Biology Now, 2e

(Ben Green) #1

46 ■ CHAPTER 03 Chemistry of Life


CELLS


Water can exist in all three states of matter:
liquid, solid, and gas. Hydrogen bonds explain
the physical properties of water in these three
states. Though water is composed of two
elements that are gases at room temperature
(hydrogen and oxygen), it forms a liquid at room
temperature because hydrogen bonds stick water

molecules together, keeping them close. Those
hydrogen bonds are constantly forming and
breaking in water, creating a nonstop jostling
that gives water its liquid form (Figure 3.6, left).
When water chills, its molecules cannot
move about as vigorously (Figure 3.6, right).
As water turns into ice at 0°C (32°F), a stable

Figure 3.6


Water molecules change state as hydrogen bonds increase or decrease
Japanese snow macaques escape the cold with a daily dip in natural hot springs. Water can be seen
here in its liquid, solid, and gas states.

Q1: Identify where in the picture water can be seen in its liquid, solid, and gas states.

Q2: In the gas state, water molecules move too rapidly and are too far apart to form hydrogen
bonds. Compare the volumes occupied by an equal number of water molecules in the liquid, solid,
and gas states.

Q3: Explain in your own words how ice floats on water.

Hydrogen bonds develop readily
between adjacent water molecules,
with the partially positive pole of one
water molecule tugging at, and being
tugged upon by, the partially negative
pole of a neighboring water molecule.

When water freezes,
hydrogen bonds
become more rigid,
and water molecules
become stacked in a
3D network, forming a
crystal lattice.

Water molecules are
spaced farther apart in
an ice crystal, making
ice less dense than
water and able to float
on it.

When water heats up, energy from the
heat breaks the hydrogen bonds, and
the number of intact hydrogen bonds
decreases as the temperature rises.
As a result, some water molecules
escape as vapor, or steam.

When water is liquid,
hydrogen bonds form
between some water
molecules, but not all of
them, and the water
molecules can move
about.

Hydrogen bonds are
constantly forming...

...and breaking.

Hydrogen
bonds

Slightly
negative
Slightly
positive

+



H H


O


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