Chapter 4 States of Matter. Key Vocabulary Matter Matter Solid Solid Liquid Liquid Viscosity...
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Transcript of Chapter 4 States of Matter. Key Vocabulary Matter Matter Solid Solid Liquid Liquid Viscosity...
Chapter 4Chapter 4
States of MatterStates of Matter
Key VocabularyKey Vocabulary
MatterMatter SolidSolid LiquidLiquid ViscosityViscosity GasGas Surface tensionSurface tension Thermal energyThermal energy TemperatureTemperature heatheat
MeltingMelting FreezingFreezing VaporizationVaporization CondensationCondensation PressurePressure Buoyant forceBuoyant force Archimedes’ PrincipleArchimedes’ Principle DensityDensity Pascal’s principlePascal’s principle
FoldableFoldable
Pyramid FoldPyramid FoldSide 1Side 1
SolidSolidSide 2Side 2
LiquidLiquidSide 3Side 3
GasGas
What is matter?What is matter?
Anything that has mass and takes up Anything that has mass and takes up spacespace
Give me some examples of matterGive me some examples of matter
States of MatterStates of Matter
3 common states3 common statesSolid, Liquid, GasSolid, Liquid, Gas
1 rare state1 rare statePlasma- found in stars, lightning, and neon Plasma- found in stars, lightning, and neon
lightslightsCommon in the universe, but uncommon on earthCommon in the universe, but uncommon on earth
SolidsSolids Matter with a definite shape and volumeMatter with a definite shape and volume Particles are moving in vibration patterns that Particles are moving in vibration patterns that
are not seen by the naked eyeare not seen by the naked eye Amorphous SolidsAmorphous Solids
Have no definite crystal structureHave no definite crystal structure Examples: rubber, plastic, glassExamples: rubber, plastic, glass
Crystalline SolidsCrystalline Solids Particles arranged in repeated 3-D structures called Particles arranged in repeated 3-D structures called
crystalscrystals Examples: Sodium Chloride (cube), diamond Examples: Sodium Chloride (cube), diamond
(pyramidal) (pyramidal) Other examples: Sugars, sand, snowOther examples: Sugars, sand, snow
ConnectionConnection
Amorphous solids are like lemons in a Amorphous solids are like lemons in a bowlbowl
Crystalline solids are like eggs in a cartonCrystalline solids are like eggs in a carton
What is a Liquid?What is a Liquid?
Has a definite volume, but no definite Has a definite volume, but no definite shapeshape
Takes the shape of any container it is Takes the shape of any container it is poured intopoured into
Particles move freely and allow shape Particles move freely and allow shape changeschanges
ViscosityViscosity
A liquid’s resistance to flowA liquid’s resistance to flowHigh viscosity means that the liquid is very High viscosity means that the liquid is very
thick and does not run wellthick and does not run wellExample: molassesExample: molasses
Low viscosity means that the liquid pours Low viscosity means that the liquid pours easilyeasilyExample: waterExample: water
GasesGases
Matter that does not have a definite shape Matter that does not have a definite shape or volumeor volume
Particles are farther apart than in any Particles are farther apart than in any other common stateother common state
Can be expanded or compressedCan be expanded or compressedDecreasing the volume (compressing) Decreasing the volume (compressing)
moves the molecules closer togethermoves the molecules closer together
What is energy?What is energy?
The ability to do work or make a changeThe ability to do work or make a changeWe will focus on the ability to make a change We will focus on the ability to make a change
nownowAbility to do work comes after the holidaysAbility to do work comes after the holidays
The energy associated with motion is The energy associated with motion is called called kinetic energykinetic energy
The chance that an object might exert The chance that an object might exert energy is energy is potential energypotential energy
Thermal EnergyThermal Energy
The total potential The total potential and kinetic energyand kinetic energy
Depends on the Depends on the amount of energy in a amount of energy in a substance as well as substance as well as how much of a how much of a substance is presentsubstance is present
Temperature Temperature
The average kinetic The average kinetic energy of a substanceenergy of a substance
What is the difference What is the difference between temperature between temperature and thermal energy?and thermal energy?
