the periodic table chapter 6. a quest for accurate reproduction j.w. dobereiner – published his...
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![Page 1: The Periodic Table Chapter 6. A quest for accurate reproduction J.W. Dobereiner – published his triad classification system (ex. Cl,Br,I similar chemical](https://reader035.vdocuments.net/reader035/viewer/2022070413/5697bf931a28abf838c8fdd9/html5/thumbnails/1.jpg)
The Periodic Table
Chapter 6
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A quest for accurate reproduction• J.W. Dobereiner – published his triad
classification system (ex. Cl,Br,I similar chemical properties)
• 1860– Scientists agreed upon a method to measure
mass– Are masses related to elemental properties?
• John Newlands– Noticed every 8th element had similar
properties– Law of octaves
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The Law of Octaves
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Dimitri Mendeleev - 1869
• Organized the periodic table based on increasing atomic mass
• Predicted the properties of unknown elements– Sc, Ge, Ga
P. 181 - Q 24, 25
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Henry Moseley
• Arranged elements based on the number of protons
• Determined periodic law– Groups have similar properties– Properties change as you move across a
period– Pattern repeats one period to the next
P.181 - Q – 26, 27
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Terminology• Groups (Families) – (IUPAC labels 1-18)• Periods• Representative elements(1A – 8A)
– Wide array of chemical and physical properties
– Group number indicates number of valance electrons
• Transition elements• Metalloids• Metal• Non metals
P. 181 - Q - 31
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Metals
• Shiny, smooth• Good electrical and heat conductors• Malleable, ductile• Solid at room temp• Reactive Alkali’s and Alkaline’s (s block)
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Transition Metals
• D and F (Inner transitional metals) block• Lanthanides and Actinides
P. 181 - Q 33, 34, 35 – P. 182 – 48, 49, 53, 54
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Non-Metals
• Most of p block• gases or brittle solids (Br)• Little luster• Poor conductors• Halogens very reactive• Noble Gases (Inert Gases) - extremely
unreactive due to filled s and p sublevels
P. 181 – 28, 32
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Metalloids
• Share properties of metals and non-metals• Heavy step line – B, Si, Ge, As, Sb, Te,
Po, At• Found in p block
P. 181 - 29
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Atomic RadiusMetals - Half the distance between
adjacent nuclei in a crystal of an element.
Non Metals - Half the distance between
bonded atoms of the same element (diatomic
molecule).
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Atomic Radius – Family Trends
Increases
Atomic charge and occupied energy levels increase.
Occupied orbitals shield electrons in
the outer most energy level from
the pull of the nucleus.
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Atomic Radius – Period Trends
decreases
• Increasing positive charge pulls the valence electrons closer to the nucleus.
• Shielding does not influence this trend because the effect is constant. P. 181 - Q - 36 - P. 182 - Q - 50
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Ions – Atoms gain or lose electrons to have a complete set of valence electrons (Octet Rule)
Na Na+1
11 protons
10 electrons
11 protons
11 electrons
Empty outer orbital or energy level
makes it smaller. Electrostatic
repulsion decreases.
11 p 10 e
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Increased electrostatic repulsion
Cl
17 Protons
17 Electrons
Cl1-
17 Protons
18 Electrons
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Ionic Radius – Family Trends
• Principle energy levels increase in
size.
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Ionic Radius – Period Trends
3
protons
2 electrons
4
protons
2 electrons
5
protons
2 electrons
6
protons
2 electrons
7
protons
10 electrons
8
protons
10 electrons
9
protons
10 electrons
Electron repulsion decrease Electron repulsion decrease
P. 181 - Q - 41, 42 - P. 182 - Q -52 - P. 183 - Q - 64, 65
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Ionization Energy – energy needed for an atom to lose an electron
Be Be+ Be2+ Be3+
kilojoules/mol or kj/mol
1s2 1s2 1s2 1s1
2s2 2s1
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1st ionization energies increase as you move across a period due to the increased attraction of the nuclear charge.
The stability of the filled sub level affects the ionization energy.P. 181 – Q - 37, 38, 40 – P. 182 – Q – 55, 58 – P. 183 – Q – 67B
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Ionization Energy – Family Trends
Decreases as you move down a family. The further the electron from the nucleus the easier it is to remove.
P. 181 - Q - 39
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Electronegativity – a measure of an atom’s ability to attract an electron
P. 181 - Q - 43, 44, 45