1. The Atom and Periodic Table Physical Science

2. Element verse Atom ELEMENT – A substance that cannot be broken down into simpler substances – Ex: Neon, Gold, Helium ATOM – Smallest particle of an element – Counting unit of elements

3. History of the Atomic Model Democritus --believed in the atom John Dalton --made the theory on atoms J.J. Thomson --found the electron Ernest Rutherford --found the nucleus

4. History of the Atomic Model Neil Bohr --established energy levels Electron Cloud Model --the current model of the atom

5. 3 Subatomic Particles Atoms can be broken into: Protons – Positively charged – Symbol = p + – Mass = 1 Electrons – Negatively charged – Symbol = e - – Extremely small mass Neutrons – No charged (neutral) – Symbol = n – Mass = 1

6. Parts of an Atom Nucleus – Center of the atom – Small, dense, positively charged – Where Protons and Neutrons remain Energy Levels/Shells/Orbitals – Around the nucleus – Contains the electrons

7. Atomic Number Identifies of the element Number of Protons Top of the Element Block SECRET: Also the number of electrons

8. Mass Number The sum of the Protons and Neutrons Bottom Number of the element block Round to the Nearest Whole Number

9. Understanding an Element Block ATOMIC NUMBER Element Symbol 1 st letter is upper case 2 nd letter is lower case Element Name Mass NUMBER

10. How do you Find Items Number of Protons = Atomic Number Number of Electrons = Number of Protons – (Because Atoms are neutral which means positive equals negative) Number of Neutrons = Mass Number subtract Atomic Number

11. Electron, Protons, Neutrons Example Practice Name SymbolAtomic Number Mass Number Number of Protons Number of Electrons Number of Neutrons NEON BORON

13. ISOTOPES Atoms of the same element that have the same atomic number but different mass numbers # of protons stays the same # of neutrons change

14. How Isotopes are Written Elements name/symbol dash mass number Ex: – Oxygen—16 p + = n = – Oxygen—17 p + = n = – O—18 p + = n =

15. Why is Mass Number a Decimal? Mass Number is the weighted average of all the isotopes of an atom The isotope whom mass number is closest to the actual mass number is more abundant

16. IONS Charged Particles – Negative Charge = gains electrons – Positive Charge = lose electrons

18. The Periodic Table An arrangement of elements in columns based on properties that repeat from row to row Modern Periodic Table arranged by Henry Moseley – Arranged by increasing atomic number

19. Parts of the Periodic Table ROWS – Called Periods – Go across COLUMNS – Called Groups – Go up and down

20. Periods 7 periods Elements in the same period have: – Same number of energy levels or shells or orbitals

21. Groups 18 groups Elements in the same group have the same: – Properties – Valence Electrons – Oxidation Numbers

22. Valence Electrons Number of electrons on the outermost (last) energy level Code: – 1, 2, 3, 4, 5, 6, 7, 8 Number next to “A” at the top of the column

23. Know Your Roman Numerals I = 1 II = 2 III = 3 IV = 4 V = 5 VI = 6 VII = 7 VIII = 8

24. Oxidation Number Number of electrons an atom will gain or lose to become stable Stable = 8 electrons on last shell Code: – +1, +2, +3, ±4, -3, -2, -1, 0 “+” means lose electrons “—” means gain electrons

25. Labeling the Periodic Table

27. Bohr’s Model Focuses On Electrons Places electrons into energy levels Developed by Neil Bohr

28. Components of Bohr’s Model Circles Number of Circles = Period Number = Number of Energy Level DOTS Go on the Last Circle Number of Dots = Number of Valence Electrons Important Note – First energy level has a max of 2 electrons – All other energy levels have a max of 8 electrons

29. Steps to Draw Bohr’s Model 1.Place a dot to be Nucleus 2.Place circles around Nucleus 3.Place dots on last circle in correct order EXAMPLE Oxygen

30. Bohr Model Practice NEON BoronHelium

31. Electron Dot Diagrams Model of an atom in which each dot represents the valence electrons AKA: Lewis Dot Diagrams

32. Steps to Draw Dot Diagrams 1.Identify the number of valence electrons 2.Write the element’s symbol 3.Place dots around the symbol equal to valence electrons in correct order Example NEON

33. Dot Diagram Practice Fluorine SodiumCarbon

35. Classifying Elements Elements are classified as metals, nonmetals, or metalloids based on properties and location on the periodic table

36. Metals Most elements are them Good Conductors of electricity/heat Solid at room temperature (except Mercury) Ductile: turn into thin wire Luster: reflect light Malleable: hammer into sheets High Melting Point Left side of the stair step Francium: Most reactive metal High Boiling Point

37. Nonmetals Dull Brittle Poor Conductors of electricity/heat Most are gas at room temperature Low Melting Point Low Boiling Point Right Side of Stair Step Fluorine: most reactive nonmetal

38. Metalloids Have BOTH characteristics of metals and nonmetals Found on the stair-step line What are the Metalloids – B, Si, Ge, As, Sb, Te, Po, At

39. Periodic Trend Reactivity – As you go left to right across a period, the less reactive elements become – Going down a group, the more reactive the element becomes

41. Outlining the Metals, Nonmetals, and Metalloids

42. THE FAMILIES AND GROUPS OF THE PERIODIC TABLE

43. Alkali Metals Group IA 1 valence electron Reactivity increases from top to bottom Francium is most reactive metal

44. Color the Alkali Metals

45. Alkaline Earth Metals Group IIA 2 valence electrons Ca: is in your bones, teeth, shells

46. Color the Alkaline Earth Metals

47. Transitional Metals THE MIDDLE OF THE PERIODIC TABLE Groups 3B-12B Vary in oxidation numbers Brightly colored Likes to combine with Oxygen

48. Color the Transitional Metals

49. BORON FAMILY Group IIIA 3 valence electrons Al: most abundant metal in Earth’s crust

50. Color the Boron Family

51. Carbon Family Group IVA 4 valence electrons Carbon is the element of life

52. Color the Carbon Family

53. Nitrogen Family Group VA 5 valence electrons N is 78% of air Main component of fertilizer

54. Color the Nitrogen Family

55. Oxygen Family Group VIA 6 valence electrons O: most abundant element in Earth’s crust

56. Color the Oxygen Family

57. The Halogens Group VIIA 7 valence electrons Salt formers Reactive with metals Fluorine: most reactive nonmetal

58. Color the Halogen Family

59. Noble Gases Group VIIIA 8 valence electrons Stable = not reactive Inert Gases All Shells are full

60. Color the Noble Gases