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Why is the Periodic Table Important? 1s22s22p63s23p64s23d6 26 Fe IRON 55.85 Atomic Number – # of protons – # of electrons Element Symbol Atomic Mass – Weighted average of isotopes – Molar mass in g/mol These Three Elements are Chemically Similar 6.1 What do they have in common? • They appear very different. • Chlorine is a toxic, poisonous gas that was used during the trench warfare phase of World War I (mustard gas!) • Bromine is a dark red liquid. • Iodine is a dark solid with an almost metallic luster. Handouts • PT Familiarity • Periodic Table Coloring Metals, Non-Metals and Metalloids Metals Conduct Heat well! What happens? Metals Conduct Electricity Well. What happens? 14 Properties of Metals • Good Conductors of – Heat – Electricity • Malleable – Can be pounded into thin sheets (aluminum foil) • Ductile – Can be stretched into thin wire (copper wire) • High Melting Points Properties of Non-Metals • Poor conductors of heat • Poor conductors of electricity • Mostly gases at room temperature Explain this picture! Noble Gases • Column 18 or 8a • Inert and non-reactive gases. • Full valence electron shell. • They tend to not lose or gain electrons. 6.2 Electron Configurations in Groups The Noble Gases The noble gases are the elements in Group 8A of the periodic table. The electron configurations for the first four noble gases in Group 8A are listed below. Two Odd Elements Bromine (liquid non-metal) Mercury (liquid metal) A coin floating on Mercury. Why? Halogens • Column 17 or 7a • Highly reactive. • Halogens are “salts”. • These elements combine with Column 1A and 2A elements to create salts. • Will gain a single electron. http://www.youtube.com/watch?v=U0CGsw6h60k Move over Lady Gaga Rihanna is here…. Alkali Metals • Shiny, soft, highly Reactive Metals! • Will lose their single valence electron. • Catch fire and may explode in water. 6.2 Electron Configurations in Groups ALKALI Metals: In atoms of the Group 1A elements below, there is only one electron in the highest occupied energy level. Alkaline Earth Metals • Column 2A • Shiny, silvery-white, somewhat reactive Metals • Give off beautiful colors • Combine with the halogens to form metallic salts. Columns 1A and 2A elements make pretty colors…. Metalloids • Elements that have the properties of both metals and non-metals. • Semi-Conductors: 6.1 • If a small amount of boron is mixed with silicon, the mixture is a good conductor of electric current. Silicon can be cut into wafers, and used to make computer chips. Transition Metals • Groups 3-12 on the periodic table. • Defined by an incomplete d sub-shell. Other Metals • Valence electrons reside in the p sub-shells. • Differ from transition metals in terms of oxidation number. Periodicity and Periodic Law 6.1 An Early Version of Mendeleev’s Periodic Table Arranged in Order of Increasing Atomic Mass 6.1 The Periodic Law Periodic Law: When elements are arranged in order of increasing atomic number, there is a periodic repetition of their physical and chemical properties. •Atomic Size: Decreases •1st ionization Energy: Decreases •Nuclear Charge: Increases •Electron Shielding: Remains Constant •Metals: Reactivity Decreases •Non-Metals: Reactivity Increases •Electronegativity Increases •Cation size: decreases, Anion size: Increases 1 •Atomic Size Increases •1st ionization Energy Increases •Nuclear Charge Increases •Electron Shielding: Increases •Metals: Reactivity Increases •Non-Metals: Reactivity Decreases •Electronegativity: Decreases •Ionic Size: Generally Increases VALENCE ELECTRONS 8 34 56 7 2 •Atomic Size Decreases •1st ionization Energy Decreases •Nuclear Charge Increases •Electron Shielding Remains Constant •Metals: Reactivity Decreases •Non-Metals: Reactivity Increases •Electronegativity Increases •Cation size decreases, Anion size Increases 1 •Atomic Size Increases •1st ionization Energy Increases •Nuclear Charge Increases •Electron Shielding Increases •Metals: Reactivity Increases •Non-Metals: Reactivity Decreases •Electronegativity Decreases •Ionic Size Generally Increases 8 2 VALENCE ELECTRONS 3 4 5 6 7 Coulomb’s Law EFFECTIVE NUCLEAR