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Water, Water,
Everywhere
Water is important because:
•Most organisms have high water content (75 - 95%).
•Many organisms live in water.
•Most chemical reactions of life take place in water.
Water Structure
•
•
A water molecule consists of 2 hydrogen and
1 oxygen atom, hence…H2O.
Electrons are shared through polar covalent
bonding between the atoms.
Water molecules are polar
•
The e are shared unequally, creating an
unequal distribution of charge.
The oxygen atom has more protons so it
attracts the shared electrons more of the
time
Results in:
•
•
–
–
The hydrogen’s have a
partial positive charge
The oxygen has a
partial negative charge
Water molecules can form hydrogen bonds
•
•
Partly positive hydrogen
atoms of one water
molecule are attracted to the
partially negative oxygen
atom of another water
molecule
The bonds are made and
broken quickly as the
molecules move, however
the large numbers of bonds
contribute to the stability of
water
The Three Phases of Water
Water Forms an Unusual Solid: Ice
•
•
Most substances become denser when
they solidify from a liquid
Ice is unusual because it is less dense
than liquid water
Water Forms an Unusual Solid: Ice
•
Water molecules spread apart slightly
during the freezing process
Water Forms an Unusual Solid: Ice
•
•
Ice floats in liquid water
Ponds and lakes freeze from the top
down and never freeze completely to the
bottom
– Many plants and fish therefore are not
frozen
What would it be like if ice sank?
• ponds, lakes & even oceans would freeze
solid
• in summer, only upper few inches would
thaw
Transparency
Because water is
transparent, light
penetrates tissue and
aquatic environments,
important for
photosynthesis.
• Water is transparent simply because it
does not absorb light in the visible
spectrum, and all frequencies of coloured
light are transmitted through.
Water Interacts with Many Molecules
• Water is the solvent of life
– A wide range of polar and ionic solutes
dissolve in water to form solutions
Water Interacts with Many Molecules
• Water-soluble molecules are hydrophilic
• Water molecules are attracted to and can
surround ions or polar molecules (dissolving
them), such as sugars and amino acids
Water Interacts with Many Molecules
• Water-insoluble molecules
are hydrophobic
– Water molecules repel and
drive together uncharged
and nonpolar molecules like
fats and oils
– The “clumping” of nonpolar
molecules is called
hydrophobic interaction
Water Molecules Tend to Stick Together
• Hydrogen bonding
between water
molecules produces
high cohesion
Water cohesion
explains how
water molecules
can form a chain
in delivering
moisture to the
top of a tree
• Cohesion of water molecules along a
surface produces surface tension
– Fishing spiders and water striders rely on
surface tension to move across the surface of
ponds
Adhesion
• Water molecules stick to polar or ionic
surfaces in the property called adhesion
– Adhesion helps water climb up the thin tubes
of plants to the leaves
Capillary Action
Water Stabilizes Temperature
• Compared to other molecules, it takes a lot
of energy to change the temperature of water
– It requires 1 calorie of energy to raise the
temperature of 1g of water 1oC (the specific
heat of water)
• So it heats up or cools down very slowly
– This provides for a stable internal environment
and habitat
Water Stabilizes Temperature
• Because the human body is mostly water, a
sunbather can absorb a lot of heat energy
without sending her/his body temperature
soaring
Water Stabilizes Temperature
• Water requires a lot of energy to turn from
liquid into a gas (heat of vaporization)
– Water requires a high input of energy to break
the hydrogen bonds to turn it from a liquid to a
gas.
– Evaporating water uses up heat from its
surroundings, cooling the nearby environment
(as occurs during sweating)
Evaporative cooling
Heat of vaporization
Organisms rely on heat of vaporization
to remove body heat