Ms. Grasso's Online Chemistry Classroom
Home
About
Topics
Fundamental Skills
>
Accuracy vs. Precision
Percent Error
Significant Figures
Dimensional Analysis
Qualitative/Quantitative
Units
Matter
>
Classification of Matter
Properties
Phases
Mole
Gas Laws
>
Kinetic Molecular Theory
Boyle Law
Charles' Law
Gay-Lussac's LAW
Combined Gas Law
Avogardo's Law
Ideal Gas Law
Gas Density
Dalton's Law
Graham's Law
Liquid and Solids
Solutions
Concentrations
Colligative Properties
Atomic Structure
Periodic Table
Reactions
Stoichiometry
Acids & Bases
Thermodynamics
>
Definitions
Heating/Cooling Curve
Engineering Design
5 Assumption of the Kinetic Molecular Theory
(Ideal Gases)
1)
Gas can be
greatly expanded or compressed.
2)
Gases are in
constant, rapid random motion.
3)
Gas particles
do not attract or repel each other.
4)
A sample of gas
does not lose energy
on collisions with other gas particles. (these are called
elastic
collisions.)
5)
The higher the temperature, the higher the average kinetic energy of the particles.
Gas Properties
Home
About
Topics
Fundamental Skills
>
Accuracy vs. Precision
Percent Error
Significant Figures
Dimensional Analysis
Qualitative/Quantitative
Units
Matter
>
Classification of Matter
Properties
Phases
Mole
Gas Laws
>
Kinetic Molecular Theory
Boyle Law
Charles' Law
Gay-Lussac's LAW
Combined Gas Law
Avogardo's Law
Ideal Gas Law
Gas Density
Dalton's Law
Graham's Law
Liquid and Solids
Solutions
Concentrations
Colligative Properties
Atomic Structure
Periodic Table
Reactions
Stoichiometry
Acids & Bases
Thermodynamics
>
Definitions
Heating/Cooling Curve
Engineering Design