ANYTHING WITH MASS AND VOLUME
Jan 14, 2016
ANYTHING WITH MASS AND VOLUME
Matter
Pure Substances
Mixtures
Elements
Compounds
Homogeneous
Heterogeneous
Draw this chart!, Draw this chart!, leave space to leave space to define the termsdefine the terms
Mixtures and Pure Substances
• A pure substance is made of only one kind of material and has definite properties.
• Matter that consists of two or more substances mixed together but not chemically combined is called a mixture.
Pure Substances:• Elements are the simplest pure
substance. – Examples: hydrogen, carbon,
and oxygen.
• The smallest particle of an element that has the properties of that element is called an atom.
Pure substances:• Compounds are pure substances that
are made of more than one element bound together.– Examples: water (H2O), and carbon
dioxide.
A molecule is formed when two or more atoms combine.Example: water (H2O), O2
MIXTURESHeterogeneous vs. Homogeneous
• Homogeneous matter (solutions): matter that has identical properties throughout. – Examples: Sugar, salt water, and whipped
cream
• Heterogeneous matter: matter that has parts with different properties. – Examples: granite, soil, potpourri
EXAMPLES
• What type of matter are each of the following… ?
SAND
SAND
Heterogeneous mixtureHeterogeneous mixture
Salt (NaCl)
Salt (NaCl)
COMPOUNDCOMPOUND
Air
Air
• Homogeneous mixture of: Nitrogen, N2 78.08%Oxygen, O2 20.95%Argon, Ar 0.93%Carbon dioxide, CO2 0.033%Neon, Ne 0.0018%Helium, He 0.00052%Methane, CH4 0.0002%Krypton, Kr 0.00011%Nitrogen(I) oxide, N2O 0.00005%Hydrogen, H2 0.00005%Xenon, Xe 0.0000087%Ozone, O3 0.000001%
Many gases make up mixture, Many gases make up mixture, but it looks like it is all one but it looks like it is all one gas.gas.
Gold
GoldELEMENT: AuELEMENT: Au
Bronze
Bronze
Homogeneous Homogeneous mixturemixture of of copper and tin copper and tin (alloy: mixture (alloy: mixture of metals)of metals)
Salad Dressing
Salad Dressing: Heterogeneous
Conservation• Law of Conservation of Matter
(Mass): matter cannot be created or destroyed.
• Law of Conservation of Energy: Energy cannot be created or destroyed; it may only change from one form to another.
Matter and energy MUST be conserved; it’s the LAW!
Virtually everything that is, is made up of atoms.
From the very large...
To the very small...
We are all made of atoms…and only atoms.
This includes you and me!
Making stuff nature
never dreamed of.
The Elements Song
Currently we have about 115 kinds of atoms. In the natural world there exists 88 different kinds of atoms.
The others have been artificially produced in laboratories.
We call each kind of atom an element, and give it a specific name and symbol.
Copper Cu
Gold Au
Periodic Table
Abundance of the elements,
by weight
The Earth’s interior is rich in iron
Sand is made of
Silicon & Oxygen
The ocean waters are
made of oxygen & hydrogen
Atoms are made up of protons, neutrons, and electrons.
Protons and neutrons are found in the nucleus of atoms -- roughly at the center
Electrons travel around the nucleus.
Of course real atoms don’t look anything
like this!
Different kinds of atoms, or elements, are different because they have different numbers of protons.
They don’t look anything like this either!
We list the elements by their atomic numbers - the number of protons
they have.
Hydrogen, number 1 Helium, number 2
In several cases the atomic weights are in parentheses. This indicates that these elements have no stable isotopes; that is, they are radioactive. The value In several cases the atomic weights are in parentheses. This indicates that these elements have no stable isotopes; that is, they are radioactive. The value enclosed in parentheses and used for the atomic weight is the atomic mass number of the most stable known isotope, as indicated by the longest half-life. enclosed in parentheses and used for the atomic weight is the atomic mass number of the most stable known isotope, as indicated by the longest half-life.
Physical Properties• Physical properties: characteristics that
can be observed without changing the identity of the substance.
• Examples: – mass– volume– color – shape – texture– density
Physical Changes
• Physical change: a change in the physical form or properties of a substance that occurs without a change in composition.
• Examples:– melting– freezing– grinding– dissolving
Chemical Properties
• Chemical property: describes a substance’s ability to change into a different substance.
