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The Development of a Modern Theory of the Atom Aristotle Democritus.

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Presentation on theme: "The Development of a Modern Theory of the Atom Aristotle Democritus."— Presentation transcript:

1

2 The Development of a Modern Theory of the Atom

3 Aristotle Democritus

4 Ancient Philosophy Aristotle 4 When: More than 2000 years ago 4 Where: Greece 4 What: Aristotle believed in 4 elements: Earth, Air, Fire, and Water.

5 The Development of a Modern Theory of the Atom Democritus (460-370 B.C) Matter is composed of small, indivisible particles called atomos.

6 Ancient Philosophy AND Politics 4 Aristotle rejected Democritus’ ideas – did not believe that empty space could exist 4 Aristotle more influential 4 Ideas not science 4 Aristotle’s ideas unchallenged for two thousand years!!!

7 John Dalton

8 The Development of a Modern Theory of the Atom Dalton (published 1803-1807) 1. All matter is composed of atoms, tiny, indivisible particles of an element that can not be created or destroyed. Dalton’s Atomic Theory

9 The Development of a Modern Theory of the Atom 2. Atoms of one element can NOT be converted into atoms of another element. In reactions, atoms of the original substances recombine to form different substances. Dalton’s Atomic Theory

10 The Development of a Modern Theory of the Atom 3. Atoms of an element are identical in mass and other properties and are different from atoms of any other element. Dalton’s Atomic Theory

11 The Development of a Modern Theory of the Atom 4. Compounds result from chemical combination of a specific ratio of atoms of different elements. Dalton’s Atomic Theory

12 The Development of a Modern Theory of the Atom The Cathode Ray Tube Negatively charged particles are present in all matter (later named electrons) Cathode Ray Tube Animation

13 The Cathode Ray Tube

14 J. J. Thompson

15 The Development of a Modern Theory of the Atom Thomson (published 1897) charge to mass ratio 1.76 x 10- 8 C/g

16  The electrons in an atom balance out the positive, making it neutral  This can be compared to plums surrounding the pudding in plum pudding

17 J.J. Thompson – 1897; England 4 Thompson credited with discovering electrons 4 Thompson knew atoms were neutral, but couldn’t find the positive particle.

18 Robert Millikan

19 The Development of a Modern Theory of the Atom Millikan (published 1909) – “Oil Drop Experiment” charge of electron = 1.60 x 10 -19 C mass of electron = 9.10 x 10 -28 g Millikan's Oil Drop Experiment

20 The Development of a Modern Theory of the Atom Millikan Oil Drop Experiment Determined charge and mass of electron

21 The Development of a Modern Theory of the Atom Rutherford (1871-1937)

22 The Development of a Modern Theory of the Atom Rutherford (published 1910) Rutherford’s Gold Foil Experiment

23 The Development of a Modern Theory of the Atom Rutherford (published 1910)

24 1911- Rutherford’s Atomic Theory 1. Discovery of proton 2. Most of atom is empty space 3. There is a dense nucleus in the middle of every atom with protons surrounded by negative electrons which orbit around the nucleus.

25 James Chadwick 4 Discovered neutron!!!

26 ATOM BASICS

27 Atomic Theory Atoms are building blocks of elements Similar atoms in each element Different from atoms of other elements Two or more different atoms bond in simple ratios to form compounds 26

28 Subatomic Particles ParticleSymbol Charge Relative Mass Electron e - 1- 0 Proton p + + 1 Neutron n0 1 27

29 Atomic Structure 4 Atoms are composed of 2 regions: Nucleus Electron Cloud

30 Atomic Structure –Nucleus: the center of the atom that contains the mass of the atom –Electron cloud: region that surrounds the nucleus that contains most of the space in the atom

31 30 Atomic Number 4 Number of protons in an atom 4 All atoms of an element have the same number of protons

