What are the three states of matter?
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What are the three states of matter?
The three states of matter are:
solid
liquid
gas
Define the kinetic theory of matter.
The kinetic theory of matter is a model that attempts to explain the properties of the three states of matter.
What is the particle arrangement in a solid?
The particle arrangement in a solid is:
a fixed pattern (lattice structure)
minimal space between particles
Describe the arrangement of particles in a liquid.
The arrangement of particles in a liquid is:
closely packed
randomly arranged
free to flow past each other
True or False?
Solids have a fixed shape and volume.
True.
Solids have a fixed shape and volume due to the fixed arrangement of their particles.
Define the term compressibility in gases.
The term compressibility in gases refers to the ability of gases to be compressed due to the large spaces between the particles.
What is the definition of density in matter?
The definition of density in matter is the mass per unit volume of a substance, with solids generally having the highest density and gases the lowest.
State the molecular arrangement in a gas.
The molecular arrangement in a gas is:
far apart
randomly arranged
moving freely in all directions
Which state of matter has the highest energy particles?
The state of matter that has the highest energy particles is a gas.
Describe the behaviour of a liquid in terms of its volume.
A liquid has:
a fixed volume
no fixed shape
takes the shape of its container
Identify the particle arrangement that represents a solid.
The particles in a solid have a fixed structure in a lattice formation. This is the first diagram.
Identify the particle arrangement that represents a gas.
In a gas, the particles are spaced far apart and in a random arrangement. This is the third diagram.
Assuming all the particles have the same mass, which object has a greater density?
The object on the right is more dense because it has more mass per unit volume.
Define density.
Density is the mass per unit volume of an object.
True or False?
A bucket filled with feathers will have a higher mass than the same bucket filled with sand.
False.
A bucket filled with feathers will have a lower mass than the same bucket filled with sand because feathers have a lower density than sand.
State the equation for density.
The equation for density is
Where:
= density, measured in kilograms per metre cubed (kg m-3)
= mass, measured in kilograms (kg)
= volume, measured in metres cubed (m3)
What units are used for density if the mass is in grams and volume in cubic centimetres?
The units used for density if the mass is measured in grams and volume in cubic centimetres are grams per cubic centimetre (g cm–³).
What units are used for density if mass is in kilograms and volume in cubic meters?
The units used for density if the mass is measured in kilograms and volume in cubic meters are kilograms per cubic metre (kg m–³).
Which is less dense: gases or liquids?
Gases are less dense than liquids because they tend to have more particles (and therefore more mass) per unit volume.
Convert 125 m to cm.
125 m converted to cm is 12,500 cm
How are cubic centimetres converted to cubic metres?
Cubic centimetres are converted to cubic metres by:
dividing by 1003
multiplying by 1 × 10⁻⁶ m³
What is absolute zero?
Absolute zero is the lowest possible temperature, equal to 0 K or −273 °C.
Define absolute zero.
Absolute zero is the temperature at which the molecules in a substance have zero kinetic energy.
True or False?
It is possible to have a temperature lower than 0 K.
False.
It is not possible to have a temperature lower than 0 K.
How do you convert degrees Celsius to kelvin?
To convert degrees Celsius to kelvin, use the formula
Where:
= temperature, measured in kelvin (K)
= temperature, measured in degrees Celsius (°C)
How do you convert kelvin to degrees Celsius?
To convert kelvin to degrees Celsius, use the formula
Where:
= temperature, measured in degrees Celsius (°C)
= temperature, measured in kelvin (K)
What does a temperature of 300 K correspond to in degrees Celsius?
A temperature of 300 K corresponds to 27 °C.
True or False?
A change in temperature of 1 K is equal to a change in temperature of 1 °C.
True.
A change in temperature of 1 K is equal to a change in temperature of 1 °C.
State the equation for the average kinetic energy of the particles in a gas.
The equation for the average kinetic energy of the particles in a gas is
Where:
= kinetic energy, measured in joules (J)
= Boltzmann constant, measured in joules per kelvin (J K-1)
= absolute temperature, measured in kelvin (K)
True or False?