HeatHeat
The movement of thermal energy from an The movement of thermal energy from an object with more kinetic energy to an object with more kinetic energy to an object with less kinetic energyobject with less kinetic energy
When a substance gains heat, it gets When a substance gains heat, it gets warmerwarmer
When a substance is cooled, it looses heatWhen a substance is cooled, it looses heatWhat happens to the particles when they are What happens to the particles when they are
cooled?cooled?
Specific HeatSpecific Heat
The amount of energy The amount of energy required to raise the required to raise the temperature of 1g of a temperature of 1g of a substance by 1 substance by 1 degree Celsiusdegree Celsius
Surface TensionSurface Tension
The uneven forces acting on the surface of The uneven forces acting on the surface of a liquida liquid
Cause the liquid to act as though there is a Cause the liquid to act as though there is a thin film across the surfacethin film across the surface
This unseen force allows bugs to float on This unseen force allows bugs to float on the surface of a liquidthe surface of a liquid
Believe it or not, you can actually float a Believe it or not, you can actually float a needle on water due to surface tensionneedle on water due to surface tension
Surface Tension LabSurface Tension Lab
Question: Can you place more drops of water on Question: Can you place more drops of water on the surface of a penny than what will simply fit the surface of a penny than what will simply fit on the face of the penny?on the face of the penny?
Hypothesis: If…Then…BecauseHypothesis: If…Then…Because 1 drop at a time place water onto the surface of 1 drop at a time place water onto the surface of
a pennya penny When the surface tension breaks, record the When the surface tension breaks, record the
number of drops in the data section of your number of drops in the data section of your science journalscience journal
Repeat 3 times for accuracyRepeat 3 times for accuracy
State ChangesState Changes
Get out your pyramid foldableGet out your pyramid foldableWe are going to complete the sides of the We are going to complete the sides of the
pyramid in the next few minutespyramid in the next few minutes
MeltingMelting
When an object absorbs When an object absorbs thermal energythermal energy
The increase in thermal The increase in thermal energy causes the energy causes the substance to change from substance to change from solid to liquidsolid to liquid
Amorphous solids do not Amorphous solids do not change like other solidschange like other solids They simply get softer and They simply get softer and
moldablemoldable See figure 10 on page 109See figure 10 on page 109
FreezingFreezing
When a substance When a substance looses thermal energy looses thermal energy
The substance The substance changes from liquid to changes from liquid to solidsolid
The temperature at The temperature at which a substance which a substance freezes is known as freezes is known as freezing pointfreezing point
VaporizationVaporization
When a liquid gains thermal energyWhen a liquid gains thermal energyChanges from a liquid to a gasChanges from a liquid to a gasExample: Water boiling into vaporExample: Water boiling into vapor2 types of vaporization2 types of vaporization
Boiling- air bubbles form within the liquid and Boiling- air bubbles form within the liquid and rise to the surfacerise to the surface
Evaporation- water at the surface vaporizes, Evaporation- water at the surface vaporizes, occurs at temperatures below the boiling pointoccurs at temperatures below the boiling point
Vaporization DemoVaporization Demo
I will place one drop of rubbing alcohol on I will place one drop of rubbing alcohol on the back of your handthe back of your hand
In your science journal, record your In your science journal, record your observations for the next 2 minutesobservations for the next 2 minutes
What happened?What happened?