32 31 Atomic Number -Periodic Table 11 Na Atomic Number Symbol

33 32 Atomic Number -Periodic Table 11 Na 11 Protons Sodium

34 33 Learning Check State the number of protons for atoms of each of the following: Nitrogen

35 34 Atomic Number -Periodic Table 7 N 7 Protons Nitrogen

36 35 Learning Check State the number of protons for atoms of each of the following: Sulfur

37 36 Atomic Number -Periodic Table 16 S 16 Protons Sulfur

38 37 Learning Check State the number of protons for atoms of each of the following: Barium

39 38 Atomic Number -Periodic Table 56 Ba 56 Protons Barium

40 39 Mass Number 4 Counts the number of protons and neutrons in an atom 4 Mass number= p + + n 0

41 40 Atomic Symbols Show the mass number and atomic number Give the symbol of the element

42 41 Atomic Symbols Na Mass number Atomic number 11 23

43 42 Learning Check Cl Mass number Atomic number 17 35 How many protons? What is the element? How many neutrons?

44 43 Learning Check Cl Mass number Atomic number 17 35 What is the element? Chlorine

45 44 Learning Check Cl Mass number Atomic number 17 35 How many protons? p = atomic # = 17

46 45 Learning Check Cl Mass number Atomic number 17 35 How many neutrons? n 0 = 35 (mass number– 17 (p + ) n 0 = 18

47 46 Number of Electrons An atom is neutral The net charge is zero Number of protons = Number of electrons Atomic number = Number of electrons

48 47 Learning Check O 8 16 n 0 = p + = e - = 8 8 8

49 48 Learning Check P 15 31 n 0 = p + = e - = 15 16 15

50 49 Learning Check Zn 30 65 n 0 = p + = e - = 30 35 30

51 50 Isotopes Atoms with the same number of protons, but different numbers of neutrons. Atoms of the same element (same atomic number) with different mass numbers

52 51 Isotopes Isotopes of chlorine 35 Cl 37 Cl 17 chlorine - 35 chlorine - 37

53 LecturePLUS Timberlake52 Learning Check 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 these carbon atoms. 12 C 13 C 14 C 6 6 6 #p _______ _______ _______ #n _______ _______ _______ #e _______ _______ _______

54 LecturePLUS Timberlake53 Solution 12 C 13 C 14 C 6 6 6 #p 6 6 6 #n 6 7 8 #e 6 6 6

55 54 Learning Check An atom of zinc has a mass number of 65. A.Number of protons in the zinc atom B.Number of neutrons in the zinc atom C. What is the mass number of a zinc isotope with 37 neutrons? Draw its atomic symbol.

56 55 Learning Check An atom of zinc has a mass number of 65. A.Number of protons in the zinc atom 30

57 56 Learning Check An atom of zinc has a mass number of 65. B.Number of neutrons in the zinc atom 35

58 57 Learning Check C. What is the mass number of a zinc isotope with 37 neutrons? Draw its atomic symbol. 67 Zn 30 67

59 58 Learning Check Write the atomic symbols for atoms with the following: A. 8 p +, 8 n, 8 e - ___________ B.17p +, 20n, 17e - ___________ C. 47p +, 60 n, 47 e - ___________

60 59 Solution 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

61 60 Atomic Mass on the Periodic Table 11 Na 22.99 Atomic Number Symbol Atomic Mass

62 61 Atomic Mass 4 Atomic mass is the weighted average mass of all the atomic masses of the isotopes of that atom.

63 BEAN BAGIUM

64 ION 4 Ion – charged particle that forms when an atom gains or loses one or more electrons

65 ION 4 Cation – positively charged particle when an atom loses electrons protons(+) > electrons(-1)

66 CATION Ca +2 protons(+) = 20 electrons(-) = 18

67 ION 4 Anion – negatively charged particle when an atom gains electrons electrons(-) > protons(+)

68 CATION N -3 protons(+) = 7 electrons(-) = 10


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