1. September 10th Agenda and Bell Work
Bell Work : Get your book to identify the 3 states of matter.
Video: States of matter
Begin Chapter 3 States of Matter

2. Chapter 3: States of Matter
INTRO TO
STATES OF MATTER

3. Solids Liquids and Gases
Objectives:
To classify materials into their state of matter using their shape and volume.
To explain the behavior of gases, liquids, and solids using the tools of kinetic theory and forces of attraction.
Vocabulary
Solid
Liquid
Gas
Kinetic energy

4. Identifying the States of Matter
In a few minutes you will be able to fill this out. Think about the relationship between the states of matter throughout this lesson.

5. Solids Liquids and Gases
Describing the States of Matter
You learned about classifying matter based upon it’s uniformity of composition, by its physical properties, and by its chemical properties.
Materials can also be classified by their state of matter.
These physical properties of a substance are: solids, liquids, and gases based on whether their shapes and volumes are defined or variable.

6. Solids Liquids and Gases
Remember, shape is determined by being able to measure height, length and width.
Volume is determined by how much space the matter takes up, determined by multiplying these together or using a graduated cylinder.
The description of shape and volume can be discovered and measured, but what is to be understood is that these are entirely due to the relationship of the molecules and atoms of the matter’s make-up.

7. The Basic Atom; All matter is made of Atoms

8. The Distance Matters…
Matter can have its atoms close together….

9. The Distance Matters… Or Far Apart…
And it’s still the same matter, just in a different state.

10. We’re going to focus on the shape and volume first.

11. Solid: is the state of matter that has a definite shape AND volume.
Usually the shape of a solid or its volume is not influenced by its container.
Shape and volume of a solid can only be changed by doing something to it physically like cutting it in half.
Atoms of solids are tightly compacted.

12. Solid

13. Solids Liquids and Gases
Liquid: the state of matter in which a material has a definite volume but NOT a definite shape.
Remember the video: If we have 250ml of water we can place it in a variety of differently shaped containers.
The volume won’t change but the shape changes.
Atoms of liquids are close together but have more freedom to move and are arranged in random unlike solids where there is a definite arrangement of atoms.

14. Liquid
Regardless of the shape a liter is always a liter.

15. Solids Liquids and Gases
Gas: Is the state of matter in which a material has NO definite shape OR volume.
Gas atoms and molecules are so spread apart that they take the shape and volume of their container.
Gas atoms are highly mobile, spread out, and not arranged in any definite pattern.
Consider helium inside a balloon.
The atoms’ arrangement is only restricted by the balloon’s dimensions (its volume).

16. Gas
Balloons can have the same number of atoms in different volumes and shapes.
When their atoms are released into the air they can go everywhere…

17. Think about a helium tank…
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Think about a helium tank…
How big of a balloon can 1 helium tank fill?
Or how many balloons can one tank fill?
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The question I have for you is how can so much gas be inside such a small container?
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18. Concept Check: Definite or Indefinite?
Shape
Volume
Solid
Definite
Liquid
Indefinite
Gas

19. Solids Liquids and Gases
FYI: There are 2 other states of matter, the 4th & 5th states…
All matter we are exposed to on earth is either solid, liquid or gas.
Most matter in the universe (99% of it) is actually in a state of very high temperature such as is found on stars, like our sun.
This 4th state of matter is called Plasma.
Plasma = an electrically conducting medium in which there are roughly equal numbers of positively and negatively charged particles, produced when the atoms in a gas become ionized.
A 5th state of matter exists at very cold temperatures nearly close to -273 degrees C.
This 5th state is called Bose-Einstein Condensate or BEC.
This state of matter behaves like a single particle, able to conduct electricity with nearly no electrical resistance and, in liquid form, electricity flows indefinitely.

20. Identifying the States of Matter
Look at your notes outline.
The four terms correspond to one of the four letters.
Match the word with the letter and write this on your notes outline.
30 seconds.
definite shape
definite volume
variable shape
variable volume

21. 2 other states
of matter
Reinforce the basics….

22. Understanding States of Matter
To begin to understand why certain elements at room temperature are in their respective states…
Why is copper a solid,
Why is mercury a liquid,
& why is helium a gas …
You need to know about kinetic energy.

23. Solids Liquids and Gases
Kinetic Energy: the energy an object has due to MOTION.
Kinetic energy is then a.k.a. the energy of motion.
A boulder balanced on a cliff has no motion therefore no kinetic energy.
A ball flying through the air has kinetic energy.
A car driving down the highway has kinetic energy.
A car driving faster has more.
How much kinetic energy depends on how fast the object is moving.
Basically, the faster an object moves, the more kinetic energy the object has.
Leads us to the Kinetic Theory of Matter

24. Which has more kinetic energy?
Baseball # 1 Or
Baseball #2

25. Kinetic Theory of Matter
…States ALL particles of matter are in constant motion, regardless of state.
In any state of matter all the particles are in motion.
In theory, even particles that make up a solid are in motion.
They are vibrating.
Particles that make up a liquid are also in motion, bouncing around hitting each other.
But what is the difference between a theory and a law?
Theory: A well-tested explanation for a SET of observations or experimental results
Law: A statement that summarizes patterns found in nature
Why would this be considered a theory and not a law?

26. …ALL particles of matter are in constant motion.
If a pitcher throws a baseball, the ball is in motion, yes.
But so are the particles inside the ball as well as particles in the air the ball is moving through.
Even if the baseball isn’t moving, the kinetic theory says that all matter, regardless of the object’s overall motion, is in some kind of motion.