Absolute temperature is directly proportional to average kinetic energy.
True.
Absolute temperature is directly proportional to the average kinetic energy of the molecules.
State the value of the Boltzmann constant with its units.
Boltzmann constant, , is 1.38×10−23JK−1
Define absolute temperature.
Absolute temperature is measured on the Kelvin scale, starting from absolute zero, where molecules have zero kinetic energy.
What is the relationship between temperature and kinetic energy?
The absolute temperature of a body is directly proportional to the average kinetic energy of the molecules within the body.
Which formula connects the average speed of particles and the temperature of a gas?
The formula that connects the average speed of particles and temperature of a gas is
Where:
= average speed of gas particles, measured in metres per second (m s-1)
= Boltzmann constant, measured in joules per kelvin (J K-1)
= mass of particle, measured in kilograms (kg)
= absolute temperature, measured in kelvin (K)
Define internal energy.
Internal energy is defined as the sum of the total kinetic energy and the total intermolecular potential energy of the particles within a substance.
What happens to the internal energy of a substance when it gains thermal energy?
The internal energy of a substance increases when it gains thermal energy.
True or False?
Temperature is a measure of the average potential energy of the molecules.
False.
Temperature is a measure of the average kinetic energy of the molecules.
What is the relationship between the thermal and kinetic energy of molecules?
The relationship between the thermal and kinetic energy of molecules is:
an increase in thermal energy leads to an increase in the average kinetic energy of molecules
this causes them to move at higher speeds
How does potential energy change during the thermal expansion of a substance?
Potential energy increases during the thermal expansion of a substance as the particles get further away from each other.
What is the effect of a change in the potential energy of molecules on temperature?
There is no effect of a change in the potential energy of the molecules on the temperature.
How does the temperature of a substance change during a change of state?
The temperature of a substance does not change during a change of state.
What are the two energy types that make up internal energy?
The two energy types that make up internal energy are:
kinetic energy
potential energy
Which type of energy changes in a substance due to a change in temperature?
The type of energy that changes in a substance due to a change in temperature is kinetic energy.
Identify which gas in the diagram is being heated.
The gas on the right is being heated because it has higher kinetic energy.
State the resultant temperature of both regions of the substance in the diagram.
The resultant temperature of both regions of the substance in the diagram is 50 C.
Define thermal equilibrium.
Thermal equilibrium is when two substances in contact with each other no longer exchange heat energy as they both reach an equal temperature.
True or False?
Thermal energy is always transferred from a colder region to a hotter region.
False.
Thermal energy is always transferred from a hotter region to a cooler region.
What happens to the temperatures of two regions in thermal contact?
The temperatures of two regions in thermal contact will change as follows:
the hotter region will cool down
the cooler region will heat up
until they reach the same temperature
What does thermal equilibrium mean in terms of energy transfer between two regions?
Thermal equilibrium means there is no longer thermal energy transfer between the two regions.
What is required for two regions to reach thermal equilibrium?
For two regions to reach thermal equilibrium they need to be in thermal contact.
State the direction of energy flow when ice is placed in room temperature water.
The direction of thermal energy flow when ice is placed in room temperature water is from the water to the ice.
What determines the final temperature in thermal equilibrium between water and ice?
The final temperature in the thermal equilibrium between water and ice depends on the initial temperature difference between the water and the ice.
Which direction does thermal energy flow when two regions are at different temperatures?
When two regions are at different temperatures, energy flows from the hotter to the cooler region.
State how the internal energy changes from the bottom of the diagram to the top.
From the bottom of the diagram to the top the internal energy increases because the particles in the gas have more kinetic energy than in a solid.
What is a change of state?
A change of state is when matter changes from one phase (solid, liquid, or gas) into another.
Define melting.
Melting is when a substance changes from a solid to a liquid as it absorbs thermal energy.
What is freezing?
Freezing is when a substance changes from a liquid to a solid as it releases thermal energy.
What does vaporisation mean?
Vaporisation is when a substance changes from a liquid to a gas as it absorbs thermal energy.
