Kinetic Particle Theory
(Kinetic Model of Matter)
You are expected to…
•
describe the three states of matter and explain their interconversion in terms of the kinetic part...
Recall: What is Matter?
•
Objects that have mass and occupy space
are called matter.
Question:
Is this glass bottle
empty?
No. It is filled with air!
Recall: How do we classify matter?
• What are the three
states of matter?
Matter
• Do you know that there
are more than ...
Recall: Properties of each state of
matter
Solids
Shape
fixed shape
Volume
fixed volume
Ability to be
compressed
Liqu...
What is matter made of?
Let’s see what the
philosophers have
to tell us…
Democritus
“…if one were to break up matter
into smaller and smaller piece,
there would come a point when it
could no long...
Aristotle
“Matter has a continuous
composition and that it can be
broken down into smaller and
smaller pieces forever.”
Ar...
Who is
right?
Democritus
or Aristotle?
Let’s
vote!
Let’s see who’s right…
Brownian Motion
Brownian Motion
Think, Pair, Share
• Describe the motion of pollen grains in water and the smoke
particles in air.
– Movin...
Brownian Motion
• The constant and random motion of small solid particles in
fluids (liquids and gases) is called Brownian...
Particles that make up of matter
• Using a scanning tunneling microscope (STM), scientists are
now able to observes the pa...
Particles that make up of matter
Iron on Copper
So, who’s right?
In conclusion…
Matter is made up of discrete
(separate not continuous) particles
which are in constant an...
Kinetic Model of Matter (Kinetic
Particle Theory)
• Based on observations, a model (Kinetic Model of
Matter) which explain...
Remembered this?
Solids
Shape
fixed shape
Volume
fixed volume
Ability to be
compressed
Liquids
Gases
no fixed shape...
Kinetic Model of Matter (Kinetic
Particle Theory)
Video: Things to look out for
•Arrangement of
particles
•Motion of particles
•Attractive forces
between particles
•Speed o...
Particles in a Solid
Arrangement Closely packed together in a
fixed, regular pattern, occupying
minimum space.
This result...
Particles in a Solid
Movement
Cannot move freely but vibrate
about fixed positions.
Held in position by very strong
attra...
Particles in a Liquid
Arrangement
Randomly arranged with
the particles slightly
further apart as
compared to that of
soli...
Particles in a Liquid
Movement
Particles slide past one
another
Free to move about but
confined within the
vessel contain...
Particles in a Gas
Arrangement
Very far apart. Particles
are randomly arranged
and will occupy any
available space.
This ...
Particles in a Gas
Movement
Particles have very little
attraction between them
and move about
randomly at a very high
spe...
The states of matter
• The relative strength of the intermolecular
forces between the particles differ between
the differe...
The states of matter
• The relative distances between the particles
also differ between the different states of
matter
A Summary…
• Matter is anything that has mass and occupies
space
• All matter can exist in 3 physical states,
– Solid
– Li...
Solid
Liquid
Gas
Fixed
Fixed
Takes the
volume of its
container
Shape
Fixed
Takes the shape
of the part of
the cont...
A Summary…
So why do solids, liquids and gases
have such different properties?
Kinetic Particle Theory
Kinetic Particle Theory
• Matter is made of tiny discrete particles
(atoms or molecules), which are in constant
and random...
Evidence of Kinetic Particle Theory?
• Diffusion – particles moving randomly from a
region of high concentration to lower
...
Thinking Question:
• Now that you know the arrangement
/movement of particles in solids, liquids and
gases, can you compar...
Thinking Question:
• If a solid is usually more dense than a liquid,
why does ice float on water?
Change in State of Matter
Matter
Solid
Melting
Liquid
Freezing
Boiling
Gas
Condensation
Deposition
Sublimation
Change in State of Matter
gas
Temperature / °C
liquid-gas
liqu
id
boiling point
boiling
solid-liquid
sol
id
melting...
Change in State of Matter
Temperature / °C
gas
liquid-gas
condensation
point
condensation
liquid
solid-liquid
freezin...
Role play 
Melting
• When a solid is heated, the particles absorb thermal
energy. The particles gain kinetic energy and start to
vibr...
Melting
• In other words, during phase II (melting), thermal energy
supplied is used to do work to overcome the strong for...
Freezing
• When a solid is cooled, the particles release
thermal energy. The particles lose kinetic
energy and vibrate slo...
