Chapter 1 States of Matter PDF

Summary

This document is a chapter on states of matter, covering topics such as atoms, molecules, ions, kinetic particle theory, melting, boiling and changing states. It includes diagrams and examples.

Full Transcript

Chapter 1: States of
Matter
Chapter 1: States of Matter
Chapter 1: State of Matter
1.1 Everything is made of particles

1.2 Solids, liquid, and gases

1.3 The particles in solids, liquids, and gases

1.4 Heating and cooling curves

1.5 A closer look at gas
1.1 Everything is made of particle
(P. 2)
1.1 Everything is made of particle
1.1 Everything is made of particle
Three are three types of particles that you will meet:

atoms
ions

molecule
1.1 Everything is made of particle
Atoms
The smallest particles that we cannot break down
further in chemical reactions
1.1 Everything is made of particle
Molecules
A particle consisting of two or more atoms joining
together
1.1 Everything is made of particle
Ions
(charged particles)
1.1 Everything is made of particle
Evidence of Particles

Cooking smells
We are sensing particles!

Why can you smell them even when you
are studying in your room?
1.1 Everything is made of particle

Diffusion
1.1 Everything is made of particle
 Diffusion is a mixing process that particles mix and spread by
colliding with other particles and bouncing off in all direction.
 Due to the random movement of particles, particles flow from a
region where they are at a high concentration to a region where they
are at a low concentration until all the particles are evenly mixed.
 It takes places in liquids and gases.
 1.1 Everything is made of particle
Why can you smell them even when you are studying in your room?

The ‘smells’ from cooking are due to the particles because they
mix and spread by colliding with the particles in air from a
region of high concentration (e.g.: kitchen) to a region of low
concentration (e.g. bedroom).
You can smell them when they reach your nose.
1.2 Solid, liquids, and gases
1.2 Solids, liquids, and gases

Properties Solid Liquid Gas
Fixed Shape ✔ ❌ ❌

Fixed Volume ✔ ✔ ❌
Other Cannot be take the shape spread out to
compressed of the container fill its container
1.2 Solids, liquids, and gases

Three States of Water
1.2 Solids, liquids, and gases
2 1 Melting: the
process that
occurs when a
solid turns into
liquid.
2 Melting Point: The
1 temperature at
which a substance
melts. Each
substance has a
specific melting
point.

Water has a
1.2 Solids, liquids, and gases
2 3 Evaporation:
The process that
occurs at the
3 surface of a
liquid as it turns
into a gas.
Evaporation can
1
occur at
temperatures
lower than the
boiling point of a
liquid.
1.2 Solids, liquids, and gases
2 5 4 Boiling:
The process
that occurs
3 when a liquid
turns into gas.
5 Boiling Point:
1 4 The temperature
at which a
substance boils.
Each substance
has a specific
boiling point.

Water has a
boiling point of
 1.2 Solids, liquids, and gases

★ Common Misconception about Boiling and
Evaporating ★

❌Only boiling involves changing liquid to gas.  Wrong

 Boiling and evaporating are both changes of state that
involve a liquid changing to a gas.

 Evaporation can occur at temperatures lower than the
boiling point of a liquid. (Imagine that you put a cup of
water in your room, the volume of water will slowly
reduce.)
1.2 Solids, liquids, and gases
2 5 6 Condensation:
The process
that occurs
3 when a gas
turns into a
liquid.
1 4

6
1.2 Solids, liquids, and gases
2 5 7 Freezing:
The process
that occurs
8 3 when a liquid
turns into a
solid.
8 Freezing Point:
1 4
The process
that occurs
7 6
when a gas
turns into a
liquid.
1.2 Solids, liquids, and gases

Exception
1.2 Solids, liquids, and gases
Other physical change – sublimation and deposition

Unlike regular ice, dry To create a layer of fog
ice (carbon dioxide) on stage
does not melt into a
liquid as it warms up
 1.2 Solids, liquids, and gases
Other physical change – sublimation and deposition

Sublimati
on

Depositi
on
Sublimation: The process that occurs when a solid turns into a gas without turning into a liquid
Deposition: The process that occurs when a gas turns into a solid without turning into a liquid.
Other example: Dry ice, Iodine, and Ammonium Chloride
 1.2 Solids, liquids, and gases
 Summary (Diagram)
1.3 The particles in solids, liquids, and
gases
1.3 The particles in solids, liquids, and gases

Kinetic Particle Theory
1.3 The particles in solids, liquids, and
gases
 Ice (Solid).