Define condensation.
Condensation is when a substance changes from a gas to a liquid as it releases thermal energy.
How does thermal energy affect the molecules during a phase change?
Thermal energy affects the potential energy, so the spacing between the molecules changes during a phase change.
Which phase changes occur at the boiling point of a substance?
At the boiling point of a substance, vaporisation and condensation occur.
State the boiling and freezing points of water.
The boiling point of water is 100 °C and the freezing point is 0 °C.
What happens when thermal energy is released from water vapour at 100 °C?
When thermal energy is released from water vapour at 100 °C, it condenses back into liquid water.
Define specific heat capacity.
Specific heat capacity is the amount of energy required to change the temperature of 1 kg of a substance by 1 K (or 1°C).
What is the equation for the thermal energy transferred, , to a substance?
The equation for thermal energy transferred, , to a substance is .
Where:
= mass of substance, measured in kilograms (kg)
= specific heat capacity of substance, measured in joules per kilogram per kelvin (J kg-1 K-1)
= change in temperature, measured in kelvin (K) or degrees Celsius ()
True or False?
The higher the specific heat capacity of a substance, the faster it heats up or cools down.
False.
The higher the specific heat capacity of a substance, the longer it takes to warm up or cool down.
What does represent in the equation ?
represents the specific heat capacity of a substance measured in J kg–1 K–1.
How does the mass of an object affect the thermal energy needed to change its temperature?
The greater the mass of an object, the more thermal energy needed to change its temperature.
Which phase changes require thermal energy to be absorbed by a substance?
The phase changes that require thermal energy to be absorbed by a substance are melting and vaporisation.
What is the definition of in relation to specific heat capacity?
is the change in temperature in kelvin or degrees Celsius (K or °C).
What does the specific heat capacity indicate about a substance?
The specific heat capacity indicates how much energy is required to change the temperature of a substance.
The diagram shows the heating of ice and then water with a Bunsen burner. State the temperature of the water as it is melted.
The temperature of the water as it is melted is 0 C.
Define specific latent heat.
Specific latent heat is defined as the amount of energy required to change the state of 1 kg of a substance without changing its temperature.
State the equation for thermal energy transferred in terms of specific latent heat, .
The equation for thermal energy transferred in terms of specific latent heat is
Where:
= thermal energy transferred, measured in joules (J)
= mass of substance, measured in kilograms (kg)
= specific latent heat, measured in joules per kilogram (J kg–1)
What does represent in the equation ?
represents the specific latent heat of a substance in J kg–1.
How is the specific latent heat of fusion defined?
The specific latent heat of fusion is defined as the energy required to change 1 kg of a substance from solid to liquid (or vice versa) at constant temperature.
What does the specific latent heat of vaporisation describe?
The specific latent heat of vaporisation describes the energy required to change 1 kg of a substance from liquid to gas (or vice versa) at constant temperature.
Which is higher: the specific latent heat of vaporisation or fusion?
The specific latent heat of vaporisation is always higher than the specific latent heat of fusion for a given substance.
What happens to the intermolecular forces of a substance during vaporisation?
The intermolecular forces of a substance during vaporisation need to be completely overcome.
Define specific latent heat of fusion, .
The specific latent heat of fusion, , is the energy absorbed when 1 kg of solid melts to become liquid at a constant temperature or the energy released when 1 kg of liquid freezes to become solid at a constant temperature.
What is the temperature gradient equation in terms of heat flow?
The temperature gradient equation in terms of heat flow is
Where:
= flow of thermal energy per second, measured in watts (W)
= thermal conductivity of the material, measured in watts per metre per kelvin (W m–1 K–1)
= temperature difference, measured in kelvin (K) or degrees Celsius (C)
= thickness of material, measured in metres (m)
True or False?
Metals are the best thermal conductors.
True.
Metals are the best thermal conductors because they have a high number of free electrons.
How is thermal energy transferred in conduction?
Thermal energy is transferred in conduction through atomic vibrations.
What is the main mechanism of thermal energy transfer in solids?
