G10 Science Q4- Week 2- Molecular Kinetic Theory.ppt
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About This Presentation
Grade 10 SCIENCE- quarter four-week 2- Kinetic Molecular theory
Slide Content
Kinetic-Molecular
Theory
PREPARED BY: TYPE YOUR NAME HERE
Theory
PREPARED BY: TYPE YOUR NAME HERE
S9MT -IIj - 20
Investigate the relationship between:
1 volume and pressure at constant
temperature of a gas
2 volume and temperature at constant
pressure of a gas
3 explains these relationships using the
kinetic molecular theory
Investigate the relationship between:
1 volume and pressure at constant
temperature of a gas
2 volume and temperature at constant
pressure of a gas
3 explains these relationships using the
kinetic molecular theory
Kinetic-Molecular Theory Postulates
1.Matter is made of particles
containing mass.
2.Particles of substances are in
constant, rapid, and random motion.
3.Collisions are either elastic or
inelastic.
4.Temperature measures average
kinetic energy.
1.Matter is made of particles
containing mass.
2.Particles of substances are in
constant, rapid, and random motion.
3.Collisions are either elastic or
inelastic.
4.Temperature measures average
kinetic energy.
Kinetic-Molecular Theory Postulates
5.Particles exert
intermolecular forces.
These forces are “non-
existent” in gases.
These forces are strong
in liquids and solids.
5.Particles exert
intermolecular forces.
These forces are “non-
existent” in gases.
These forces are strong
in liquids and solids.
Comparing Two Theories
Atomic Theory
Everything made of
particles
All atoms of an element
are identical
Atoms are neither created
nor destroyed
A specific compounds has
the same ratio of atoms
Kinetic-Molecular Theory
Particles have mass
Particles are constantly
moving
Particles collide
Particles exert forces
Temperature measures
kinetic energy
Atomic Theory
Everything made of
particles
All atoms of an element
are identical
Atoms are neither created
nor destroyed
A specific compounds has
the same ratio of atoms
Kinetic-Molecular Theory
Particles have mass
Particles are constantly
moving
Particles collide
Particles exert forces
Temperature measures
kinetic energy
Postulate 1
Matter is made of particles
containing mass.1 AMU = 1.66054
x 10
-24
g
Proton—1 AMU (1.0073)
Neutron—1 AMU (1.0087)
Electron—Without Mass (5.486 x 10
-4
AMU)
Matter is made of particles
containing mass.1 AMU = 1.66054
x 10
-24
g
Proton—1 AMU (1.0073)
Neutron—1 AMU (1.0087)
Electron—Without Mass (5.486 x 10
-4
AMU)
Postulate 2
Particles of substances are in
constant, rapid, and random
motion.
Motion has 3 characteristics
Constant
Rapid
Random
Particles of substances are in
constant, rapid, and random
motion.
Motion has 3 characteristics
Constant
Rapid
Random
Postulate 3
Collisions are either
elastic or inelastic.
1.Inelastic—loses energy (p.
421)
2.Elastic—doesn’t lose energy
(p. 421)
Collisions are either
elastic or inelastic.
1.Inelastic—loses energy (p.
421)
2.Elastic—doesn’t lose energy
(p. 421)
Postulate 4
4. Temperature measures average kinetic energy.
Temp., Kinetic Energy
Temp., Kinetic Energy
4. Temperature measures average kinetic energy.
Temp., Kinetic Energy
Temp., Kinetic Energy
Quick Question
After testing two unknown
substances A and B, you find
the boiling temperature for
substance A to be 20°C.
Substance B’s boiling point is
34°C. Which substance, A or B,
has stronger intermolecular
forces? Why?
After testing two unknown
substances A and B, you find
the boiling temperature for
substance A to be 20°C.
Substance B’s boiling point is
34°C. Which substance, A or B,
has stronger intermolecular
forces? Why?
Postulate 5
5.Particles exert intermolecular
forces.
These forces are “non-existent” in
gases.
These forces are strong in liquids and
solids.
Dispersion Forces (London Dispersion)
Dipole-Dipole Forces
Ion-Dipole
Hydrogen Bonding
5.Particles exert intermolecular
forces.