The particles are closely ___________
packed and arranged in a
regular
________________.
Attraction force between the particles arestrong
pattern/lattice ________.
They vibrate
________ to and fro but not moving apart.
When you apply pressure, the particle cannot move
closer, so the volumedoes not change
__________________.
1.3 The particles in solids, liquids, and
gases
 Water (Liquid).

The particles are closely ___________
packed and arranged
irregularly
________________.
Attraction force between the particles are weaker
________ than solid.
They
move about and slide past other
___________________________each
When you apply pressure, the particle cannot move closer, so
the volumedoes not change
__________________.
1.3 The particles in solids, liquids, and
gases
 Water Vapor (Gas).

The particles are _____________
far apart and arranged irregularly
____________.
There is almost no attractionbetween particles.
______________
They move freelycollide with each other, and bounce off in
_____________,
all direction.
The particles can move a lot closer, so the gas
__________________
can be pushed into a smaller volume.
1.3 The particles in solids, liquids, and
gases

Kinetic Particle Theory
Changing States
1.3 The particles in solids, liquids, and gases
Kinetic Particle Theory: Melting

 Using kinetic particle theory to explain melting:
1. When the solid is hotter, the particles takes in more heat energy and
transform to kinetic energy. The particles vibrate more, weakening
the force that hold the solid.
2. Thus, the spaces between the particles become larger, and the solid
expands.
3. When the temperature reaches its melting point, the particles
vibrate so much that they break free from their positions.
4. The solid turns liquid.
1.3 The particles in solids, liquids, and gases
Kinetic Particle Theory: Boiling

 Using kinetic particle theory to explain boiling:
1. When the liquid is heated, the particles get more heat energy and
change to kinetic energy. Thus, they vibrate faster. The move faster,
collide more often, and bounce further apart.
2. The spaces between the particles become larger so the liquid
expands.
3. When the temperature reaches its boiling point, the particles get
enough kinetic energy to overcome the forces between them.
4. The liquid becomes gas.
1.3 The particles in solids, liquids, and
gases
Reversing the changes

As a gas cools, its particles lose energy and move less quickly.
When they collide, they do not have enough energy to bounce
away.
So they stay close, and form a liquid.
1.3 The particles in solids, liquids, and
gases
Reversing the changes
(Heat energy is absorbed from the surroundings)

(Heat energy is released to the surrounding)
When a gas is cooled down, particles lose energy and move less vigorously. When they
collide, they do not have energy to bounce away. The distance between particles
 Checkpoint
Class Practice 2
1. Determine the physical state of the following substances in room temperature
Substance Melting Boiling State at
Point (°C) Point (°C) 20°C
Oxygen -219 -183 Gas

Mercury -39 357 Liquid

Ethanol -15 78 Liquid

Water 0 100 Liquid

Sodium 98 890 Solid

Table salt (sodium 801 1465 Solid
Solid
chloride)
Solid
Iron 1540 2900
Oxygen
2. Which substance has the lowest melting point?
Diamond 3550 4832
Diamond
3. Which substance has the highest melting point?
1.4 Heating and cooling curves
1.4 Heating and cooling curves
 A heating curve shows the changes of state occurring when the temperature
of ice is gradually increased.