Boiling
• Particles in a liquid are held by strong attractive
forces.
• When a liquid is heated, the particles absorb ther...
Summary of today’s lesson
• All matter is made up of a tiny discrete
particles in constant random motion
• The particles i...
Thinking question
• A liquid expands and changes into gas during
boiling. Does it mean that the particles in a
liquid beco...
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Kinetic model of matter

Published on: Mar 3, 2016
Published in: Technology      
Source: www.slideshare.net


Transcripts - Kinetic model of matter

  • 1. Kinetic Particle Theory (Kinetic Model of Matter)
  • 2. You are expected to… • describe the three states of matter and explain their interconversion in terms of the kinetic particle theory. • show understanding that Brownian motion provides evidence for the kinetic molecular model of matter. • explain everyday effects of diffusion in terms of particles, e.g. the spread of perfumes and tea/coffee grains in water. • describe qualitatively the molecular structure of solids, liquids and gases, relating their properties to the forces and distances between molecules and to the motion of the molecules.
  • 3. Recall: What is Matter? • Objects that have mass and occupy space are called matter.
  • 4. Question: Is this glass bottle empty? No. It is filled with air!
  • 5. Recall: How do we classify matter? • What are the three states of matter? Matter • Do you know that there are more than three states of matter? - Plasma - Bose-Einstein condensate Solid Liquid Gas
  • 6. Recall: Properties of each state of matter Solids Shape fixed shape Volume fixed volume Ability to be compressed Liquids Gases no fixed shape no fixed shape fixed volume no fixed volume incompressible incompressible compressible
  • 7. What is matter made of? Let’s see what the philosophers have to tell us…
  • 8. Democritus “…if one were to break up matter into smaller and smaller piece, there would come a point when it could no longer be divided further.” He called this smallest indivisible bit of matter ‘atom’ (from the Greek word atomos which means indivisible). Greek Philosopher (460 B.C. – 370 B.C.)
  • 9. Aristotle “Matter has a continuous composition and that it can be broken down into smaller and smaller pieces forever.” Aristotle was highly regarded and most people followed his school of thought about the nature of matter Philosopher (384 B.C. – 322 B.C.)
  • 10. Who is right? Democritus or Aristotle? Let’s vote! Let’s see who’s right…
  • 11. Brownian Motion
  • 12. Brownian Motion Think, Pair, Share • Describe the motion of pollen grains in water and the smoke particles in air. – Moving constantly in a random or irregular motion • What caused these motions? – Pollen grains and smoke particles were bombarded by water molecules and air particles respectively which themselves were moving constantly and randomly.
  • 13. Brownian Motion • The constant and random motion of small solid particles in fluids (liquids and gases) is called Brownian motion. • Brownian motion provided the evidence of molecular motion & proved the existence of particles that cannot be observed with a normal microscope. • Just for info: Brownian motion is first observed in 1827 by Robert Brown. Through the microscope, he observed the motion of pollen grains suspended in water. However, he was unable to provide an explanation for Brownian motion.
  • 14. Particles that make up of matter • Using a scanning tunneling microscope (STM), scientists are now able to observes the particles that make up matter. Gold atoms
  • 15. Particles that make up of matter Iron on Copper
  • 16. So, who’s right? In conclusion… Matter is made up of discrete (separate not continuous) particles which are in constant and random motion. In other words… Democritus (460 B.C. – 370 B.C.) Democritus’ proposal that matter is made up of tiny particles is right!
  • 17. Kinetic Model of Matter (Kinetic Particle Theory) • Based on observations, a model (Kinetic Model of Matter) which explains the nature of matter was proposed. • The Kinetic Model of Matter (Kinetic Particle Theory) states that matter is made of tiny discrete particles (atoms or molecules), which are in constant and random motion. • Energy due to movement = Kinetic energy
  • 18. Remembered this? Solids Shape fixed shape Volume fixed volume Ability to be compressed Liquids Gases no fixed shape no fixed shape fixed volume no fixed volume incompressible incompressible compressible Kinetic Model of Matter can be used to explain the properties for each state of matter
  • 19. Kinetic Model of Matter (Kinetic Particle Theory)
  • 20. Video: Things to look out for •Arrangement of particles •Motion of particles •Attractive forces between particles •Speed of particles (if any)
  • 21. Particles in a Solid Arrangement Closely packed together in a fixed, regular pattern, occupying minimum space. This results in solids having high densities
  • 22. Particles in a Solid Movement Cannot move freely but vibrate about fixed positions. Held in position by very strong attractive forces This explains why solids have fixed volumes and shapes
  • 23. Particles in a Liquid Arrangement Randomly arranged with the particles slightly further apart as compared to that of solids. This results in liquids having relatively high densities
  • 24. Particles in a Liquid Movement Particles slide past one another Free to move about but confined within the vessel containing it. Have attractive forces between particles. This explains why liquids have fixed volume but will take the shape of vessels containing them.
