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Periodic Table Chapter 6
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Periodic Table Many different versions of the Periodic Table exist
All try to arrange the known elements into an organized table
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Alternate Periodic Tables
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Alternate Periodic Tables
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Alternate Periodic Tables
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Alternate Periodic Tables
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Alternate Periodic Tables
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Alternate Periodic Tables
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Alternate Periodic Tables
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Elements known since Ancient times
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Elements Discovered in 1600’s
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Elements Discovered in 1700’s
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Elements Discovered
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Elements Discovered
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Elements Discovered
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Elements Discovered
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Elements Discovered
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Elements Discovered
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Elements Discovered since1999
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History Russian chemist and teacher, Dmitri Mendeleev proposed a table for organizing elements Mendeleev arranged the elements in a table based on increasing atomic mass.
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History Mendeleev placed elements next to each other with similar chemical properties He would leave elements out of order based on atomic mass if they lined up better based on chemical properties
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History Mendeleev left spaces for elements not yet discovered
He predicted properties of elements that would fit in those spots He predicted very closely the properties of Ge, Ga, Sc, and 5 others
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History British physicist, Henry Moseley, determined the atomic numbers for the elements The modern periodic table is arranged in order of increasing atomic number.
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Periodic Table
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Arrangement Rows are called Periods Columns are called Groups
Numbered 1-7 Columns are called Groups Numbered 1-18 Elements in the same group have similar properties
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Group Names Group 1 - Alkali Metals Group 2 - Alkaline earth metals
Group 17 - Halogens Group 18 - Inert or Noble gases.
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Group Names Groups 3-11 – Transition Metals
Bottom 2 rows – Inner Transition
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Phases at STP Most elements are solids at STP
Hg and Br are liquids at STP H, N, O, F, Cl and Noble Gases are all gases at STP
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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.
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Valence Electrons Electrons in outermost occupied energy level
Valence Electrons are responsible for most chemical properties Elements in the same group have similar properties because they have the same number of valence electrons
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Classifying Elements Elements are classified into 3 groups based on their properties: Metals – Left and Middle Nonmetals – Right Metalloids - Staircase
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Metals Good conductors of heat and electrical current
High luster or sheen, shiny Many are ductile, meaning they can be drawn into wires Most are malleable, meaning they can be hammered into thin sheets
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Metals Metallic Character increases as you move towards the lower left
Most Metallic Element is Francium, Fr
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Nonmetals Most are gases at room temperature, some are solids, and one is liquid Most are poor conductors Most solids are brittle
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Nonmetals Non-Metallic Character increases as you move towards upper right Most nonmetallic element is Fluorine, F
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Metalloids B, Si, Ge, As, Sb, Te
Have properties of both metals and nonmetals, based on conditions Exceptions: Al and Po are metals At is a nonmetal
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Diatomics Eight elements are diatomic molecules when alone in nature (exist as two atoms bonded together) H2, N2, O2, F2, Cl2, Br2, I2, At2
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Diatomics Hydrogen and the Magic 7
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Group Characteristics
Alkali Metals (Group 1) H, Li, Na, K, Rb, Cs, Fr All have 1 valence electron, tend to form +1 ions Most reactive metals Not found in nature by themselves, always combined with someone else
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Group Characteristics (cont)
Alkaline Earth Metals (Group 2) Be, Mg, Ca, Sr, Ba, Ra All have 2 valence electrons, tend to form +2 ions Highly reactive, but not as much as alkali metals Not found by themselves in nature
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Group Characteristics (cont)
Halogens (Group 17) F, Cl, Br, I, At All have 7 valence electrons, tend to form -1 ions Most active nonmetals Have low melting and boiling points Combine readily with metals to form salts
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Group Characteristics (cont)
Noble Gases (Group 18) He, Ne, Ar, Kr, Xe, Rn Colorless gases that are extremely non-reactive Full valence shell, non-reactive All are found in small amounts in our atmosphere
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Group Characteristics (cont)
Transition Metals (Groups 3-11) Most are excellent heat and electrical conductors Less active than group 1 and 2 metals Many combine with Oxygen to form oxides (Chemical property) Many have more than one oxidation number Form compounds that are colorful
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Coloring Color in the specific groups with your own color choices
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Coloring Color in the different classifications with your own color choices Metals, Nonmetals, Metalloids
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Periodic Trends How a property changes either across a period or down a group Atomic Number Atomic Mass Atomic Radius Ionic Radius Ionization Energy Electronegativity
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Trends Atomic number increases across a period.
Increasing number of protons Atomic number increases down a group
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Trends Atomic mass generally increases across a period.
Increasing protons, neutrons, and electrons. Atomic mass increases down a group.
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Radius Atomic Radius – measure of the size of the atom
Half the distance between two nuclei Ionic Radius – measure of the size of an ion
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Trends Atomic Radius decreases across a period
More protons to pull on the electrons Atomic Radius increases down a group Increasing electrons into more energy levels (more shells)
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Ions Atom, or group of atoms, that has gained or lost electrons
Cation – positive ion Anion – negative ion
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Ions When an atom loses an electron, it becomes positively charged
The radius becomes smaller Metals tend to lose electrons
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Ions When an atom gains an electron, it becomes negatively charged
The radius becomes larger Nonmetals tend to gain electrons
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Ionization Energy (IE)
Amount of energy required to remove an electron from an atom Ca Ca+ + e kJ/mol First ionization energy is removing the first electron Second Ionization energy is removing the second electron after having the first removed Ca+ Ca2+ + e kJ/mol
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IE Trends Ionization energy tends to increase across a period
More protons are able to hold on tighter to electrons Ionization energy tends to decrease down a group Electrons are farther away from the protons (more shells)
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Electronegativity (EN)
Ability of an atom to attract an electron from another atom when in a compound. Noble gases are usually omitted since they don’t form compounds Fluorine, F, is the most electronegative element with a value of 4.0 Francium, Fr, is the least electronegative element with a value of 0.7
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EN Trends Electronegativity tends to increase across a period
More protons are able to attract electrons better Electronegativity tends to decrease down a group Electrons are farther away from the protons (more shells)
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Trends Summary Property Period (LR) Group (TB) Atomic Number
Atomic Mass Atomic Radius Ionization Energy Electronegativity
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Reactivity Elements that are more reactive tend to either gain or lose electrons very easily Elements that lose electrons easily have low IE and low EN Lower left, Fr Elements that gain electrons easily have high IE and high EN Upper right, F
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