UNIT: THERMAL ENERGY AND STATES OF MATTER
I THE FOUR STATES OF MATTER ARE:
SOLID
LIQUID
GAS
PLASMA
In a plasma, the particles (atoms and molecules) have been torn apart—the electrons jump around—very excited!
II THE KINETIC THEORY OF MATTER
A. (helps to explain why matter behaves the way it does)
B. Main points:
1. all matter is made of particles (atoms/molecules)
2. the particles are always in motion
3. the higher the temperature, the faster they move
4. at same temp, more massive move slower
III SOLIDS (See chart—comparison of 3 states of matter)
A. CRYSTALINE SOLIDS
Solids in which the atoms are arranged in a regular, repeating pattern.
Regular—some sort of order
Repeating—happens over and over
KEY IDEA: What we see on the outside depends on how the atoms pack together.
B. AMORPHOUS SOLIDS (Gk. a = “without” morphe = “form”
Solids in which there in NO crystal structure.
Ex: silly putty
LAB: CRYSTAL GROWTH
LAB: POLYMER LAB
IVLIQUIDS (see comparison chart)
VISCOSITY—a liquid’s resistance to flow. (how gooey or runny something is)
More viscous—gooey
Less viscous—runny
HOMEWORK: VISCOSITY
CLASS ACTIVITY: VISCOSITY STATIONS
V GASES
Gases, unlike some students, obey rules of behavior (their behavior is predictable)
A. Boyle’s Law
Formal: volume and pressure are inversely related.
Informal: the more you squeeze, the smaller it gets.
The less you squeeze, the bigger it gets.
Ex: balloon in vacuum chamber
B. Charles’ Law
Formal: temperature and volume and directly related.
Informal: hot gas spreads out Ex. Soap in microwave
Cold gas shrinks (balloon in refrigerator)
C. Gay- Lussac’s Law
Formal: Temperature and pressure are directly related
Informal: If you squeeze gas, it gets hot (fire syringe)
If you release pressure, it feels cold (air leaving tire)
D. APPLICATIONS OF THE GAS LAWS
1. The hot air balloon
VI CHANGES OF STATE:
Any substance can change state if we add or take away enough energy.
All pure substances have known melting (freezing) and boiling (condensation) points— temperatures at which they change state.
Temperature is a measure of the average kinetic energy of a substance. In other words, when we heat some thing so the temperature rises, the particles making it up are moving faster and faster.
a. melting—solid to liquid
b. vaporization—(liquid to gas)
evaporation—at the surface of the liquid
boiling—within the liquid itself
c. condensation—gas to liquid
d. freezing—liquid to solid
e. sublimation—from solid directly to gas
LAB—PHASE CHANGES OF WATER
(PHASE CHANGES #1)
LAB—PHASE CHANGES #
(PHASE CHANGES OF SULFUR)