Coulomb's Law & Attractive Forces (College Board AP® Chemistry)
Study Guide
Written by: Fallon
Reviewed by: Stewart Hird
Coulomb's Law & Attractive Forces
Coulomb's law describes the electrostatic force between two charged particles
The formula for Coulomb's law is , where:
Fcoulombic is the force between the charges
k is Coulomb's constant
q1 and q2 are the value of the charges
r is the distance between the charges
For a cation and anion in an ionic bond, Fcoulombic
increases with increasing charge of each ion
decreases with increasing ionic radius
Coulombic force between cations and anions
Diagram showing that the Coulombic force between a cation and anion decreases with increasing ionic radius and increases with increasing charge
The greater the force between the charges
the stronger the interaction between the ions
the greater the bond energy (also known as lattice energy)
the more negative the minimum potential energy of a stable ionic bond between the two ions
Worked Example
The graph shows the potential energy of three potassium salts, X, Y, and Z, as a function of internuclear distance. Based on the data, what are the most likely identities of compounds X, Y, and Z?
| X | Y | Z |
A. | KI | KBr | KCl |
B. | KBr | KCl | KI |
C. | KCl | KI | KBr |
D. | KCl | KBr | KI |
Answer:
Each potassium salt contains a K+ ion and a halide ion with a 1- charge
So, we do not need to consider the effect that charge has on internuclear distance or potential energy
The ionic radius of the halide ions increases down the group, thus Cl- < Br- < I-
As ionic radius increases
the internuclear distance between the potassium and halide ions increases
Fcoulombic between the ions decreases
the lattice energy decreases
the potential energy minimum becomes less negative
So, KCl with the smallest halide ion will have the smallest internuclear distance and the most negative minimum potential energy
KI with the largest halide ion will have the largest internuclear distance and the least negative minimum potential energy
Therefore, the answer is D
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