  • 25. Particles in a Gas Arrangement Very far apart. Particles are randomly arranged and will occupy any available space. This results in gases having relatively very low densities
  • 26. Particles in a Gas Movement Particles have very little attraction between them and move about randomly at a very high speed.. This explains why gases have no fixed volume and shape, and why they are highly compressible.
  • 27. The states of matter • The relative strength of the intermolecular forces between the particles differ between the different states of matter
  • 28. The states of matter • The relative distances between the particles also differ between the different states of matter
  • 29. A Summary… • Matter is anything that has mass and occupies space • All matter can exist in 3 physical states, – Solid – Liquid – Gas depending on the temperature and pressure of their surroundings
  • 30. Solid Liquid Gas Fixed Fixed Takes the volume of its container Shape Fixed Takes the shape of the part of the container it fills Takes the shape of the container Density High Medium Low Expansion on heating Little Moderate Large Ease of compression Difficult Difficult Easy Volume
  • 31. A Summary… So why do solids, liquids and gases have such different properties? Kinetic Particle Theory
  • 32. Kinetic Particle Theory • Matter is made of tiny discrete particles (atoms or molecules), which are in constant and random motion. • Energy due to movement = Kinetic energy
  • 33. Evidence of Kinetic Particle Theory? • Diffusion – particles moving randomly from a region of high concentration to lower concentration • in gases • in liquids • in solids???
  • 34. Thinking Question: • Now that you know the arrangement /movement of particles in solids, liquids and gases, can you compare the rates of particle movement (diffusion) in liquids and gases, and explain why it is so?
  • 35. Thinking Question: • If a solid is usually more dense than a liquid, why does ice float on water?
  • 36. Change in State of Matter
  • 37. Matter Solid Melting Liquid Freezing Boiling Gas Condensation Deposition Sublimation
  • 38. Change in State of Matter gas Temperature / °C liquid-gas liqu id boiling point boiling solid-liquid sol id melting point I melting II III IV V Time / s
  • 39. Change in State of Matter Temperature / °C gas liquid-gas condensation point condensation liquid solid-liquid freezing point freezing I II III IV solid V Time / s
  • 40. Role play 
  • 41. Melting • When a solid is heated, the particles absorb thermal energy. The particles gain kinetic energy and start to vibrate faster and move further apart . At a certain temperature known as the melting point, the particles have enough kinetic energy to overcome the strong forces of attraction holding the particles together in the solid. The particles start to break away from one another and the solid becomes a liquid. • At the liquid state, the particles start to roll and slide over one another
  • 42. Melting • In other words, during phase II (melting), thermal energy supplied is used to do work to overcome the strong forces of attraction holding the particles together in the solid. Temperature / °C boiling point melting point I II III IV V Time / s
  • 43. Freezing • When a solid is cooled, the particles release thermal energy. The particles lose kinetic energy and vibrate slower. At a certain temperature known as the freezing point, the particles no longer have enough kinetic energy to overcome the strong forces of attraction holding them together. The particles start to come together in a regular arrangement and the liquid becomes a solid.
  • 44. Boiling • Particles in a liquid are held by strong attractive forces. • When a liquid is heated, the particles absorb thermal energy. The particles gain kinetic energy and slide over each other more rapidly. • Eventually, the particles gain sufficient energy to overcome the attractive forces between the particles in a liquid and move far apart rapidly in all directions.
  • 45. Summary of today’s lesson • All matter is made up of a tiny discrete particles in constant random motion • The particles in a solid, liquid and gas are arranged differently – so they have different properties • During change of state, the particles gain or lose energy, resulting in a change in the arrangement of the particles
  • 46. Thinking question • A liquid expands and changes into gas during boiling. Does it mean that the particles in a liquid become bigger and change their shape? • The liquid expands because the particles move farther apart, so the space between them is bigger. The particle remain the same in size and shape.

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