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Beschreibung
Mindmap von crinklechips1, aktualisiert more than 1 year ago
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Erstellt von crinklechips1
vor mehr als 10 Jahre
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Periodic
Table
- The early periodic table
- Johann Wolfgang Dobereiner
- Law of Triads
- The middle element
has properties that are
an average of the other
two.
- Hydrogen and aluminium =
nitrogen
- Lithium and potassium =
Sodium
- Law of Triads
- John Newlands
- Law of Octaves
- When ordered
in atomic mass,
the properties of
every eighth
element
seemed similar
- - Groups contained elements
without similar properties, eg.
carbon, titanium, hydrogen
-Mixed up metals and
non-metals -Didn't leave gaps
- Law of Octaves
- Johann Wolfgang Dobereiner
- Alkali Metals
- Group 1
- Extremely reactive
therefore stored in oil
so they don't react
with oxygen in the air
- Reaction with water: Lithium + water -> lithium hydroxide + hydrogen
- Observations: -Gas released
therefore bubbles formed
-Solid (lithium) would dissolve
-UI would turn purple
- Observations: -Gas released
therefore bubbles formed
-Solid (lithium) would dissolve
-UI would turn purple
- Properties: -Always form ionic bonds
-One electron in outer shell, form +1
charge -Low densities + float on water
- Down the group: -More reactive
-Lower melting and boiling
points
- Extremely reactive
therefore stored in oil
so they don't react
with oxygen in the air
- Group 1
- Modern Periodic Table
- Dmitri Mendeleev
- Order of atomic mass
- Left gaps for undiscovered elements
- Elements with similar
properties in groups
- When the undiscovered
elements were found they
fitted the table
- Order of atomic mass
- Arranged in atomic number (protons)
- Arranged by electrons in outer shell -
groups which have similar properties
- Contains noble gases
- Unreactive
- The structure that other elements
gain when reacting
- Unreactive
- Dmitri Mendeleev
- The Halogens
- Group 7
- Uses -
Chlorine: to
sterilise pools
-Iodine: in
antiseptics to
treat wounds
- Properties: -Low
melting point
-Poisonous
-Non-metals
- DIATOMIC
MOLECULES - Exist
in pairs, F2, CL2 etc.
- 7 Electrons in outer shell, form a
-1 charge called a halide
- Reaction with hydrogen: Chlorine +
hydrogen -> hydrogen chloride etc.
- Reaction with Alkali metals: Chlorine
+ Potassium -> potassium chloride
- More reactive halogens will
displace less reactive ones, get
less reactive down the group
- Low melting point
because only small
molecules which have
weak intermolecular
forces
- Uses -
Chlorine: to
sterilise pools
-Iodine: in
antiseptics to
treat wounds
- Group 7
- Transition Metals
- Fairly unreactive - don't react
vigorously with H20 or O2
- Properties: -High density
-Used as catalysts
-Coloured compounds
-ions with more than one
charge
- -Fe2+ -> green -Fe3+ ->
red/brown -Potassium
chromate -> yellow
-Potassium manganate ->
purple -Copper sulfate ->
blue
- Fairly unreactive - don't react
vigorously with H20 or O2
- - Groups 1,2 and 3 want to lose
electrons therefore MORE SHELLS=
MORE REACTIVE. -Groups 4,5,6 and
7 need to gain electrons, therefore
LESS SHELLS = MORE REACTIVE.
- -The further from the
positive nucleus the
weaker the attraction. -As
negative/negative repel
each other, the more
shells, the stronger the
repulsion and the easier
electrons are to remove
- -The further from the
positive nucleus the
weaker the attraction. -As
negative/negative repel
each other, the more
shells, the stronger the
repulsion and the easier
electrons are to remove
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