The main mechanism of thermal energy transfer in solids is conduction.
Which of the following materials has the highest thermal conductivity air, rubber, or copper?
Copper has the highest thermal conductivity among air, rubber, and copper.
Define the term free electron collision in conduction.
Free electron collision is a mechanism in conduction where free electrons in metals collide with atoms, transferring energy.
What is the role of delocalised electrons in thermal conduction in metals?
Delocalised electrons increase the rate of energy transfer in thermal conduction in metals, making metals good thermal conductors.
Draw an arrow to show the direction of the movement of the air particles due to the heat from the fire.
The air moves vertically upward above the fire as the hot gas expands and becomes less dense.
Draw an arrow to show the direction of the movement of the cooler, denser air in the convection current.
The cooler, denser air moves vertically downward away from the heat of the fire.
What is the main way that energy is transferred through gases and liquids?
Convection is the main way that heat travels through liquids and gases.
Define thermal convection.
Thermal convection is the transfer of thermal energy through the movement of a fluid due to variations in density.
Define a convection current.
A convection current is the motion that results when hot fluid rises and cooler fluid sinks, creating a circular flow.
True or False?
Convection can occur in solids.
False.
Convection cannot occur in solids because the particles are unable to travel relative to one another.
What happens to the density of a fluid when it is heated?
The density of a fluid decreases when it is heated because the fluid expands.
How is thermal energy transferred during convection?
Thermal energy is transferred during convection by the movement of groups of atoms or molecules in a fluid as a result of variations in density.
Which states of matter does convection occur in?
Convection occurs in liquids and gases.
What is an example of convection in nature?
Examples of convection in nature are:
atmospheric convection (which leads to winds and sea breezes)
thunderheads (clouds that appear before a storm)
convection currents in the Earth's mantle (leading to continental drift)
ocean currents
solar convections (leading to sunspots and solar flares)
Describe what happens in a beaker of water with potassium permanganate during convection.
In a beaker of water with potassium permanganate, the heated water rises, carrying the dissolved purple crystal, while cooler water sinks, forming a convection current.
What causes convection currents in the Earth's mantle?
Convection currents in the Earth's mantle are caused by the movement of heated and cooled material, leading to continental drift.
What is thermal radiation?
Thermal radiation is heat transfer by means of electromagnetic radiation, usually in the infrared region.
True or False?
Thermal radiation requires matter to propagate.
False.
Thermal radiation does not require matter to propagate and can travel through a vacuum.
Define black-body radiation.
Black-body radiation is the thermal radiation emitted by all bodies, which can be in the form of infrared light, visible light, or other wavelengths depending on the temperature.
What is a perfect black body?
A perfect black body is an object that absorbs all of the radiation incident on it and does not reflect or transmit any.
How does the surface colour of an object affect thermal radiation?
The surface colour of an object affects thermal radiation because:
dark, dull objects are better at emitting and absorbing radiation
light, shiny objects are worse at emitting and absorbing radiation
What happens to the thermal radiation of an object as its temperature increases?
The thermal radiation of an object increases as its temperature increases.
Which type of electromagnetic waves are most commonly emitted as thermal radiation?
The electromagnetic waves that are most commonly emitted as thermal radiation are infrared.
What is the relationship between temperature and the peak wavelength of emitted radiation?
The relationship between temperature and the peak wavelength of emitted radiation is they are inversely proportional.
How does a meteorite dissipate thermal energy on the Moon?
A meteorite dissipates thermal energy on the Moon via conduction (to the Moon's surface) and radiation (infrared photons travelling through the vacuum of space).
State the factors affecting the amount of thermal radiation emitted by an object.
The factors affecting the amount of thermal radiation emitted by an object are:
surface colour
texture
surface area
What is apparent brightness?
Apparent brightness is the intensity of radiation received on Earth from a star.
Define luminosity.
Luminosity is the total power output of radiation emitted by a star.
What unit is apparent brightness measured in?
Apparent brightness is measured in watts per metre squared (W m−2).
What unit is luminosity measured in?
Luminosity is measured in units of watts (W).
