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Inertia
• To understand matter – you need to understand the concept of inertia
• This is the force(s) that keep something in rest • The idea is based on energy• This energy is divided into Kinetic and
Potential– Kinetic Energy (KE) – the energy of motion (KE = 1/2mv2)– Potential Energy (PE) – the energy of/at rest (PE = mgh)
• The car at the top of the hill has the potential to use energy if it move/falls– Its KE at rest = 0
• When it is descending – its KE increases, but its PE decreases• When it hits the bottom, its PE goes up again and its KE once
again equals zero
E = m c2
• This means that energy and matter are interchangeable if it is multiplied by the square of the speed of light (c)– C = 186 400 miles per second– C = 299 792 458 meters per second (rounded to 3.0 x 108 m/s)
Mass vs. Matter• Matter is something that occupies spacetime
and has length, width and height (and time)• Mass, on the other hand, is HOW MUCH
MATTER an object has at any one time– It is a measure of inertia– Measured in grams, milligrams or kilograms, etc.– The mass of an object does not change– Mass and Matter follow the Conservation Laws –
they can’t be created nor destroyed – only transformed
• Mass remains the same regardless of the phase of the matter
• However – the volume may change due to the substances density in that state of matter
1 kg 1 kg 1 kgSmall Volume Medium Volume High VolumeHigh Density Medium Density Low Density
• NOTE: Mass is NOT the same as Weight• Weight is mass with the effect of gravity
applied to it!– Wt. = mass x gravity (9.81 m/s2 on Earth)
• Mass does not change – gravity does change from place to place –
so weight will change
Rank Name Surface Gravity (meter pr. square second)
1 Sun 274
2 Jupiter 24.92
3 Neptune 11.15
4 Saturn 10.44
5 Earth 9.798
6 Uranus 8.87
7 Venus 8.87
8 Mars 3.71
9 Mercury 3.7
10 Moon 1.62
11 Pluto 0.58
Location
Distance from
Earth's center
(m)
Value of gm/s2
Earth's surface
6.38 x 106 m 9.8
1000 km above
surface7.38 x 106 m 7.33
2000 km above
surface8.38 x 106 m 5.68
3000 km above
surface9.38 x 106 m 4.53
4000 km above
surface1.04 x 107 m 3.70
5000 km above
surface1.14 x 107 m 3.08
6000 km above
surface1.24 x 107 m 2.60
7000 km above
surface1.34 x 107 m 2.23
8000 km above
surface1.44 x 107 m 1.93
9000 km above
surface1.54 x 107 m 1.69
10000 km
above surface
1.64 x 107 m 1.49
50000 km
above surface
5.64 x 107 m 0.13
Volume and Density
• Volume is how much space a certain mass occupies – typically calculated by multiplying width x height x length of the container– Measured in cm3, L, ml, etc.
• Density is how much mass is compacted into a space – In other words, how closely packed are the atoms
of the matter– D = mass / volume– Answers will be in g/ml, g/L, etc.
Types/Phases of Matter
• The type or phase of matter is dependent upon the KE in the particle’s of that matter
• All particles (atoms or molecules) have KE• They move by rotating, vibrating or translating
(going in a straight line)• So, the amount of KE determines the phase of
the matter– Particle KE is affected by things like temperature
and pressure
1. PLASMA• On the scale of KE, this phase/type of matter
has the highest amount
• In fact, it has so much, the electrons get ripped off the atom’s nucleus – leaving plasma
• Example is lightning or the surface of the sun
2. Gas
• Gases are next on the KE scale• A gas is defined as a type of matter that fills its
container, so its volume equals whatever it’s in• Gases expand to fill their container in a
process called diffusion• Since the atoms of a gas have a lot of space
between them, gases can be condensed or compressed– In fact – applying pressure and lowering the temp
of a gas will transform it into a liquid
• Gas particles – due to the space and KE – collide a lot– They collide with each other and the sides of the
container they are in– The collisions with the container we measure and
call pressure– The rate of collision is the gas pressure in thecontainer!(Of course – there’s different ways tomeasure this and it requires your veryfavorite topic – CONVERSIONS!)
