Do Now Work silently. Raise hand to ask Ms. Hughes anything. 1. Which family is least reactive? 2. Which family is most metallic? 3. Where are the nonmetals on the periodic table? Announcements • Unit 4 test tomorrow • If you have not taken 3 chemistry tests yet this semester, see me after to arrange a make up • Retake GLEs for GRADE BOOST Mystery Element • Definitely NOT a Metalloid • 3rd Most Common Element in Earth’s Crust • Light weight / Good Conductor • Because it is a good conductor, it makes a great beverage can…but its resistance to corrosion means lots of space in land fills Valence Electrons Don’t forget! • Valence electrons are the electrons in the outermost energy level. Example • Electron configuration for silicon (Si): • What is the highest energy level? • So how many valence electrons? 2 2 6 2 2 1s 2s 2p 3s 3p 2 + 2 = 4! Valence Electrons Family/Group Alkali Metals Alkaline Earth Metals Boron’s Group Carbon’s Group Nitrogen’s Group Oxygen’s Group Halogens Noble Gases Number of Valence Electrons What is Atomic Size? • Atomic size is… –How big an atom is –Also known as atomic radius Graphing Atomic Size (Radii) • Draw 2 line graphs –X-axis: Element –Y-axis: Atomic Radius (picometers) Elements and their Atomic Radii (1) -12 1 picometer = 1 x 10 m Element Atomic Radius Hydrogen 37 Lithium 152 Sodium 186 Potassium 227 Rubidium 248 Cesium 265 Elements and their Atomic Radii (2) -12 1 picometer = 1 x 10 Element Lithium Beryllium Boron Carbon Nitrogen Oxygen Fluorine Neon m Atomic Radius 152 112 85 77 75 73 72 71 Atomic Size – Graph 1 Atomic Radius (picometer) 350 300 250 200 150 100 50 0 0 1 H 2 Li 3 Na 4 K Element 5 Rb 6 Cs 7 Atomic Size – Graph 2 Atomic Radius (picometer) 160 140 120 100 80 60 40 20 0 0 Li 2 Be B C4 6 N O Element F 8 Ne 10 What trend(s) do you notice? Atomic size DECREASES as you go across the Periodic Table Atomic size INCREAESES as you go down the Periodic Table Atomic Size Key Point #1: Atomic size increases as you go down the periodic table and to the left Practice Problems • Rank the following elements in order of increasing atomic size based on location on the periodic table (smallest to biggest) Fr, Sc, P, Pd P, Pd, Sc, Fr F, As, Tl, S Fluorine, Sulfur, Arsenic, Thallium Practice Time! 1. T or F? Atomic size decreases as you move right across the periodic table. 2. T or F? As you move down the Periodic Table, atoms get smaller. 3. Rank the following sets of elements in order of increasing atomic size (small big). Set A: Bh, Mn, Re, Tc Set B: Sb, I, Ag, Ru Set C: Y, Ti, Sg, Ta 4. Rank the following sets of elements in order of decreasing atomic size (big small). Set A: Cl, At, I, F, Br Set B: Te, Xe, Sn, In Set C: Rb, K, Sr, Ca How metallic? • How metallic an element is changes periodically too!! • Hard, shiny, solid, conducts electricity, malleable, ductile • Same pattern as atomic radii • Elements become more metallic as you move left and down on the periodic table What is electronegativity? • Electronegativity is… –The ability of an atom to attract electrons –How much an atom wants electrons –How easily an atom accepts electrons Graphing Electronegativity • Draw 2 line graphs –X-axis: Element –Y-axis: Electronegativity (Paulings) Elements and their Electronegativity (1) Element Electronegativity Hydrogen 2.20 Lithium 0.98 Sodium 0.93 Potassium 0.82 Rubidium 0.82 Cesium 0.79 Francium 0.70 Elements and their Electronegativity (2) Element Electronegativity Lithium 0.98 Beryllium 1.57 Boron 2.04 Carbon 2.55 Nitrogen 3.04 Oxygen 3.44 Fluorine 3.98 Electronegativity Graph 1 2.5 Electronegativity 2 1.5 1 0.5 0 0 1 2 3 4 Element 5 6 7 8 Electronegativity Graph 2 Electronegativity 4.5 4 3.5 3 2.5 2 1.5 1 0.5 0 0 2 4 Element 6 8 What trend(s) do you notice? Electronegativity Trends Electronegativity Key Point #2: Electronegativity increases as you go up the periodic table and to the right across the periodic table. Practice Problems • Rank the following elements in order of increasing electronegativity based on location on the periodic table (smallest to biggest) Mg, Sr, Be, Ra Cl, Si, Al, S, P Radon, Strontium, Magnesium, Beryllium Aluminum, Silicon, Phosphorus, Sulfur, Chlorine Practice Time! 1. T or F? Electronegativity decreases as you move left across the periodic table. 2. T or F? As you move down the Periodic Table, atoms get more electronegative. 3. Rank the following sets of elements in order of increasing electronegativity (small big). Set A: Bh, Mn, Re, Tc Set B: Sb, I, Ag, Ru Set C: Y, Ti, Sg, Ta 4. Rank the following sets of elements in order of decreasing electronegativity (big small). Set A: Cl, At, I, F, Br Set B: Te, Xe, Sn, In Set C: Rb, K, Sr, Ca How does atomic size related to electronegativity? Key Point #3: Atomic size is indirectly related to electronegativity. ATOMIC SIZE As electronegativity ELECTRONEGATIVITY increases, atomic size decreases! Why is this relationship true? • Atoms with HIGH ELECTRONEGATIVITIES hold their electrons very close! • Sooooo, the atomic size decreases High or low electronegativity? Large or small atomic size? Ionization Energy • The energy required to remove 1 electron from an atom What do you think is the relationship between ionization energy and electronegativity? What do you think is the relationship between ionization energy and electronegativity? • The more an atom wants an electron (electronegativity) the more energy it will take to remove that electron (ionization energy) • So same pattern!!! Ionization energy Key Point #3: Ionization energy increases as you go up the periodic table and to the right across the periodic table. Electron Affinity Very similar to other 2 How much an atom likes electrons Key Point #4: electron affinity increases as you go up the periodic table and to the right across the periodic table. Done early? • Start review sheet!!! Exit Slip 1. What are the 3 atomic trends we studied? 2. How does each increase across the periodic table • HW: – Unit 4 review sheet • Top Ten: how’d we do?