liquid-gas

solid-liquid

Flat line: Changing State Steep Line: Changing Temperature
(no change in temperature) (no change in state)
1.4 Heating and cooling curves
 A cooling curve shows how the temperature of a substance changes as
you cool it down

liquid-gas

liquid-solid

Flat line: Changing State Steep Line: Changing Temperature
(no change in temperature) (no change in state)
1.4 Heating and cooling curves
 Impurity
 Changes of state
will occur over a
range of
temperature, not
sharply
 They lines
corresponding to
melting and
boiling will be
tilted, not flat.
 1.4 Heating and cooling curves
 Drawing Heating curve for water
1. Title

Heating curve for water
2. Label x and y axis

100
Temperature (°C)

3. Plot data point

Melting Point of Water: 0°C
Boiling Point of Water : 100
°C
0
4. Connect them

Time (minutes)
 Checkpoint
1.4 Heating and cooling curves 4
Question 1

17°C
115°C
liquid
 Checkpoint
1.4 Heating and cooling curves 4
Question 2
Draw a cooling curve of water
Cooling curve for water
Temperature (°C)

Time (minutes)
1.5 A closer look at gases
 1.5 A closer look at gases
 Gas pressure
 Gas particles exert a force on the wall during
the collision.
 The accumulation of all these forces
distributed over the area of the walls of the
container causes something we call
pressure.

 When you blow up a balloon, you fill it with air particles.
 Collide with the side of the balloon  Pressure
 1.5 A closer look at gases
 Gas pressure
 Increase / decrease the temperature of gas

 The same is true for all gases, at constant pressure,
 When you heat a gas, its volume increases
 When you cool a gas, its volume decreases.
 1.5 A closer look at gases
 Gas pressure
 Increase / decrease the pressure of gas

 The same is true for all gases, at constant temperature,
 An increase in pressure means a decrease in volume, for a
gas.
 A decrease in pressure means an increase in volume, for a
gas.
1.5 A closer look at gases
The Rate of diffusion of gases

Ammonia gas diffuses   Hydrogen chloride gas diffuses
1.5 A closer look at gases
 Which one travel faster?

 Thelower the mass of its particles, the
faster a gas will diffuse.

 Thelower its relative molecular mass,
the faster a gas will diffuse.
 1.5 A closer look at gases
The Rate of diffusion of gases

Ammonia gas diffuses to the right Hydrogen chloride gas diffuses to the right
The lower its relative molecular mass, the faster a gas will
diffuse.

Answer: D
Key Terms
Terms Definitions
Melting The process that occurs when a solid turns into liquid.
Melting point The temperature at which a substance melts. Each substance
has a specific melting point.
Boiling The process that occurs when a liquid turns into gas.
Boiling point The temperature at which a substance boils. Each substance
has a specific boiling point.
Evaporation The process that occurs at the surface of a liquid as it turns into
a gas. Evaporation can occur at temperatures lower than the
boiling point of a liquid.
Freezing The process that occurs when a liquid turns into a solid.
Freezing point The temperature at which a substance freezes. This has the
same value as the melting point.
Condensation The process that occurs when a gas turns into a liquid.
Sublimation The process that occurs when a solid turns into a gas without
turning into a liquid.
Deposition The process that occurs when a gas turns into a solid without
turning into a liquid.
Diffusion The mixing and spreading process that occurs when particles
move from a region of high concentration to low concentration.
Make sure you are able to:
 State the distinguishing properties of solids, liquids and gases
 Describe the structures of solids, liquids and gases in terms of
particle separation, arrangement and motion
 Describe changes of state in terms of melting, boiling,
evaporating, freezing and condensing
 Describe the effects of temperature and pressure on the
volume of a gas
 Explain changes of state in terms of kinetic particle theory,
including the interpretation of heating and cooling curves
 Explain, in terms of kinetic particle theory, the effects of
temperature and pressure on the volume of a gas
 Describe and explain diffusion in terms of kinetic particle
theory
 Describe and explain the effect of relative molecular mass on
the rate of diffusion of gases