True or False?
Luminosity and apparent brightness are the same.
False.
The luminosity is the total power output of the star, whereas the apparent brightness is what is measured by an observer on Earth.
State the inverse square law of radiation.
The inverse square law of radiation is
Where:
= apparent brightness of light observed on Earth, measured in watts per metre squared (W m-2)
= luminosity of light source, measured in watts (W)
= distance between star and Earth, measured in metres (m)
How is the apparent brightness of a star related to the distance to the observer?
The apparent brightness of a star decreases with the square of the distance to the observer.
Which factors determine the apparent brightness of a star?
The factors that determine the apparent brightness of a star are:
the luminosity of the star
the distance to the observer
What happens to the intensity of light when the distance to the observer is doubled?
The intensity of light is reduced to one-fourth when the distance to the observer is doubled.
Define the Stefan-Boltzmann Law.
The Stefan-Boltzmann Law states that the total energy emitted by a black body per unit area per second is proportional to the fourth power of the absolute temperature of the body.
What does the Stefan-Boltzmann Law calculate?
The Stefan-Boltzmann Law calculates the total power radiated by a perfect black body based on its temperature and surface area.
State the equation for the Stefan-Boltzmann Law.
The equation for the Stefan-Boltzmann law is
Where:
= total power emitted across all wavelengths, measured in watts (W)
= Stefan-Boltzmann constant
= surface area of body, measured in metres squared (m2)
= absolute temperature of a body, measured in kelvin (K)
What is the Stefan-Boltzmann constant, ?
The Stefan-Boltzmann constant, , is a physical constant equal to 5.67×10−8 Wm−2K−4.
What is the formula to calculate the luminosity of a star using the Stefan-Boltzmann Law?
The formula for the Stefan-Boltzmann law is
Where:
= luminosity of the star, measured in watts (W)
= radius of star, measured in metres (m)
= Stefan-Boltzmann constant
= absolute temperature of a body, measured in kelvin (K)
What is the relationship between the temperature and power emitted by a black body?
The relationship between the temperature and power emitted by a black body is that power is directly proportional to temperature to the power of four.
What is the surface area formula for a spherical object?
The surface area formula of a spherical object is
Where:
= radius of the sphere, measured in metres (m)
True or False?
The Stefan-Boltzmann Law can be used to calculate the luminosity of celestial objects.
True.
The Stefan-Boltzmann Law is often used to calculate the luminosity of celestial objects, such as stars.
What factors determine the total power radiated by a black body?
The factors that determine the total power radiated by a black body are absolute temperature and surface area.
Which equation is used to find the radius of a star if its luminosity and temperature are known?
The equation is used to find the radius of a star if its luminosity and temperature are known is
Where:
= radius of star, measured in metres (m)
= luminosity of the star, measured in watts (W)
= Stefan-Boltzmann constant
= absolute temperature of a body, measured in kelvin (K)
What does Wien’s displacement law state?
Wien’s displacement law states that the black body radiation curve for different temperatures peaks at a wavelength that is inversely proportional to the temperature.
Define the quantity in Wien’s displacement law.
The quantity in Wien's displacement law is the wavelength at which radiation is emitted at the greatest intensity.
State the equation for Wien’s displacement law.
The equation for Wien’s displacement law is
Where:
= surface temperature of an object, measured in kelvin (K)
True or False?
The peak wavelength of a black body decreases as temperature increases.
True.
The peak wavelength of a black body decreases as temperature increases.
What does Wien’s displacement law indicate about an object's temperature and wavelength at its peak intensity?
Wien’s displacement law indicates that the higher the temperature of an object, the shorter the wavelength at the peak intensity.
How does the radiation intensity change as an object heats up?
The radiation intensity increases for every wavelength as an object heats up.
Define the quantity in the equation for Wien’s displacement law.
The quantity in the equation for Wien’s displacement law is the surface temperature of an object in kelvin (K).
What is the relationship between wavelength and temperature in Wien’s displacement law?
The relationship between wavelength and temperature in Wien’s displacement law is inverse proportionality.