27. The atoms inside a baseball aren’t really moving around that much though.
They are actually just vibrating in one spot.
Kinetic theory says that they are moving though.
If we were to isolate atoms of the baseball we could see them vibrating...even when the baseball is standing still.

28. Solids Liquids and Gases
Explaining the behavior of Matter
Particles everywhere are always moving.
The difference between different states of matter is how fast the particles are moving and how far apart they are.
Solids have their atoms packed tightly together and the atoms are moving slowly.
Gases have atoms that are spread very far apart and the atoms are moving fast.
Liquids fall in the middle. The atoms are moving faster than in solids but slower than the atoms in gases.

29. Forces at Work
There are fundamental laws that you should consider.
Like charges repel.
Opposite charges attract.
If you notice, atoms have negatives on the outside and positives on the inside.
This provides two scenarios that can be influenced by Kinetic Energy.
If atoms are moving slow then the attractive force of nucleus to electron cloud between different atoms overcomes the repulsive force.
If the atoms are moving quickly though, the attractive force never has a chance to establish a bond. ? ?

30. Solids Liquids and Gases
Explaining the behavior of GASES
Particles that compose gases are always in motion bouncing off of one another.
As one particle hits the other it effects its kinetic energy by causing it to speed up or slow down due to the collision.
Think of billiard balls on a pool table except the balls never stop rolling.
There are forces of attraction among particles in all matter.
But in gases the particles are moving so fast that the force of attraction is weak and almost non-existent.

31. Solids Liquids and Gases
Kinetic Theory of Gases
Constant motion of particles in a gas allows it to fill a container of any shape or size.
This is because the particles are always rebounding off one another.
If there were a small hole in the container the gas escapes because some particles are knocked out through the hole.
Make a prediction:
Spray some perfume in the back corner of the room.
What should happen?
The kinetic theory says that soon we’ll all be able to smell the perfume.

32. Kinetic Theory of Gases: Summary of the 3 main points
Because gas particles are moving so fast…
Particles in a gas are in constant random motion.
The motion of one particle is unaffected by the motion of other particles unless the particles collide.
Forces of attraction among particles in a gas can be ignored under ordinary condition.

33. Particles in a gas are in constant random motion.
The motion of one particle is unaffected by the motion of other particles unless the particles collide.

34. The motion of one particle is unaffected by the motion of other particles unless the particles collide.
Collision

35. Forces of attraction among particles in a gas can be ignored under ordinary condition.+ -2 + -2
Water molecules are attracted to each other like magnets. When slow enough (cool) the water molecules bond together to form liquids and solids.
But when they are moving in the air with enough speed and distance they are unaffected by each other.

36. Solids Liquids and Gases
Gases in motion…
Regardless if you can see them or not, the particles are their moving incredible quick.

37. Solids Liquids and Gases
Explaining the Behavior of Liquids
Particles in liquids have kinetic energy too.
They just have less kinetic energy than those of gases.
Liquid particles are more closely packed than those of a gas.
In a liquid some particles are in constant motion while others are attracting one another.
A liquid takes the shape of its container because particles in a liquid can flow to a new location.
The volume of a liquid is constant because forces of attraction keep the particles close together.

38. Solids Liquids and Gases
Explaining the Behavior of Solids
Solids have a definite volume and shape because particles in a solid vibrate around fixed locations.
Vibration is a repetitive back and forth motion
They seem solid because the atoms in solids have strong attractions to one another, which restrict their motion
These are called bonds, but we will cover this soon enough
Atoms vibrate but do not exchange places with other atoms due to forces of attraction in close proximity.

39. Why are solids in motion?- - - + + + - + + + - - - -
Because even stationary matter has moving parts in its atoms.

40. Increasing temperature
ICE
H2O as a Solid = Ice: Low Kinetic Energy
Add energy (Heat to melting)
WATER
H2O as a Liquid = Water: Medium Kinetic Energy
Add More energy (Heat to boiling)
H2O as a Gas = Water Vapor: A lot of Kinetic Energy
WATER VAPOR

41. Using the Kinetic Theory…
Explain this phenomenon. If there is a natural gas leak in the basement of a 10-story building occupants will soon notice by the foul odor. However, if that same building had a water leak someone would have to go there to detect it.
Questions 1-6 pg 74.

42. Summary
The Kinetic Theory states that all matter is in constant motion, regardless is it’s moving.
States of matter are physical properties that explain the matter’s level of kinetic energy.
The states (solid, liquid, or gas) can be defined by whether the matter has defined volume & shape or not.
The behaviors of solids, liquids and gases are related to how much kinetic energy the matter has and how closely the atoms are packed together.

43. In class quiz… Split a piece of paper with your neighbor…
This is has been changed to a 25pts due to your outstanding participation
List 3 states of matter.
Which state has a definite shape and volume?
Which state has a definite volume but not a definite shape?
Which state has no definite shape or volume?
Which state is capable of expanding?
Which state has the least motion of its particles?
Which state has the most motion of its particles?

44. Bell work Activity Copy onto your ‘Bell work’ paper the following question. Answer it and save it to turn in.
September 16, 2009
Q: How are solids, liquids, and gases alike? How are they different? Remember the connecting circles from yesterday’s lecture?

45. End of section 3.1 Study these notes…
Your accountability for this information does not end when you leave today.

46. Bell Work September 17, 2009 Q: As it pertains to kinetic theory
Describe how the molecules of gases, liquids, and solids are behaving.