Download presentation
Presentation is loading. Please wait.
Published byIlene Collins Modified over 9 years ago
2
The States of Matter
4
States of Matter u There are 4 states of matter. u A solid is a form of matter that has its own definite shape and volume.
5
Solids u A solid cannot flow. u The particles can vibrate but cannot move around. u The particles of matter in a solid are very tightly packed; when heated, a solid expands, but only slightly.
6
Liquids u A liquid is a form of matter that flows, has constant (definite) volume, and takes the shape of its container.
7
Liquids u The particles in a liquid are not rigidly held in place and are less closely packed than are the particles in a solid; liquid particles are able to move past each other.
8
Liquids u A liquid is not very compressible. u Like solids, liquids tend to expand when heated.
9
Gases u A gas is a form of matter that flows to conform to the shape of its container and fills the entire volume of its container.
10
Gases u Compared to solids and liquids, the particles of gases are very far apart. u Because of the significant amount of space between particles, gases are easily compressed.
12
States of Matter u Plasma is composed of electrons and positive ions at temperatures greater than 5000 °C. The sun and other stars are examples of plasma.
13
Solid Liquid Gas Definite Volume? YES NO Definite Shape? YES NO Expansion with heat? Small Expans. Large Expans. Com- pressible? NO YES
14
Question Identify the following as a property of a solid, liquid or gas. The answer may include more that one state of matter. 1. flows and takes the shape of a container liquid, gas
15
Question Identify the following as a property of a solid, liquid, or gas. The answer may include more that one state of matter. 2. compressible gas
16
Question Identify the following as a property of a solid, liquid, or gas. The answer may include more that one state of matter. 3. made of particles held in a specific arrangement solid
17
Question Identify the following as a property of a solid, liquid, or gas. The answer may include more that one state of matter. 4. has definite volume solid, liquid
18
Question Identify the following as a property of a solid, liquid, or gas. The answer may include more that one state of matter. 5. always occupies the entire space of its container gas
19
Question Identify the following as a property of a solid, liquid, or gas. The answer may include more that one state of matter. 6. has a definite volume but flows liquid
20
States of Matter u The word vapor refers to the gaseous state of a substance that is a solid or a liquid at room temperature. u For example, steam is a vapor because at room temperature water exists as a liquid.
21
Matter u Some substances are described as volatile, which means that they change to a gas easily at room temperature. u Alcohol and gasoline are more volatile than water.
22
Liquids u Kinetic-molecular theory predicts the constant motion of the liquid particles. u Individual liquid molecules do not have fixed positions in the liquid.
23
Liquids u However, forces of attraction between liquid particles limit their range of motion so that the particles remain closely packed in a fixed volume. u These attractive forces are called intermolecular forces. Inter = between Molecular = molecules
24
Liquids u A liquid diffuses more slowly than a gas at the same temperature, however, because intermolecular attractions interfere with the flow.
25
Liquids u Viscosity is a measure of the resistance of a liquid to flow. u Viscosity decreases with increasing temperature.
26
Liquids u Particles in the middle of the liquid can be attracted to particles above them, below them, and to either side. u For particles at the surface of the liquid, there are no attractions from above to balance the attractions from below.
27
Liquids u Thus, there is a net attractive force pulling down on particles at the surface. u Surface tension is a measure of the inward pull by particles in the interior.
28
Liquids
29
u Soaps and detergents decrease the surface tension of water by disrupting the hydrogen bonds between water molecules.
30
Solids u For a substance to be a solid rather than a liquid at a given temperature, there must be strong attractive forces acting between particles in the solid.
31
Solids u These forces limit the motion of the particles to vibrations around fixed locations in the solid. Thus, there is more order in a solid than in a liquid. u The particles can only vibrate and revolve in place.
32
Solids u Because of this order, solids are much less fluid than liquids and gases. In fact, solids are not classified as fluids. u Most solids are more dense than most liquids.
33
Crystalline Solids u A crystalline solid is a solid whose atoms, ions, or molecules are arranged in an orderly, geometric, three-dimensional structure. u Most solids are crystals.
34
Amorphous Solids u Amorphous solids lack an orderly internal structure. u Think of them as supercooled liquids. u Examples of amorphous solids include rubber and glass.
35
Solid Liquid Gas Melting Vaporization Condensation Freezing Sublimation Deposition
36
Heating Curve for Water Section A: Ice is being heated to the melting to the meltingpoint. Section B: The ice is melting. Section C: Water is being heated to the boiling to the boilingpoint. Section E: Steam is being heated. Section D: Water is Boiling.
37
PHASE CHANGES
38
Liquid Vaporization Solid Gas ???? Condensation
39
Vaporization u If a substance is usually a liquid at room temperature (as water is), the gas phase is called a vapor. u Vaporization is the process by which a liquid changes into a gas or vapor. u Vaporization is an endothermic process - it requires heat.