CHARGE The nucleus itself has a +9 charge and anything in its vicinity will feel that charge. The two electrons in the first energy level as they look at the nucleus feel a +9 charge because that is the charge on the nucleus. But the electrons that are in the valence energy level would be shielded from the nucleus by the 2 shielding electrons. The +9 nuclear charge is shielded by 2 electrons to give an effective nuclear charge of +7 that is felt by the valence electrons. If you get out beyond the valence electrons, then the effective charge is 0 simply because the +9 charge of the nucleus is surrounded by 9 electrons. • Fluorine Atom Nuclear Charge F Shielding Electrons Valence Electrons 1s2 2s22p5 +9 2 Effective Nuclear Charge +7 What charge is felt by the electrons in the first level of a neon atom? What charge is felt by the electrons in the second level (valence level) of a neon atom? What charge is felt by the electrons in the first level of a sodium atom? What charge is felt by the electrons in the second level of a sodium atom? What charge is felt by the electrons in the third (valence) level of a sodium atom? What charge is felt by the electrons in the first level of a neon atom? 10 What charge is felt by the electrons in the second (valence) level of a neon atom? 8 What charge is felt by the electrons in the first level of a sodium atom? 11 What charge is felt by the electrons in the second level of a sodium atom? 9 What charge is felt by the electrons in the third (valence) level of a sodium atom? 1 Trends in Nuclear Charge and Electron Affinity: Blank Periodic Table AufbauBoxes Put Students into Groups and have them write electron configuration for the first 3 elements each Group in the PT Students write them on the board and sharre the data and identify the trends…. 6.3 Trends in Atomic Size Trends in Atomic Size What are the trends among the elements for atomic size? 6.3 Trends in Atomic Size The atomic radius is one half of the distance between the nuclei of two atoms of the same element when the atoms are joined. 6.3 Trends in Atomic Size Group and Periodic Trends in Atomic Size – In general, atomic size increases from top to bottom within a group and decreases from left to right across a period. 6.3 Trends in Atomic Size 6.3 Trends in Atomic Size 6.3 Ions •Positive and negative ions form when electrons are transferred between atoms. 6.3 Ions • Some compounds are composed of particles called ions. An ion is an atom or group of atoms that has a positive or negative charge. A cation is an ion with a positive charge. An anion is an ion with a negative charge. Ionization Energy • The energy required to remove an electron from an atom is called ionization energy. The energy required to remove the first electron from an atom is called the first ionization energy. The energy required to remove an electron from an ion with a 1+ charge is called the second ionization energy. 6.3 Trends in Ionization Energy Group and Periodic Trends in Ionization Energy • First ionization energy tends to decrease from top to bottom within a group and increase from left to right across a period. 6.3 Trends in Ionization Energy 6.3 Trends in Ionization Energy 6.3 Trends in Ionization Energy 6.3 Trends in Ionic Size Trends in Ionic Size • During reactions between metals and nonmetals, metal atoms tend to lose electrons, and nonmetal atoms tend to gain electrons. The transfer has a predictable effect on the size of the ions that form. 6.3 Trends in Ionic Size • Cations are always smaller than the atoms from which they form. Anions are always larger than the atoms from which they form. 6.3 Trends in Ionic Size • Relative Sizes of Some Atoms and Ions Size generally increases 6.3 Trends in Ionic Size 6.3 Trends in Electronegativity Trends in Electronegativity • Electronegativity is the ability of an atom of an element to attract electrons when the atom is in a compound. In general, electronegativity values decrease from top to bottom within a group. For representative elements, the values tend to increase from left to right across a period. 6.3 Trends in Electronegativity Representative Elements in Groups 1A through 7A