calculated the electron’s charge to mass ratio as 1.758820 x 10 8 Coulombs per gram.

10. The Structure of Atoms Oil Drop Experiment (Millikan, 1868–1953): Applied a voltage to oppose the downward fall of charged drops and suspend them. Voltage on plates place 1.602176 x 10 -19 C of charge on each oil drop. Millikan calculated the electron’s mass as 9.109382 x 10 -28 grams.

11. Discovery of Nucleus (Rutherford, 1871 – 1937): Rutherford irradiated gold foil with a beam of alpha (  ) particles to search for positive charged particles. The Structure of Atoms

12. Discovery of Nucleus (Rutherford, 1871–1937): Rutherford irradiated gold foil with a beam of alpha (  ) particles to search for positive charged particles. Atom must be mostly empty space except for a central positive mass concentration. The Structure of Atoms

13. Figure 2.10: Relative distances and masses in the hydrogen atom. © 2003 John Wiley and Sons Publishers

14. The Structure of Atoms Structure of the Atom:

15. Figure 2.9: The structure of the hydrogen atom. © 2003 John Wiley and Sons Publishers

16. Figure 2.7: The nucleus and electron shells of a lithium atom, a typical small atom. © 2003 John Wiley and Sons Publishers

17.  The atomic number is equal to the number of protons in an atom.  On the periodic chart, the atomic number appears above the symbol of an element. Atomic Number 11 Na Atomic Number Symbol

18. 18 Fig 3.2 The periodic table

19. Atomic Numbers and Protons for Lithium and Carbon Atoms

20. State the number of protons in each. A. Nitrogen 1) 5 protons 2) 7 protons 3) 14 protons B. Sulfur 1) 32 protons 2) 16 protons 3) 6 protons C. Barium 1) 137 protons 2) 81 protons 3) 56 protons Learning Check

21. State the number of protons in each. A. Nitrogen 2) Atomic number 7; 7 protons B. Sulfur 2) Atomic number 16; 16 protons C. Barium 3) Atomic number 56; 56 protons Solution

22.  An atom is electrically neutral; the net charge is zero.  In an atom, the number of protons is equal to the number of electrons. # protons = # electrons  Therefore, the atomic number is also equal to the number of electrons in a neutral atom. Electrons in An Atom

23. What Else is There in an Atom? M p = 1.67 X 10 –24 g M e = 0.0009 X 10 –24 g, 1amu = 1.661X10 –24 g M (atom) > M p +M e Neutrons? M n = 1.67X10 –24 g

24.  The mass number gives the total number of protons and neutrons in the nucleus. Mass number = # protons + # neutrons Mass Number

25.  The atomic symbol represents a particular atom of an element.  The atomic symbol shows the mass number in the upper left corner and the atomic number in the lower left corner.  For example, an atom of sodium with atomic number 11 and a mass number 23 has the following atomic symbol: mass number 23 Na atomic number 11 Atomic Symbol

26.  When we know the atomic symbol of an atom, we can determine the number of protons (p + ), neutrons, (n), and electrons (e - ). 163165 O P Zn 81530 8 p + 15 p + 30 p + 8 n16 n35 n 8 e - 15 e - 30 e - Information from Atomic Symbols

27. Naturally occurring carbon consists of three isotopes, 12 C, 13 C, and 14 C. State the number of protons, neutrons, and electrons in each of the following. 12 C 13 C 14 C 6 6 6 protons ______ ______ ______ neutrons ______ ______ ______ electrons______ ______ ______ Learning Check

28. 12 C 13 C 14 C 6 6 6 Protons 6 6 6 Neutrons6 7 8 Electrons 6 6 6 Solution

29. Write the atomic symbols for atoms with the following subatomic particles: A. 8 p +, 8 n, 8 e - ___________ B.17p +, 20n, 17e - ___________ C. 47p +, 60 n, 47 e - ___________ Learning Check

30. Write the atomic symbols for atoms with the following subatomic particles: 16 O A. 8 p +, 8 n, 8 e - 8 B.17p +, 20n, 17e - 37 Cl 17 C. 47p +, 60 n, 47 e - 107 Ag 47 Solution

31. An atom of zinc has a mass number of 65. A. How many protons are in this zinc atom? 1) 302) 353) 65 B. How many neutrons are in the zinc atom? 1) 302) 353) 65 C. What is the mass number of a zinc atom that has 37 neutrons? 1) 372) 653) 67 Learning Check

32. An atom of zinc has a mass number of 65. A. How many protons are in this zinc atom? 1) 30 B. How many neutrons are in the zinc atom? 2) 35 C. What is the mass number of a zinc atom that has 37 neutrons? 3) 67 Solution

33. An atom has 14 protons and 20 neutrons. A. Its atomic number is 1) 142) 163) 34 B. Its mass number is 1) 142) 163) 34 C. The element is 1) Si2) Ca3) Se Learning Check

34. An atom has 14 protons and 20 neutrons. A. It has atomic number 1) 14 B. It has a mass number of 3) 34 C. The element is 1) Si Solution

35. Atoms and Elements Isotopes and Atomic Mass 24 Mg 25 Mg 26 Mg 12 12 12

36.  Isotopes are atoms of the same element that have different mass numbers.  Isotopes have the same number of protons, but different numbers of neutrons.  Most elements have two or more isotopes. Isotopes

37.  Atomic mass is the weighted average mass of all the isotopes of that element.  The atomic mass of each element is compared to 12 C, whith a mass of 12 amu.  The atomic mass of each element is listed below the symbol of the element on the periodic table. Atomic Mass

38. Atomic Mass of Magnesium  The individual atomic masses of all the isotopes contribute to the atomic mass of Mg.  As a weighted average, the atomic mass is not a whole number.

