UNIT 3: The Periodic Table

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UNIT 3: The Periodic Table Aristotle circa 300 BC Antoine Lavoisier 1770 1789 Jöns Jakob Berzelius 1828 Johann Döbereiner 1829 John Newlands 1864 Lothar Meyer 1869 Dmitri Mendeleev 1869 William Ramsay 1894 Henry Moseley 1913 1914 Glenn Seaborg 1940 Periodicity: Periodic Law: Unit 3 Periodic Trends P a g e 1

MODERN PERIODIC TABLE The modern table maintains Moseley s arrangement and clearly shows periodicity. It consists of boxes for elements arranged in order of increasing atomic number. Each box contains the element s and,, and. The element boxes ( as of March 2010) are arranged in rows called and columns called or. Total of seven (7) periods, numbered through Correspond to the Referred to as in an atom determines period placement Two numbering systems (left to right) are in effect for the : 1. Numbered through followed by the letter or. Groups designated with the letter A are known as elements. They display a. Groups designated with the letter B are. 2. Numbered through. THE S-, P-, D-, AND F-BLOCKS The periodic table is divided into four blocks representing the Unit 3 Periodic Trends P a g e 2

CLASSIFICATION OF ELEMENTS Characteristics Metals Nonmetals Metalloids Exception: Exception: Location on PT of the stair step line Most elements Exception: All elements Transition metals in Inner transition metals: of the stair step line the stair step line Exception: Unit 3 Periodic Trends P a g e 3

GROUPS OF ELEMENTS Group Group Name Group Properties Hydrogen Valence e Oxidation Number Block e- Conf End 1 or 1A 2 or 2A 13 or 3A 14 or 4A 15 or 5A 16 or 6A 17 or 7A 18 or 8A 3 12 or B Groups Transition Metals Inner Transition Metals Unit 3 Periodic Trends P a g e 4

! CP/Honors Chemistry Valence electrons: electrons in an atom s that determine the of an element Atoms in the have similar properties because they have is indicated by the period in which element is found For representative elements, the A group number indicates the Element 1. Hydrogen 2. Nitrogen 3. Magnesium 4. Silicon 5. Sulfur 6. Krypton # Valence Electrons Energy Level of Valence Electrons Configuration of Valence Electrons Ions Neutral atoms have no overall electrical charge because Noble gases have stable configurations because o Exception: Atoms gain or lose electrons to by Such an atom is no longer neutral but o Metals: o Nonmetals: Unit 3 Periodic Trends P a g e 5

!Write the electron configuration for a neutral potassium atom. Circle valence e -.!Write the electron configuration for a potassium ion. OCTET RULE!Write the electron configuration for a neutral argon atom.! Oxidation number (or state):. It equals the. Predicted by Positive when ; negative when Written Noble gases have oxidation number of ; Elements in the carbon group have Element Name 1. Hydrogen 2. Magnesium 3. Oxygen 4. Aluminum 5. Nitrogen 6. Sodium 7. Sulfur 8. Calcium 9. Chlorine 10. Bromine Element Symbol Oxidation Number Symbol for Ion Noble Gas Configuration Unit 3 Periodic Trends P a g e 6

! Practice 1. Elements #110 through #118 are the most recently discovered elementsfor these elements, complete the table below. Atomic # Element Name Element Symbol Discovered in Group # ve Most closely resembles 110 Darmstadtium Ds 1994 111 Roentgenium Rg 1994 112 Copernicium Cn 1996 113 Ununtrium Uut 2003 114 Flerovium Fl 1998 115 Ununpentium Uup 2004 116 Livermorium Lv 2000 117 Ununseptium Uus 2009 118 Ununoctium Uuo 2002 2. Explain the term representative elements. What is the primary difference between the representative elements and the transition elements? 3. The numbers and locations of valence electrons determine the of elements. 4. Oxygen is a gas. Sulfur is a solid. What is it about their electron structures that cause them to be grouped in the same chemical family? 5. Identify the element fitting each of the following descriptions: a. The metalloid in group 3A: b. The halogen in period 5: c. The alkali metal in period 4: d. The nonmetal that is a liquid at room temperature: 6. Why about zinc, cadmium, and mercury cause them to be in the same chemical family? Unit 3 Periodic Trends P a g e 7

