Intermolecular Forces of Attraction (IMFA)

Summary

This document provides a high-level overview of intermolecular forces (IMFA). It defines and details different types of IMFA, such as London dispersion forces, dipole-dipole interactions, and hydrogen bonding, and explores some applications in different fields, like medical implants and sports equipment.

Full Transcript

CONSIST OF THE
SHARED PAIRS OF UNEQUAL SHARE OF
ELECTRONS BY TWO ELECTRONS
ATOMS

TRANSFER OF EQUAL SHARE OF
VALENCE ELECTRONS
ELECTRON(S)
BETWEEN ATOMS.
 Prepared by
Manie Rose E. Tapao
 Describe the general types of
intermolecular forces; and

Specify the type of intermolecular
forces given the properties of
substance.
 Intermolecular forces act between
molecules. In contrast, intramolecular
forces are the attractive and repulsive
forces within molecules that are
responsible for chemical bonds and
molecular structure.
 London dispersion
forces (LDF)
Dipole-dipole
interactions
Hydrogen bonding
Ion-Dipole
 Van der Waals forces include attraction and repulsions between atoms,
molecules, and surfaces, as well as other intermolecular forces.

Van der Waals forces is a general term used to define the attraction of
intermolecular forces between molecules. There are two kinds of Van der
Waals forces: weak London Dispersion Forces and stronger dipole-dipole
forces.
 named after the German
physicist Fritz London
All atoms and molecules
possess it
The electron in the molecule are
in constant motion and at one
instant more of them may be
located at one end of the
molecule making that end more
negative than the other end,
forming what is called an
instantaneous dipole.
 Intermolecular forces exist between all atoms and molecules. Solely for
nonpolar compounds, and noble gas
Weakest attractive forces that are formed due to the temporary dipoles
induced due to constant movement
This force is also called induced-dipole-induced-dipole attraction
 Occurs between polar covalent
molecules.
A polar molecule has a partial
positive charge, and a partial
negative charged the other,
forming a dipole (having two
electrically charged poles).
The partial positive charge on one
molecules is attracted to the
partial negative charge on another
molecule
 The more electronegative atom becomes partially negative
and has the most electron density. The least electronegative
atom becomes partially positive and has a lesser electron
density.
 A special type of dipole-
dipole interaction
Results when a hydrogen
atom bonded with a highly
electronegative atom like
nitrogen, oxygen, or fluorine
Have higher boiling points
due to special stability
provided by the hydrogen
bonds.
 results from the attraction
between either a cation (+) or
an anion (-) with permanent
polar molecules. The ions will
be attracted to the opposite
charges present in the
dipole resulting in this type
of attraction.
 Example: NaCl dissolved in water (H2O): NaCl will dissociate into sodium
cations (Na+) and Chlorine anions (Cl-)
Because water is a polar molecule and has a partial negative and partial
positive poles, the Na+ will form ion-dipole interaction with a partial
negative part of the water molecule (O) , while Cl- will form an ion-dipole
interaction with partial positive part of the water molecule (H+)
 Types of Intermolecular Forces of Attraction (IMFA)

Type of IMFA Description and Strength Examples
Ion-dipole Occurs between ions (cation and NaCl dissolved in H2O;
anion) and polar molecules; Ca2+ and PCl3
strongest
Hydrogen bonding Hydrogen atom is attracted to N, H2O, NH3, CH3OH
F, or O from another molecule;
strong
Dipole –dipole Polar molecules attract each CH3F and H2S; HCl
other; strength increases with
increasing polarity
London forces Occurs between all molecules; CH4 with itself, Br2 with
weakest but increases with itself
increasing molecular weight
 Melting and Boiling Point
Viscosity
Surface Tension
Capillary Action
Solubility
 – the stronger the
intermolecular forces, the higher the melting point

– the measure of how well substances flow

– the tendency of fluid surfaces to
shrink into the minimum surface area possible

– the ability of a liquid to flow against
gravity up a narrow tube

– the ability of a solute, to dissolve in a solvent
 Devices placed inside or on
the surface of the body
should be durable and
carefully designed to not:
Cause infections
Trigger allergic reactions
Fail to do their function
 Usually designed to be insoluble and
unreactive to the cell components and
body fluid
Some metal implants are produced as
alloys to provide strength and better
compatibility
May be held together by Vander Waals,
Hydrogen Bonds or Covalent Bonds
 Materials used for exercises
and sports activities
Must be durable to increase
sports efficiency and
effectiveness of athletes and
to minimize possible injuries.
 Utilizes dipole-induced
dipole interaction
Uses metals like copper,
nickel, chromium and
aluminum to produce
resistors and
capacitors.
 Must possess
durability, strength,
hardness, and other
important properties
 Water
Food coloring (3)
3 clear cups or glasses
Tissue paper
Ruler