3. Liquid
• Like gases, they fill the container they are in – so their volume is measured by their container– A liquid’s mass and volume can be measured
separately• However – there is less space between the
particles and they are less compressible
Key Terms with Liquids
• Viscosity – this is the rate or ability of a liquid to flow• Surface Tension – the top of a liquid has a
“skin” on top due to the attraction of the top layer of particles by the ones below it– This is what allows a drop to form a circular shape
• Vapor Pressure - due to evaporation, there will be some particles of a liquid in the atmosphere above it, and this changes the pressure above that liquid
• Capillary Action – this is the ability of a liquid to flow uphill!– It is achieved through electromagnetic forces!
4. Solids
• Much lower particle KE and this is limited mainly to vibrations and rotations
• Solids have a set volume, mass, shape and density
• Just like the other types of matter – solids are affected by temperature and pressure
• Two major solid structures . . . . .
• Amorphous Solid Structure – the particles in the solid are randomly set up or aligned– Ice is an example of this– You have to increase the pressure on ice to about
1 million atmospheres to get it into a crystalline structure!
• Crystalline Solid Structure – this is a 3 dimensional, organized
pattern of the solid’s particles – There are 7 major crystal structures
• This form of matter can only be achieved at absolute zero!–That’s -465oF, -273oC, or OoK!!!!!
• This means that there is NO KE in or between the matter’s particles
• Because of this – light sent through BEC will slow down to 7, that’s right, 7 mph!!!!!
• Temp lowered by using lasers
• Typically, the energy from the photon is absorbed and then released by the atom’s electrons
• But at Absolute Zero – there is no KE and the electrons are not moving – so they can’t absorb or release any energy!
6. Dark Matter
• Believe it or not, 80% of the matter in the universe is made up of something called dark matter
• It’s called this because we are in the “dark” about what it really is
• Fritz Zwicky (1934) proposed the existence of dark matter to explain the amount of gravity found in the galaxy– Since then, it has been reinforced by other
scientific experiments and mathematics
• Dark matter falls into the category of non-baryonic matter
• It contains particles called MACHOs, WIMPs (confirmed as existing in 2013!) and others
Phase Diagrams and Concepts• Phase diagram – a graph to show the phases of a
substance and at what temperature and pressure it goes into each phase
• Phase Changes:
From To Term Solid Liquid Liquification / Melting
Liquid Solid Solidification / Freezing
Liquid Gas/Vapor EvaporationGas/Vapor Liquid CondensationSolid Gas SublimationGas Solid Deposition /
Crystallization
• Temperature Scales (3 Most Common)
Fahrenheit Celsius KelvinH2O Boil Point 212o 100o 373o
Freeze Point 32 0 273
Absolute Zero -465 -273 0
Classifying MatterBaryonic Matter
(Observable Matter – 20% Universe)
Substances Mixtures
Element Compound Heterogeneous Homogeneous
-On Periodic -2+ elements -Separable by -Includes:Table -Molecules filtering, distilling Colloids and-Pure Form -Proportional or crystalizing Solutions-Single group make up -Suspension -Non-separableof Atoms -Emulsion
Matter Concepts:
• Element– The pure form of a substance– Found on the periodic table– Can be in any of the phases
mentioned!• Compound– A combination of 2 or more elements– Combination is in a ratio or proportional– Basically – a molecule
• Mixtures– 2 or more elements or compounds mixed together– Heterogeneous – a mixture that can be easily separated
through filtration, distillation or crystallization– Suspension – a temporary mixture where the particles
separate out on their own (like dirt in water)– Emulsion – a suspension of two liquids – will separate
(mayonnaise)
– Homogeneous Mixture – non-separable, remain mixed completely and equally
– Includes Colloids – a solution with large particles dissolved in it, like milk or paint
– Includes Solutions – a solution is made up of the solute (what is dissolved) and the solvent (what the solute is dissolved in)• Example: Salt Water Salt is the Solute and water is
the solvent
Chemical and Physical Properties
Physical ChemicalDoes not change with phase May change in a reactionDensity, Mass Atomic StructureBoiling/Freezing Points FlammabilityColor OxidationHardness ReactivityOdor, Taste BondingTexture RadioactivityMallibilityDuctile
Pressure – and CONVERSIONS!• Pressure
– At sea level:
• 1 atmosphere (atm) = 14.7 psi = 760 mmHg = 760 torr = 101 325 Pascals (Pa) = 101 325 N/m2 = 10.1325 kPa = 10.1325 N/cm2 = 1.01325 bars
*For every 33 feet underwater – add another atm of pressure*STP is standard temperature and pressure and equals 1 atm and 0o C
The End. . . . . . .Next up Atoms in Detail and
the Periodic Table!