39. Figure 2.11: Relative abundance of deuterium. © 2003 John Wiley and Sons Publishers

40. Using the periodic table, specify the atomic mass of each element (round to the tenths place): A.calcium__________ B. aluminum__________ C. lead__________ D. barium__________ E. iron__________ Learning Check

41. Using the periodic table, specify the atomic mass of each element (round to the tenths place): A.calcium40.1 B. aluminum27.0 C. lead207.2 D. barium137.3 E. iron55.9 Solution

42. The periodic table arranges elements according to similar properties. Periodic Table

43. On the periodic table, each vertical column is called a group of elements. A group contains elements with similar chemical and physical properties. Each group is identified by a group number at the top of the column. The representative elements have group numbers of 1A – 8A. The transition elements use the letter “B.” Groups on the Periodic Table

44. Groups and Group Numbers

45. Numbering Groups One numbering system for groups assigns the letter A to the representative elements and the letter B to the transition elements. Another system assigns the numbers 1-18 to the columns across the periodic table.

46. Group Numbers Group numbers

47. Several groups of representative elements are classified by name. Group 1AAlkali Metals Group 2AAlkaline Earth Metals Group 7A Halogens Group 8ANoble Gases Representative Elements

48. Names of Some Representative Groups

49. Group 1A, the alkali metals, includes sodium, lithium, and potassium. Group 7A, the halogens, includes chlorine, bromine, and iodine. Representative Elements

50. On the periodic table, each horizontal row is called a period. A period is identified by a number such as 1, 2, 3, or 4. Periods 2-7 include representative elements and transition elements. Periods on the Periodic Table

51. Location of Periods Period 4

52. Identify the element described by the following: A. Element in Group 7A, Period 4 1) Br2) Cl3) Mn B. Element in Group 2A, Period 3 1) beryllium2) magnesium 3) boron Learning Check

53. A. Group 7A, Period 4 1) Br B. Group 2A, Period 3 2) magnesium Solution

54. Figure 2.12: Names, symbols, electron structures, and compositions of nuclei of the first 10 elements. © 2003 John Wiley and Sons Publishers

55. Which particle has a mass approximately equal to the mass of a proton? a.Atom b.Electron c.Neutron d.Nucleus e.quark

56. Which particle has a mass approximately equal to the mass of a proton? a.Atom b.Electron c.Neutron d.Nucleus e.quark

57. Protons possess a ________ charge, and electrons possess a ________ charge. a.negative, negative b.negative, positive c.positive, negative d.positive, zero e.zero, positive

58. Protons possess a ________ charge, and electrons possess a ________ charge. a.negative, negative b.negative, positive c.positive, negative d.positive, zero e.zero, positive

59. In a neutral atom the number of ________ is equal to the number of ________. a.protons, electrons b.protons, neutrons c.neutrons, electrons d.protons + electrons, neutrons e.none of the above

60. In a neutral atom the number of ________ is equal to the number of ________. a.protons, electrons b.protons, neutrons c.neutrons, electrons d.protons + electrons, neutrons e.none of the above

61. An atom with a mass number of 58 and with 32 neutrons will have ________ protons. a.16 b.26 c.32 d.58 e.90

62. An atom with a mass number of 58 and with 32 neutrons will have ________ protons. a.16 b.26 c.32 d.58 e.90

63. The symbol of the element with 23 protons is a.Mg b.Na c.V d.B e.None of the above.

64. The symbol of the element with 23 protons is a.Mg b.Na c.V d.B e.None of the above.

65. An atom with Z = 26 and A = 58 contains ________ protons, ________ electrons, and ________ neutrons. a.26; 26; 58 b.58; 26; 26 c.26; 26; 32 d.32; 26; 32 e.26; 32; 84

66. An atom with Z = 26 and A = 58 contains ________ protons, ________ electrons, and ________ neutrons. a.26; 26; 58 b.58; 26; 26 c.26; 26; 32 d.32; 26; 32 e.26; 32; 84

67. An atom containing 29 protons, 29 electrons, and 34 neutrons has a mass number of a.5 b.29 c.34 d.58 e.63

68. An atom containing 29 protons, 29 electrons, and 34 neutrons has a mass number of a.5 b.29 c.34 d.58 e.63

69. The value of Z for an atom containing 29 protons, 29 electrons, and 34 neutrons, is a.5 b.29 c.34 d.58 e.63

70. The value of Z for an atom containing 29 protons, 29 electrons, and 34 neutrons, is a.5 b.29 c.34 d.58 e.63

71. An atom containing 47 protons, 47 electrons, and 60 neutrons has a mass number of a.13. b.47. c.60. d.107. e.154.

72. An atom containing 47 protons, 47 electrons, and 60 neutrons has a mass number of a.13. b.47. c.60. d.107. e.154.

73. The atomic number of an atom containing 47 protons, 47 electrons, and 60 neutrons is a.13 b.47 c.60 d.107 e.154

74. The atomic number of an atom containing 47 protons, 47 electrons, and 60 neutrons is a.13 b.47 c.60 d.107 e.154

75. Figure 2.15: Two paper clips of the same kind but different sizes can be used as models for atomic isotopes. © 2003 John Wiley and Sons Publishers Courtesy Andy Washnik

76. Figure 2.14: The many varieties of paper clips reflect the varieties of elements and their atoms. © 2003 John Wiley and Sons Publishers Courtesy Andy Washnik

77. Figure 2.6: Weight depends on the size of the gravitational force. © 2003 John Wiley and Sons Publishers

78. The astronauts have mass but no weight. © 2003 John Wiley and Sons Publishers Courtesy NASA