Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Periodic Table PERIODIC LAW PERIODS AND GROUPS IONIZATION ENERGY ELECTRONEGATIVITY ATOMIC RADIUS Periodic Law “When elements are arranged in order of increasing atomic mass, periodic, or repeating, trends occur.” In 1869, Mendeleev arranged the elements in order of mass he and his students studied according to trends such as conductivity, ductility, malleability, etc. Now the table is in atomic number order! One Such Trend Metals Non-metals On the left side of the On the right side of the periodic table Great conductors of electricity and heat Ductile Malleable Lusterous Solids (except Hg) Lose e- when bonding periodic table Not conductors of electricity and heat Brittle Dull Mostly gases (Br is a liquid) Tend to gain e- when bonding Metalloids Metalloids have properties of both metals and nonmetals such as poor conductors, may be shiny, etc. Metalloids are in the middle of the periodic table and only include elements in which a whole side touched the staircase. Periods Periods represent horizontal rows on the periodic table and are numbered 1-7. These numbers can also represent the number of energy levels. Groups Groups represent vertical columns on the table and are numbered 1-18 (different on some other tables). Elements in the same group have the same number of valence electrons and similar properties. Let’s examine some groups… Alkali Metals: Group 1 Very reactive (not found in elemental form) One valence e-: 1+ charge soft Metallic character increases down the group mp and bp decreases down the group but all very high Strong exothermic reaction with water Alkaline Earth Metals: Group 2 Reactive (not as much as alkali metals) Two valence e 2+ charge High mp and bp Transition Metals Groups 3-12 Form colored compounds and solutions Various charges Colloidal Silver’s effects on people Halogens: Group 17 Form diatomic molecules Mostly 1- charge, though others possible 7 valence e Very reactive Low mp and bp Noble Gases: Group 18 Also known as “inert gases” because they do not react Zero charge 8 valence eMonatomic Non metallic character decreases down the group Periodic Table Families Quiz 1. Match the group number with the group name: A. Group 1 1. Alkaline Earth Metals B. Group 2 2. Alkali Metals C. Group 17 3. Noble Gases D. Group 18 4. Transition Metals E. Groups 3-12 5. Halogens Periodic Table Families Quiz 2. Name the group with the following properties: a. The most reactive metals b. The most reactive non metals c. Monatomic gases d. Create colored compounds and solutions e. Have two valence and a +2 charge. Octet Rule Atoms will gain or lose electrons in order to form a stable noble gas configuration with 8 electrons in the valence shell Hydrogen, Lithium, Beryllium and boron have 2 valence electrons like helium Metals will lose valence, nonmetals will gain. Atomic Radius The size of the atom in the ground state. Across a period, the radius decreases because more protons pull on electrons. Down a group, the radius increases due to more energy levels. Example: Predict the trend in radius for Be, Mg, Ca and Sr. Then predict the trend for N, O, F and Ne. Atomic radius trends Ionic Radius increases When atoms gain electrons, the size ___________. decreases When the atom loses electrons, the size ________. Explain why these rules make sense. Review of Bohr diagrams: Draw the Bohr diagrams of the following atoms: Sodium Argon Potassium Fluorine Ionization Energy The energy needed to remove an electron from the valence shell of a gaseous atom or ion in the ground state. Across a period, IE increases because electrons are more tightly bound to the nucleus (more p+ in the nucleus). Down a group, IE decreases because electrons are farther from the nucleus and not held as tight. Values are found on Table S. Ionization Energy Table S Which element has the highest IE? Which element has the lowest IE? What do you think the second and third IE means? Electronegativity Ability of an atom to attract electrons. Across a period, electronegativity increases due to stronger nucleus (number of protons). Down a group, electronegativity decreases due to more principle energy levels, electrons are far from the nucleus and can’t be attracted as well. These values range from 0-4 and are not energy values. Notice the trend and explanations are similar to IE. Electronegativity Table S Which element has the highest e-negativity? Which element has the lowest e-negativity? Do noble gases have e-negativity values? Why? Review 1. Which is larger? a. Na or Li b. Sr or Mg c. Ce or Ge d. O or S e. f. g. e. Na I S Al or or or or Na+ IS-2 Al+3 2. Which has a higher e-negativity? a. Cl or F c. Mg or Ne b. C or N d. As or Ca 3. Which has a greater attraction for electrons? a. Ca or O b. O or F More Review 1. Which has a higher IE? a. Li or B b. Mg or Sr 2. Why is the second IE always higher than the first? 3. What happens to the radius of an atom that gains an electron? What are these ions called?