40
Vaporization u When vaporization occurs only at the surface of an uncontained liquid (no lid on the container), the process is called evaporation.
41
Evaporation u Molecules at the surface break away and become gas. u Only those with enough kinetic energy (KE) escape. u Evaporation is a cooling process. u It requires heat, which is endothermic.
42
Vapor Pressure u Vapor pressure is the pressure exerted by a vapor over a liquid. u As temperature increases, water molecules gain kinetic energy and vapor pressure increases.
43
Boiling u When the vapor pressure of a liquid equals atmospheric pressure, the liquid has reached its boiling point, which is 100°C for water at sea level. u Recall that standard atmospheric pressure equals 1 atm.
44
Boiling u At this point, molecules throughout the liquid have the energy to enter the gas or vapor phase. u The temperature of a liquid can never rise above its boiling point.
45
Boiling u Boiling is an endothermic process. u It requires the addition of heat.
46
Changing the Boiling Point u As you go up into the mountains (increase in elevation), atmospheric pressure decreases. u Lower external pressure requires lower vapor pressure.
47
Changing the Boiling Point u Lower vapor pressure means lower boiling point. u As a result, spaghetti cooks slower in the mountains than at the beach.
48
u When you use a pressure cooker to can vegetables, the external pressure around the mason jars rises. Changing the Boiling Point
49
u This raises the vapor pressure needed in order for water to boil. u In turn, the boiling point is raised so the food cooks faster. Changing the Boiling Point
50
u Some phase changes release energy into their surroundings. u For example, when a vapor loses energy, it may change into a liquid. Condensation
51
u Condensation is the process by which a gas or vapor becomes a liquid. It is the reverse of vaporization. Condensation
52
u In a closed system, the rate of vaporization can equal the rate of condensation. Dynamic Equilibrium
53
u When first sealed, the molecules gradually escape the surface of the liquid. u As the molecules build up above the liquid, some condense back to a liquid. Dynamic Equilibrium
54
u Equilibrium is reached when Rate of Vaporization = Rate of Condensation Dynamic Equilibrium
55
u Molecules are constantly changing phase - “Dynamic” The total amount of liquid and vapor remains constant - “Equilibrium” Dynamic Equilibrium
56
Liquid Melting Solid Gas ???? Freezing
57
u The melting point of a solid is the temperature at which the forces holding the particles together are broken and the solid becomes a liquid. u When heated the particles vibrate more rapidly until they shake themselves free of each other. Melting
58
u The freezing point is the temperature at which a liquid becomes a crystalline solid. u The freezing point is the same as the melting point. Freezing
59
Liquid Sublimation Solid Gas ???? Deposition
60
u The process by which a solid changes directly into a gas without first becoming a liquid is called sublimation. u Solid air fresheners and dry ice are examples of solids that sublime. Sublimation
61
u When a substance changes from a gas or vapor directly into a solid without first becoming a liquid, the process is called deposition. u Deposition is the reverse of sublimation. u Frost is an example of water deposition. Deposition
62
Question Classify the following phase change. 1. dry ice (solid carbon dioxide) to carbon dioxide gas sublimation
63
Question Classify the following phase change. 2. ice to liquid water melting
64
Question Classify the following phase change. 3. liquid water to ice freezing
65
Question Classify the following phase change. 4. water vapor to liquid water condensation
66
PHASE DIAGRAMS
67
u Temperature and pressure control the phase of a substance. u A phase diagram is a graph of pressure versus temperature that shows in which phase a substance exists under different conditions of temperature and pressure. Phase Diagrams
68
u A phase diagram typically has three regions, each representing a different phase and three curves that separate each phase. Phase Diagrams
70
u The points on the curves (the red, blue and yellow lines) indicate conditions under which two phases coexist. Phase Diagrams
71
u The critical point indicates the critical pressure and the critical temperature above which a substance cannot exist as a liquid. Phase Diagrams
72
u The triple point is the point on a phase diagram that represents the temperature and pressure at which three phases of a substance can coexist. Phase Diagrams
73
u The negative slope of the solid-liquid line in the phase diagram for water indicates the the solid floats on its liquid. Phase Diagrams
74
Question What happens to solid carbon dioxide at -100 ºC and 1 atm pressure as it is heated to room temperature? (The dry ice sublimes to CO 2 gas.)
75
Question What happens to water at 1 atm as the temperature rises from -15°C to 60°C? (It melts.)
76
Question What state of matter is water at 50°C and 20 atm? (liquid)
77
Question At what temperature does the triple point occur for water? (0.0098 ° C) 0.0098
78
Question At what temperature does the critical point occur for carbon dioxide? (31 ° C)
79
Question At standard pressure and -78°C, what phase changes can occur for carbon dioxide? (sublimation and deposition)
80
Question What state of matter is carbon dioxide at -80°C and 2 atm? (solid)
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.