• Examples: – flammability– reactivity
Chemical Changes• Chemical change: occurs
when a substance changes composition by forming one or more new substances. (bonds are broken and bonds are formed)
• Example:– HCl + NaOH NaCl + H2O
Indications of a Chemical Change…
Flames
Gas is given off (not to be confused with boiling)
Color Change
Evaporation is a physical change
Breaking is a physical change.
Boiling is a change of state, and therefore a
physical change!
Rusting is a Chemical Change
Burning is a Chemical Change
• NOTETAKERS:
• PHASES of MATTER
Kinetic Theory
• All matter is made of atoms and molecules that act like tiny particles.
• These tiny particles are always in motion. The higher the temp., the faster the particles move.
• At the same temp., more massive (heavier) particles move slower than less massive (lighter) particles.
SOLIDS
• Definite shape?• YES
• Definite volume?• YES
• Molecules in a solid are tightly packed and constantly vibrating.
LIQUIDS
• Definite shape?• NO
• Definite volume?• YES
• Some liquids flow more easily than others. The resistance of a liquid to flow is called viscosity. – Honey has a high viscosity compared to water.
GASES
• Definite shape?• NO
• Definite volume?• NO
• The particles in a gas are spread very far apart, but can be compressed by pumping them into a restricted volume.
Phase Changes (Changes of State)
• Changes in phase are examples of physical changes.
• Melting: solid liquid• Freezing: liquid solid• Vaporization: liquid gas• Condensation: gas liquid• Sublimation: solid gas• Deposition: gas solid
Changes of State
GAS
SOLID
Deposition
Sublimation
VaporizationCondensation
Melting
Freezing
LIQUID
Melting
• ENERGY is the ability to change or move matter.
• Energy is ABSORBED when substances melt or evaporate.– NOTE: our bodies cool down when our sweat
evaporates.
• Energy is RELEASED when substances freeze or condense.
Melting
• The change of state from solid to liquid.
• Energy (heat) is absorbed by the substance that is melting.
Freezing• The change of state from liquid to
solid. Opposite of melting. • Energy (heat) is released by the
substance undergoing freezing.
Evaporation• The change of state at the surface of a liquid as it passes to a vapor.
This results from the random motion of molecules that occasionally escape from the liquid surface.
– Energy (heat) is absorbed by the liquid
– Can happen at any temperature
Condensation
• The change of state from gas to liquid. The opposite of evaporation.– Energy (heat) is released by the gas to become a liquid.
Boiling• Change from state from a liquid to a gas.• Occurs throughout the liquid.
– boiling point/temperature is determined by pressure
– Energy (heat) is absorbed by the liquid for it to boil and produce gas.
*Boiling & freezing points depend on the pressure.*Boiling & freezing points depend on the pressure.
Water at normal pressure (1 atm):
• For water at normal (every day) pressures:
• Melting/freezing point:
• Condensing/boiling point:
0 oC (32oF)
100 oC (212oF)
Label the points & temperatures on your graph.
*Boiling & freezing points depend on the pressure.*Boiling & freezing points depend on the pressure.
00°C°C
100°C100°C
*Boiling & freezing points depend on the pressure.*Boiling & freezing points depend on the pressure.
00°C°C
100°C100°C
Potential Energy = flat lines (stored energy)
*Boiling & freezing points depend on the pressure.*Boiling & freezing points depend on the pressure.
00°C°C
100°C100°C
Kinetic Energy = slanted lines (energy of motion, temperature is changing)
Change the pressure Change the Boiling Point
VIDEO
• Bill Nye: Phase Changes
Phase Diagrams• a phase diagram shows the equilibria
pressure-temperature relationship among the different phases of a given substance
Draw Phase Diagrams
Water CO2
Label SOLID, LIQUID, GAS phases
Label points A, B, C, D (show on board)
triple point = Point ______The point at which all 3 phases of a substance (solid, liquid, gas) can coexist at equilibrium.
critical point = Point ______The combination of critical temperature and critical pressure.
A
C
D
critical temp = temp. above which a gas cannot be liquefied. (H2O=374ºC)
critical pressure = press. required to liquefy a gas at its critical temperature. (H2O=218 atm)
AB = AC = AD =
C
WATERWATER Carbon DioxideCarbon Dioxide
AB = AC = AD =
C
meltingcurve
AB = AC = AD =
C
meltingcurve
sublimationcurve
AB = AC = AD =
C
meltingcurve
sublimationcurve
vaporpressurecurve
Activity
• Triple Point of Carbon Dioxide