ARE C
Water molecules
bind to each other3
The positively-charged
hydrogen atoms attract
negatively-charged oxygen
atoms of other water molecules.
Thanks to the hydrogen bonds
between the water molecules,
liquid water forms.The boiling point
is unusually high
The more a molecule weighs, the higher
its boiling point. But water breaks the
rules. The compound hydrogen selenide
weighs more than water, but has a boiling
point of -42°C. Water, being lighter, ought to
boil at an even lower temperature, but due to
its hydrogen bonds, the water molecules
remain intact until 100°C, something which
was vital for life being able to originate.Water produces ‘film’
on the surface
At the water’s surface, the
water molecules cannot
form hydrogen bindings in all
directions, so they bind more
efficiently to nearby molecules.
The result is surface tension, so
that water forms drops, and
some insects can walk on water.Ice insulation keeps
marine animals warm
The density of ice is lower than that of
liquid water, because water molecules
form hexagonal structures at a temperature of
0 °C. This increases the distance between
molecules, so ice is less dense than water, settling
on top of the water. Ice functions as insulation,
keeping the water under the ice liquid and
making sure that animals and plants can survive.ICE0 degrees
HYDROGEN BONDSWATERICEKEY ELEMENT
100 degrees
VAPOURSHU
TTE
RST
OCK(^) & (^) L
OTT
E (^) FR
EDS
LUN
D
scienceillustrated.com.au | 43