Cambridge O Level Chemistry 1.1 Solids, Liquids and Gases PDF

Summary

This document is an outline for learning about the Kinetic Theory, States of Matter, and Pressure & Temperature in gases as part of Cambridge O Level Chemistry. It includes diagrams and summaries of these topics.

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Cambridge O Level Chemistry Your notes

1.1 Solids, Liquids and Gases
Contents
Kinetic Theory
States of Matter
Pressure & Temperature in Gases

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Kinetic Theory
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Solids, Liquids & Gases
Solids
Solids have a fixed volume and shape and they have a high density
The atoms vibrate in position but can’t change location
The particles are packed very closely together in a fixed and regular pattern
Liquids
Liquids also have a fixed volume but adopt the shape of the container
They are generally less dense than solids (an exception is water), but much denser than gases
The particles move and slide past each other which is why liquids adopt the shape of the container and
also why they are able to flow freely
Gases
Gases do not have a fixed volume and fill their container
Gases have a very low density
Since there is a lot of space between the particles, gases can be compressed into a much smaller
volume
The particles are far apart and move randomly and quickly (around 500 m/s) in all directions
They collide with each other and with the sides of the container (this is how pressure is created inside a
can of gas)
Summary of the Properties of Solids, Liquids and Gases

State Solid Liquid Gas

Density High Medium Low

Arrangement of particles Regular pattern Randomly arranged Randomly arranged

Vibrate around fixed Move quickly in all
Movement of particles Move around each other
positions directions

Energy of particles Low energy Greater energy Highest energy

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2D diagram
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Exam Tip
You can explain the differences in the physical properties of solids, liquids and gases by referring to the
arrangement and motion of particles. This is called the kinetic theory of matter.

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States of Matter
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State Changes
Melting
Melting is when a solid changes into a liquid
Requires heat energy which transforms into kinetic energy, allowing the particles to move
Occurs at a specific temperature known as the melting point (m.p.)
Boiling
Boiling is when a liquid changes into a gas
Requires heat which causes bubbles of gas to form below the surface of a liquid, allowing for liquid
particles to escape from the surface and within the liquid
Occurs at a specific temperature known as the boiling point (b.p.)
Freezing
Freezing is when a liquid changes into a solid
This is the reverse of melting and occurs at exactly the same temperature as melting, hence the
melting point and freezing point of a pure substance are the same. Water, for example, freezes and
melts at 0 ºC
Requires a significant decrease in temperature (or loss of thermal energy) and occurs at a specific
temperature
Evaporation
Evaporation occurs when a liquid changes into a gas and occurs over a range of temperatures
Evaporation occurs only at the surface of liquids where high energy particles can escape from the
liquid's surface at low temperatures, below the b.p. of the liquid
The larger the surface area and the warmer the liquid surface, the more quickly a liquid can evaporate
Condensation
Condensation occurs when a gas changes into a liquid on cooling and it takes place over a range of
temperatures
When a gas is cooled its particles lose energy and when they bump into each other they lack the
energy to bounce away again, instead they group together to form a liquid
Sublimation
Sublimation occurs when a solid changes directly into a gas
This only happens to a few solids, such as iodine or solid carbon dioxide
The reverse reaction also happens and is called desublimation or deposition

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Your notes

Interconversion of solids, liquids and gases

Exam Tip
Questions on the particle theory of matter show interconversion of states with a reversible arrow: ⇌,
which means that the process can go forwards and backwards. Read the question carefully and pick
the direction of the change in state that the question refers to.
Sublimation is no longer part of the syllabus, but you can see how it fits in on the interconversion
diagram with the other state changes.

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State Changes & Kinetic Theory
When substances are heated, the particles absorb thermal energy which is converted into kinetic Your notes
energy. This is the basis of the kinetic theory of matter
Heating a solid causes its particles to vibrate more and as the temperature increases, they vibrate so
much that the solid expands until the structure breaks and the solid melts
On further heating, the now liquid substance expands more and some particles at the surface gain
sufficient energy to overcome the intermolecular forces and evaporate
When the b.p. temperature is reached, all the particles gain enough energy to escape and the liquids
boils
These changes in state can be shown on a graph called a heating curve
Cooling down a gas has the reverse effect and this would be called a cooling curve
These curves are used to show how changes in temperature affect changes of state
The horizontal sections occur when there is a change of state but there is no change in temperature

A heating curve showing the states, state changes and temperature changes as time
progresses

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A cooling curve is like a heating curve, but is the mirror image

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Pressure & Temperature in Gases
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Pressure & Temperature in Gases
A change in temperature or pressure affects the volume of gases
As the air inside a hot air balloon is heated up, it expands and the balloon gets bigger
This is because the volume of a gas increases as its temperature increases

As temperature increases gas volume increases. The density decreases as the volume increases so the
balloon rises.
If you have a gas stored inside a container that is squeezed, the pressure increases as you decrease the
volume

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This is what happens in a bicycle pump
As you compress the bicycle pump the high pressure allows you to inflate a tire
You can feel the force of the high pressure if you put your finger on the end of the pump Your notes

Pressure increases as volume decreases in a bicycle pump
Kinetic Theory
Gaseous particles are in constant and random motion
The pressure that gas creates inside a closed container is produced by the gaseous particles hitting
the inside walls of the container

Moving particles of gas colliding with each other and the container walls

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An increase in temperature increases the kinetic energy of each particle, as the heat energy is
transformed to kinetic energy, so they move faster
As the temperature increases, the particles in the gas move faster, impacting the container's walls Your notes
more frequently
If the container walls are flexible and stretchy then the container will get bigger and bigger, just like the
hot air balloon!
If the container is made smaller, then the gas particles hit the wall more frequently
So when there is a decrease in volume this causes an increase in gas pressure

Molecules collide more frequently with the container walls when the pressure is increased

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