These forces are “non-existent” in
gases.
These forces are strong in liquids and
solids.
Dispersion Forces (London Dispersion)
Dipole-Dipole Forces
Ion-Dipole
Hydrogen Bonding
Postulate 5—Dispersion
Dispersion Forces
Shape-induced charge (due
to asymmetry)
Weakest force
Exists on all molecules
Dispersion Forces
Shape-induced charge (due
to asymmetry)
Weakest force
Exists on all molecules
Postulate 5—Dipole-Dipole
Dipole-Dipole Forces
Permanent dispersion force
(Causes asymmetry, which gives
rise to partial charges (
-
,
+
)
Causes some molecules to be
polar
Affects solubility
Dipole-Dipole Forces
Permanent dispersion force
(Causes asymmetry, which gives
rise to partial charges (
-
,
+
)
Causes some molecules to be
polar
Affects solubility
Postulate 5—Hydrogen Bonds
Hydrogen Bonds
Most important biologically
(induces protein folding)
Assists in solubility
Responsible for properties of
water
Strongest force
Hydrogen Bonds
Most important biologically
(induces protein folding)
Assists in solubility
Responsible for properties of
water
Strongest force
Kinetic-Molecular Theory
(Gasses)
Intermolecular forces “don’t
apply”
Describe 4 variables
Amount, volume, temperature,
pressure
(Gasses)
Intermolecular forces “don’t
apply”
Describe 4 variables
Amount, volume, temperature,
pressure
Kinetic-Molecular Theory
(Gasses)
Amount—given as n= mass/molar
mass
Volume—given as L
Temperature—given as K
To convert °C to K, just add 273.15
Pressure—given as atm or torr
(mm of Hg)
(Gasses)
Amount—given as n= mass/molar
mass
Volume—given as L
Temperature—given as K
To convert °C to K, just add 273.15
Pressure—given as atm or torr
(mm of Hg)
Kinetic-Molecular Theory
(Gasses)
These variables lead to 4
relationships
Boyle’s Law
Charles’ Law
Avogadro’s Law
Dalton’s Law
(Gasses)
These variables lead to 4
relationships
Boyle’s Law
Charles’ Law
Avogadro’s Law
Dalton’s Law
Kinetic-Molecular Theory
(Gasses)
Boyle’s Law
P, V
P, V
(Gasses)
Boyle’s Law
P, V
P, V
Kinetic-Molecular Theory
(Gasses)
Pressure has several units
1 atm
760 mm Hg
760 torr
1.01325 x 10
5
Pa
101.325 kPa
(Gasses)
Pressure has several units
1 atm
760 mm Hg
760 torr
1.01325 x 10
5
Pa
101.325 kPa
Kinetic-Molecular Theory
(Gasses)
Charles’ Law
T, V
T, V
(Gasses)
Charles’ Law
T, V
T, V
Kinetic-Molecular Theory
(Gasses)
Avogadro’s Law
If V, T, and P are held constant for 2 gases, then they
contain an equal number of particles.
(Gasses)
Avogadro’s Law
If V, T, and P are held constant for 2 gases, then they
contain an equal number of particles.
Kinetic-Molecular Theory
(Gasses)
Dalton’s Law
If more than one gas is present, then the sum of the
pressures of all the different gasses equals the total
pressure.
P
t
= p
1
+ p
2
+ p
3
+ … + p
n
(Gasses)
Dalton’s Law
If more than one gas is present, then the sum of the
pressures of all the different gasses equals the total
pressure.
P
t
= p
1
+ p
2
+ p
3
+ … + p
n
Kinetic-Molecular Theory
(Gasses)
Ideal Gas Law: PV = nRT
R is a constant
8.314 m
3
-Pa/mol-K
0.08206 L-atm/mol-K
62.36 L-torr/mol-K
(Gasses)
Ideal Gas Law: PV = nRT
R is a constant
8.314 m
3
-Pa/mol-K
0.08206 L-atm/mol-K
62.36 L-torr/mol-K
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rightful owner. No copyright infringement
intended.
rightful owner. No copyright infringement
intended.
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