Periodicity
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=Basics of the Periodic Table= | =Basics of the Periodic Table= | ||
Here is what the most common form of the periodic table looks like: | Here is what the most common form of the periodic table looks like: |
Revision as of 23:37, 5 January 2008
Contents |
Basics of the Periodic Table
Here is what the most common form of the periodic table looks like:
Group → | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 (0) | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Alkali Metals | Halogens | Noble Gases* | ||||||||||||||||||
↓ Period | ||||||||||||||||||||
1 | 1 H | 2 He | ||||||||||||||||||
2 | 3 Li | 4 Be | 5 B | 6 C | 7 N | 8 O | 9 F | 10 Ne | ||||||||||||
3 | 11 Na | 12 Mg | 13 Al | 14 Si | 15 P | 16 S | 17 Cl | 18 Ar | ||||||||||||
4 | 19 K | 20 Ca | 21 Sc | 22 Ti | 23 V | 24 Cr | 25 Mn | 26 Fe | 27 Co | 28 Ni | 29 Cu | 30 Zn | 31 Ga | 32 Ge | 33 As | 34 Se | 35 Br | 36 Kr | ||
5 | 37 Rb | 38 Sr | 39 Y | 40 Zr | 41 Nb | 42 Mo | 43 Tc | 44 Ru | 45 Rh | 46 Pd | 47 Ag | 48 Cd | 49 In | 50 Sn | 51 Sb | 52 Te | 53 I | 54 Xe | ||
6 | 55 Cs | 56 Ba | * | 72 Hf | 73 Ta | 74 W | 75 Re | 76 Os | 77 Ir | 78 Pt | 79 Au</td> | 80 Hg | 81 Tl | 82 Pb | 83 Bi | 84 Po | 85 At | 86 Rn | ||
7 | 87 Fr | 88 Ra | ** | 104 Rf | 105 Db | 106 Sg | 107 Bh | 108 Hs | 109 Mt | 110 Ds | 111 Rg | 112 Uub | 113 Uut | 114 Uuq | 115 Uup | 116 Uuh | 117 Uus | 118 Uuo | ||
8 | 119 Uue | |||||||||||||||||||
* | 57 La | 58 Ce | 59 Pr | 60 Nd | 61 Pm | 62 Sm | 63 Eu | 64 Gd | 65 Tb | 66 Dy | 67 Ho | 68 Er | 69 Tm | 70 Yb | 71 Lu | |||||
** | 89 Ac | 90 Th | 91 Pa | 92 U | 93 Np | 94 Pu | 95 Am | 96 Cm | 97 Bk | 98 Cf | 99 Es | 100 Fm | 101 Md | 102 No | 103 Lr |
You don't have to memorize the whole thing. However, you should know that:
- a row of the periodic table is called a period.
- They correspond to the number of electron 'shells' in an atom of an element
- the columns are called 'groups'.
- They correspond to the number of electrons in the outer 'shell'.
- Because they have the same number of valence electrons, elements in the same group have similar physical and chemical properties.
- You should be also familiar with the names of groups 1, 7, and 8, which are shown at the top of the table above.
Trends in the Periodic table
Atomic Radius
Atomic radius is, big surprise, the radius of the atom!
Atomic radius increases:
- As you descend a group, since atoms with more electron 'shells' are bigger.
- As you move left along a period, since atoms with more protons but the same amount of energy shells pull their electrons in closer, making them smaller.
So atomic radius increases towards the lower-left corner of the periodic table.
Electronegativity
Electronegativity has to do with the strength with which an atom pulls electrons towards it.
Electronegativity increases whenever atomic radius decreases, since the smaller an atom is, the stronger the
So electronegativity increases towards the upper-right corner of the periodic table.
Ionic Radius
Melting point
Melting point depends on the type of bonding between atoms. The stronger the bond, the higher the melting point.
Reactivity (within a group)
While elements in a group do share similar chemical properties, reacting similarly with other substances, different elements within a group can have different reactivities. The IB expects you to know the following:
Within Group 1
When an alkali metal reacts, it loses its outer electron, leaving it with a full shell of valence electrons.
Further down the group, this extra electron is at a higher energy level to begin with, so it is easier to remove.
Therefore, Reactivity increases with period in Group 1
This is why potassium reacts more readily than lithium, for example.
Within Group 7
When a halogen reacts, it gains one electron, leaving it with a full shell of valence electrons.
Further down the group, this extra electron is at a higher energy level, so there is less force pulling it into the atom.
Therefore, Reactivity decreases with period in Group 7
This is why bromine reacts more readily than fluorine, for example.
This is easy to remember since it's the opposite of what happens in Group 1!
Within Group 8
None of the noble gases tend to react with anything. Hihi!