PERIODIC TRENDS: ATOMIC RADIUS Atomic radius: Trends within periods (L to R) Why? Trends within groups (bottom to top) Why? Atoms with largest atomic radii:! Practice 1. Which has the largest atomic radius: lithium (Li), beryllium (Be), nitrogen (N), or neon (Ne)? The smallest? 2. Which has the largest atomic radius: sodium (Na), potassium (K), rubidium (Rb) or cesium (Cs)? The smallest? 3. Circle the element in each pair with the largest atomic radius. Na or K Na or Mg O or F Br or I Ti or Zr 4. Rank the following elements from smallest to largest atomic radius: Na, Mg, Cl, K, Rb. 5. Which has the largest atomic radius: potassium (K) or magnesium (Mg)? 6. Which has the smallest atomic radius: aluminum (Al) or barium (Ba)? Unit 3 Periodic Trends P a g e 8

PERIODIC TRENDS: IONIC RADIUS Ionic radius: When atoms form cations, they become. Why? Trends within periods (L to R) When atoms form anions, they become. Why? Trends within groups (bottom to top)! Practice Underline the one in each pair with the larger radius. 1. a calcium atom or a calcium ion 2. a chlorine atom or a chloride ion 3. a magnesium ion or an aluminum ion 4. a sodium atom or a silicon atom 5. a potassium ion or a bromide ion 6. a potassium atom or a potassium ion 7. a sodium ion or a chloride ion 8. a strontium atom or an iodine atom 9. a rubidium ion or a strontium ion Unit 3 Periodic Trends P a g e 9

PERIODIC TRENDS: IONIZATION ENERGY (IE) Ionization energy: First ionization energy: Second ionization energy: Third ionization energy: Trends within periods (L to R), etc. Trends within groups (bottom to top) Why? Why?! Practice 1. Does sodium (Na) or potassium (K) have a higher first ionization energy? 2. Does magnesium (Mg) or argon (Ar) have a higher first ionization energy? 3. Explain why much more ionization energy is required to remove the first electron from neon than from sodium. 4. Why does barium (Ba) have a lower ionization energy than beryllium (Be)? Unit 3 Periodic Trends P a g e 10

PERIODIC TRENDS: ELECTRONEGATIVITY Electronegativity: Differences in electronegativity determine Electronegativity of is not usually included Trends within periods (L to R) Trends within groups (bottom to top)!!shade the box of the element with the highest electronegativity.!outline the box of the element with the lowest electronegativity. Practice 1. Does magnesium or aluminum have a higher electronegativity value? 2. Does nitrogen or phosphorous have a higher electronegativity value? 3. Does calcium (Ca) or bromine (Br) have a higher electronegativity value? 4. Does sodium (Na) or potassium (K) have a higher electronegativity value? 5. Which atom is more electronegative: hydrogen (H) or oxygen (O)? 6. Which atom is more electronegative: carbon (C) or chlorine (Cl)? 7. Which atom is more electronegative: magnesium (Mg) or oxygen (O)? 8. Which atom is more electronegative: sodium (Na) or chlorine (Cl)? Unit 3 Periodic Trends P a g e 11

PERIODIC TRENDS: REACTIVITY Reactivity: related to several factors, including Metals: more reactive if have Nonmetals: more reactive if have Trends within periods (L to R) Metals: Nonmetals: Trends within groups (bottom to top) Metals: Nonmetals:!Shade the element box of the most reactive metal:!outline the box of the most reactive nonmetal:! Practice 1. Which metal is more reactive: sodium (Na) or rubidium (Rb)? 2. Which nonmetal is more reactive: oxygen (O) or sulfur (S)? 3. Which element is more reactive: magnesium (Mg) or aluminum (Al)? 4. Which element is more reactive: phosphorous (P) or chlorine (Cl)? Unit 3 Periodic Trends P a g e 12

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