Chapter 10 – states of matter
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Feb 14, 2013
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Chapter 10: States of Matter
•Kinetic Molecular Theory: the idea that
particles of matter are always in motion;
this applies to all states of matter
•Used to explain properties of matter in
terms of energy
•Kinetic Molecular Theory: the idea that
particles of matter are always in motion;
this applies to all states of matter
•Used to explain properties of matter in
terms of energy
Ideal Gas
= hypothetical gas that perfectly fits all 5 assumptions of
the Kinetic Molecular Theory:
1) Gases consist of a large # of particles that occupy a
larger space with respect to their relative sizes thus
gases can be easily compressed
2) Collisions b/t particles and walls are perfectly elastic
( = no loss of KE)
3) Gas particles are in rapid, random, constant motion
4) There are no forces of attraction b/t gas particles
5) Temperature of a gas depends on the average
KE of the particles; directly proportional
A gas that is always a gas - Doesn’t exist!
= hypothetical gas that perfectly fits all 5 assumptions of
the Kinetic Molecular Theory:
1) Gases consist of a large # of particles that occupy a
larger space with respect to their relative sizes thus
gases can be easily compressed
2) Collisions b/t particles and walls are perfectly elastic
( = no loss of KE)
3) Gas particles are in rapid, random, constant motion
4) There are no forces of attraction b/t gas particles
5) Temperature of a gas depends on the average
KE of the particles; directly proportional
A gas that is always a gas - Doesn’t exist!
Characteristics of Gases
•Expansion: no definite shape or volume; fill any container,
regardless of shape
•Fluidity: particles slide easily over one another; act like
liquids, thus they are both fluids
•Low Density and Compressibility: volume can be
decreased greatly
•Diffusion: since gases are always randomly moving, freely
mix together with other gases
•Effusion: process by which gases move out of a small
opening; molecules with low mass effuse more quickly than
those with larger masses
KE= ½ mv
2
•Expansion: no definite shape or volume; fill any container,
regardless of shape
•Fluidity: particles slide easily over one another; act like
liquids, thus they are both fluids
•Low Density and Compressibility: volume can be
decreased greatly
•Diffusion: since gases are always randomly moving, freely
mix together with other gases
•Effusion: process by which gases move out of a small
opening; molecules with low mass effuse more quickly than
those with larger masses
KE= ½ mv
2
Liquids
•Least common state of
matter in universe; not so
on Earth
•Operate at slim range of
temps/pressures
•Volume, shape, density?
•Particles in constant
motion, and closer than
those of a gas (d/t
intermolecular forces
•Least common state of
matter in universe; not so
on Earth
•Operate at slim range of
temps/pressures
•Volume, shape, density?
•Particles in constant
motion, and closer than
those of a gas (d/t
intermolecular forces
Other Characteristics of liquids:
•Have a very high density when compared to
gases; depends on temperature lower
temp…except for water
•Not easily compressed
•Easily diffuse in other liquids it can dissolve
in d/t… much slower than it is in gases –
why?
•Have a very high density when compared to
gases; depends on temperature lower
temp…except for water
•Not easily compressed
•Easily diffuse in other liquids it can dissolve
in d/t… much slower than it is in gases –
why?
Surface Tension
•All liquids exhibit surface
tension = a force that tends to
pull adjacent particles at a
liquids surface together,
decreasing its surface area to
the smallest possible size;
meniscus
•Results from… water shows
high surface tension
•Capillary action = attraction of
a liquid to a solid; rises in a
small tube against gravity
•All liquids exhibit surface
tension = a force that tends to
pull adjacent particles at a
liquids surface together,
decreasing its surface area to
the smallest possible size;
meniscus
•Results from… water shows
high surface tension
•Capillary action = attraction of
a liquid to a solid; rises in a
small tube against gravity
Surface Tension
Look at the picture below. The milk forms small droplets that
resemble a crown. But why does this happen?
Because of the surface tension of water, which keeps the
droplets spherical.
Look at the picture below. The milk forms small droplets that
resemble a crown. But why does this happen?
Because of the surface tension of water, which keeps the
droplets spherical.
Some terms:
solid liquid gas
MELTING BOILING
FREEZING CONDENSATION
0ºC 100ºC
melting/freezing point boiling/condensation point
(ice) (steam)(water)
SUBLIMATION
solid liquid gas
MELTING BOILING
FREEZING CONDENSATION
0ºC 100ºC
melting/freezing point boiling/condensation point
(ice) (steam)(water)
SUBLIMATION
More info on Liquids
•Vaporization – liquid to
gas
•Evaporation – escape
from a non-boiling
liquid at its surface
•Boiling – vaporization
through the entire liquid
•Freezing – physical
change from liquid to
solid through the loss
of HEAT.