CondensationCondensation
Decrease in thermal Decrease in thermal energy rearranges the energy rearranges the pattern of a gaspattern of a gas
Causes the gas to Causes the gas to turn into liquidturn into liquid
SublimationSublimation
Change from solid form to Change from solid form to a gas state without ever a gas state without ever becoming a liquidbecoming a liquid
Example: Example: At room temperature At room temperature
carbon dioxide is a gascarbon dioxide is a gas Dry Ice is the solid form of Dry Ice is the solid form of
carbon dioxidecarbon dioxide At room temperature, dry At room temperature, dry
ice instantly turns into a ice instantly turns into a gasgas
PressurePressure
Equal to the force exerted on an object Equal to the force exerted on an object divided by the area over which the force is divided by the area over which the force is exertedexerted
Measured in SI Unit:Measured in SI Unit:Force is measured in Newtons (N)Force is measured in Newtons (N)Area is measured in square meters (mArea is measured in square meters (m22))Therefore pressure is N/mTherefore pressure is N/m22 or a unit called the or a unit called the
Pascal (Pa)Pascal (Pa)
Atmospheric PressureAtmospheric Pressure
The air around you presses on your with a great The air around you presses on your with a great force, you are just used to the pressure so you force, you are just used to the pressure so you don’t feel itdon’t feel it
Atmospheric Pressure on earth is 101.3Pa at Atmospheric Pressure on earth is 101.3Pa at sea levelsea level This is equal to 101,000 N This is equal to 101,000 N
Air pressure enables you to drink from a strawAir pressure enables you to drink from a straw Sucking on the straw eliminates the air in the strawSucking on the straw eliminates the air in the straw The air pressure then pushes the liquid up the straw The air pressure then pushes the liquid up the straw
where there is no longer air pressure pushing where there is no longer air pressure pushing downwarddownward
Using a StrawUsing a Straw
Why don’t you feel the pressure?Why don’t you feel the pressure?
The atmosphere pushes with equal force The atmosphere pushes with equal force on the outside of your body as the liquid in on the outside of your body as the liquid in your body pushes outwardyour body pushes outward
As altitude increases, air pressure As altitude increases, air pressure decreasesdecreasesWhen you rise in an airplane or go up a When you rise in an airplane or go up a
mountain your ears pop. Why?mountain your ears pop. Why?
Buoyant ForceBuoyant Force
An upward force that presses against an An upward force that presses against an object being pushed downward by air object being pushed downward by air pressure and weightpressure and weight
If the buoyant force is equal to the If the buoyant force is equal to the combined forces, the object will floatcombined forces, the object will float
Archimedes’ Principle- the buoyant force Archimedes’ Principle- the buoyant force of an object is equal to the weight of the of an object is equal to the weight of the fluid displaced by the objectfluid displaced by the object
DensityDensity
The density of an object is crucial as to whether The density of an object is crucial as to whether it will floatit will float
Density is mass divided by the volumeDensity is mass divided by the volume An object that is less dense than the fluid will An object that is less dense than the fluid will
floatfloat An object that is more dense than the fluid will An object that is more dense than the fluid will
sinksink An object that is equally as dense as the fluid An object that is equally as dense as the fluid
will neither sink nor float, but remain in the same will neither sink nor float, but remain in the same position in the waterposition in the water
So how do things float?So how do things float?
If density determines the buoyancy of an If density determines the buoyancy of an object, what two factors must be object, what two factors must be considered to make an object float?considered to make an object float?
How do you need to modify these factors How do you need to modify these factors to make an object float?to make an object float?
Effects of Volume and TemperatureEffects of Volume and Temperature
As volume decreases, pressure increasesAs volume decreases, pressure increases As Temperature increases, pressure increases As Temperature increases, pressure increases
alsoalso Bernoulli’s Principle Demo- observe and record Bernoulli’s Principle Demo- observe and record
in your science journalin your science journal What will happen when I place the ping-pong ball on What will happen when I place the ping-pong ball on
the air current?the air current? What will happen if I tilt the air current?What will happen if I tilt the air current? What will happen if I decrease the air pressure?What will happen if I decrease the air pressure?
Chapter Experiment: Build a BoatChapter Experiment: Build a Boat
Get into your science teamsGet into your science teamsQuestion: How does the volume of water Question: How does the volume of water
displaced by a ship relate to the mass of displaced by a ship relate to the mass of cargo a ship can carry? Can you create a cargo a ship can carry? Can you create a ship that can float on water and carry ship that can float on water and carry cargo?cargo?
Hypothesis: If…then…becauseHypothesis: If…then…becauseProcedures: Write your own procedures Procedures: Write your own procedures
for this labfor this lab
Build-A-Boat ConclusionsBuild-A-Boat Conclusions
A ship can only carry a certain amount of A ship can only carry a certain amount of cargo safelycargo safely
It can carry less high-density cargo than It can carry less high-density cargo than high-density cargohigh-density cargo