Add to collection(s) Add to saved
  1. Science
  2. Astronomy
  3. Particle Physics

AP Chemistry – Kinetic Molecular Theory behavior of gases.

advertisement 
AP Chemistry – Kinetic Molecular Theory
Kinetic Molecular Theory - Mathematical model that explains the macroscopic
behavior of gases.
Assumptions:
1. Particle size – gas molecules so small compared to space between them that the volume of
partices is assumed to be zero.
2. Particle interaction – gas molecules exert no forces on each other.
3. Particle motion – Straight line motion, collisions are elastic
When solving problems using the KMT equations:
1.
2.
3.
4.
R will be 8.31 J/mol.K ( J = kgm2/s2, thus 8.31 kgm2/s2molK)
Masses (m) must be in kg
Mw will be in kg/mol
u (avg speed) will be in m/s
Examples:
1) Find the average speed of a nitrogen molecule in air at room temperature (25oC).
2) At what temperature would an oxygen molecule have the same velocity as that of SO2 at 300. K?
3) The temperature of the CO2 atmosphere near the surface of Venus is 475 oC. Calculate the avg KE per
mole of CO2 molecules on Venus.
Related documents
lecture 5 - kinetic theory
lecture 5 - kinetic theory
lecture 5 - kinetic theory
lecture 5 - kinetic theory
Name _________________________ Science Date _________________________
Name _________________________ Science Date _________________________
42a: Kinetic Theory of Gases
42a: Kinetic Theory of Gases
Class Notes
Class Notes
Lecture 2-Kinetic Theory of Gases 1 - Pressure Temperature and Internal Energy
Lecture 2-Kinetic Theory of Gases 1 - Pressure Temperature and Internal Energy
chapter-17-temperature-and-the-kinetic-theory-of-gases
chapter-17-temperature-and-the-kinetic-theory-of-gases
Atkins
Atkins
물화 pdf
물화 pdf
peter atkins - 11TH EDITION ATKIN'S PHYSICAL CHEMISTRY 2018-oxford press (2018)
peter atkins - 11TH EDITION ATKIN'S PHYSICAL CHEMISTRY 2018-oxford press (2018)
Download
advertisement