Evaporation- a beautiful process.
•Vaporization – liquid to
gas
•Evaporation – escape
from a non-boiling
liquid at its surface
•Boiling – vaporization
through the entire liquid
•Freezing – physical
change from liquid to
solid through the loss
of HEAT.
Evaporation- a beautiful process.
Solids
•Particles in a solid are tightly-
packed together due to attractive
forces. Highly-ordered.
•Atomic/molecular motion is
restricted, but it occurs.
•2 types:
1) Crystalline: consists of crystals
(orderly, geometric, repeating
pattern)
2) Amorphous: particles are
randomly arranged
Sodium Chloride crystals
Amorphous solid
•Particles in a solid are tightly-
packed together due to attractive
forces. Highly-ordered.
•Atomic/molecular motion is
restricted, but it occurs.
•2 types:
1) Crystalline: consists of crystals
(orderly, geometric, repeating
pattern)
2) Amorphous: particles are
randomly arranged
Sodium Chloride crystals
Amorphous solid
Properties of solids
•Definite shape and volume
•Definite melting point (d/t addition of heat)
•High density and incompressible
•Low rates of diffusion
•Definite shape and volume
•Definite melting point (d/t addition of heat)
•High density and incompressible
•Low rates of diffusion
Crystals
•Arranged in a lattice structure
•Smallest unit of a crystal that shows the 3-
D pattern of the lattice = UNIT CELL
•Arranged in a lattice structure
•Smallest unit of a crystal that shows the 3-
D pattern of the lattice = UNIT CELL
Changes of State
•Phase = any part of a
system that has a
uniform composition
and properties
•Condensation =
process by which a
gas turns into a liquid
•Vapor = a gas in
contact with its liquid
or solid phase
•Phase = any part of a
system that has a
uniform composition
and properties
•Condensation =
process by which a
gas turns into a liquid
•Vapor = a gas in
contact with its liquid
or solid phase
Vapor Pressure
•The pressure exerted by a vapor that is in
equilibrium with its corresponding liquid
•Develops in a closed system
•Increase AKE, increase particles leaving
liquid, increased pressure
•Volatile liquids evaporate
easily d/t weak IMF
•The pressure exerted by a vapor that is in
equilibrium with its corresponding liquid
•Develops in a closed system
•Increase AKE, increase particles leaving
liquid, increased pressure
•Volatile liquids evaporate
easily d/t weak IMF
Vapor Pressure
Notes on Boiling Point
•BP = when vapor pressure
equals atmospheric pressure
•Increase pressure, increase
BP = pressure cooker
•Molar Enthalpy of
Vaporization = amount of
heat needed to vaporize 1
mole of a liquid at the liquid’s
BP at a constant pressure; the
stronger the attraction….
•Vapor pressure is directly
proportional to temperature
•Vacuum evaporator – how
does it work?
•BP = when vapor pressure
equals atmospheric pressure
•Increase pressure, increase
BP = pressure cooker
•Molar Enthalpy of
Vaporization = amount of
heat needed to vaporize 1
mole of a liquid at the liquid’s
BP at a constant pressure; the
stronger the attraction….
•Vapor pressure is directly
proportional to temperature
•Vacuum evaporator – how
does it work?
Freezing and Melting
•Definitions?
•What is the difference b/t freezing water
and ice? Boiling water and steam?
•Definitions?
•What is the difference b/t freezing water
and ice? Boiling water and steam?
Do Now
•Explain the importance and significance of
this graph…
•Explain the importance and significance of
this graph…
More Vocab
•Molar Enthalpy of Fusion = the amount
of heat required to melt one mole of a
solid
(40.79 kJ/mol for water)
•Sublimation vs. deposition
•Molar Enthalpy of Fusion = the amount
of heat required to melt one mole of a
solid
(40.79 kJ/mol for water)
•Sublimation vs. deposition
Phase Diagrams
graph of pressure vs. temperature that shows the conditions
under which the phases of a substance would exist
graph of pressure vs. temperature that shows the conditions
under which the phases of a substance would exist
Water
•Most abundant liquid
on Earth; essential to
life; most reactions
take place in it
IMPORTANT!!!
•Review its structure
and properties…
•Most abundant liquid
on Earth; essential to
life; most reactions
take place in it
IMPORTANT!!!
•Review its structure
and properties…
Water
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