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Periodic Table & Trends

Published byVincent Noah Francis Modified over 8 years ago

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Presentation on theme: "Periodic Table & Trends"— Presentation transcript:

1 Periodic Table & Trends

2 History of the Periodic Table
1871 – Mendeleev arranged the elements according to: 1. Increasing atomic mass Elements w/ similar properties were put in the same row 1913 – Moseley arranged the elements according to: 1. Increasing atomic number Elements w/ similar properties were put in the same column

3 Group Names +3 -3 -2 H 1 He 2 Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 Na
Alkali +1 Alkaline Earth Metals +2 +3 -3 -2 Halogen -1 Noble Gases H 1 He 2 Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 Na 11 Mg 12 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18

4 S & P block – Representative Elements
METALS NONMETALS TRANSITION METALS S & P block – Representative Elements Metalloids (Semimetals, Semiconductors) – B,Si, Ge, As, Sb, Te (properties of both metals & nonmetals) Columns – groups or families Rows - periods

5 Periodic Groups Elements in the same column have similar chemical and physical properties These similarities are observed because elements in a column have similar e- configurations (same amount of electrons in outermost shell)

6 Periodic Trends Periodic Trends – patterns (don’t always hold true) can be seen with our current arrangement of the elements (Moseley) Trends we’ll be looking at: Atomic Radius Ionization Energy 3. Electronegativity

7 Atomic Radius Atomic Radius – size of an atom
(distance from nucleus to outermost e-)

8 Atomic Radius Trend Group Trend – As you go down a column, atomic radius increases As you go down, e- are filled into orbitals that are farther away from the nucleus (attraction not as strong) Periodic Trend – As you go across a period (L to R), atomic radius decreases As you go L to R, e- are put into the same orbital, but more p+ and e- total (more attraction = smaller size)

9 Ionic Radius Ionic Radius – size of an atom when it is an ion

10 Ionic Radius Trend Metals – lose e-, which means more p+ than e- (more attraction) SO… Cation Radius < Neutral Atomic Radius Nonmetals – gain e-, which means more e- than p+ (not as much attraction) SO… Anion Radius > Neutral Atomic Radius

11 Ionic Radius Trend Group Trend – As you go down a column, ionic radius increases Periodic Trend – As you go across a period (L to R), cation radius decreases, anion radius decreases, too. As you go L to R, cations have more attraction (smaller size because more p+ than e-). The anions have a larger size than the cations, but also decrease L to R because of less attraction (more e- than p+)

12 Ionic Radius

13 Ionic Radius How do I remember this????? The more electrons that are lost, the greater the reduction in size. Li+1 Be+2 protons 3 protons 4 electrons 2 electrons 2 Which ion is smaller?

14 Ionic Radius How do I remember this??? The more electrons that are gained, the greater the increase in size. P-3 S-2 protons 15 protons 16 electrons 18 electrons 18 Which ion is smaller?

15 Ionization Energy Ionization Energy – energy needed to remove outermost e-

16 Ionization Energy Group Trend – As you go down a column, ionization energy decreases As you go down, atomic size is increasing (less attraction), so easier to remove an e- Periodic Trend – As you go across a period (L to R), ionization energy increases As you go L to R, atomic size is decreasing (more attraction), so more difficult to remove an e- (also, metals want to lose e-, but nonmetals do not)

17 Electronegativity Electronegativity- tendency of an atom to attract e-

18 Electronegativity Trend
Group Trend – As you go down a column, electronegativity decreases As you go down, atomic size is increasing, so less attraction to its own e- and other atom’s e- Periodic Trend – As you go across a period (L to R), electronegativity increases As you go L to R, atomic size is decreasing, so there is more attraction to its own e- and other atom’s e-

19 Reactivity Reactivity – tendency of an atom to react
Metals – lose e- when they react, so metals’ reactivity is based on lowest Ionization Energy (bottom/left corner) Low I.E = High Reactivity Nonmetals – gain e- when they react, so nonmetals’ reactivity is based on high electronegativity (upper/right corner) High electronegativity = High reactivity

20 Metallic Character Properties of a Metal – 1. Easy to shape
Conduct electricity 3. Shiny Group Trend – As you go down a column, metallic character increases Periodic Trend – As you go across a period (L to R), metallic character decreases (L to R, you are going from metals to non-metals

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