Coulomb's law

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Feb 1, 2023, 3:44:30 PM

Created by

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Jun 6, 2016, 8:19:13 PM

| F | = k \frac{| q^{+} | | q^{-} |}{d^{2}}

$|F| = k(|q^+||q^-|)/d^2$

(q^{+}) Charge of First Particle

$(q^+)"Charge of First Particle"$

(q^{-}) Charge of Second Particle

$(q^-)"Charge of Second Particle"$

(d) Distance between Particles

$(d)"Distance between Particles"$

The Math / Science

Coulomb's Law describes the electrostatic interactions between two oppositely charged particles. The greater the charge on the ions and the smaller the ions are, the stronger the ionic bonding. The force is attractive if the charges are of different signs, and repulsive if they have the same sign. This Coulomb's Law equation has the following inputs:

|F| = (k • q+ • q-)/d²

where:

F is the force between two oppositely charged particles.
k is Coulomb's Constant ( $9.0 \times 10^{9} N \cdot m^{2} / C^{2}$ $9.0×10^9 N⋅m^2"/"C^2$ (8.9875517873682E9 m/F))
q+ is the charge of body 1
q- is the charge of body 2
d is the separation distance between the two centers of the particles

Both q⁺ and q^- have units of Coulombs and d has default units of meters (m).

Supplemental Materials

Khan Academy: Coulomb's Law (with example)

Physics Classroom: Coulomb's Law

References

Whitten, et al. "Chemistry" 10th Edition. Pp. 253

This equation, Coulomb's law, references 1 page

Equations and Data Items

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• General Chemistry Collection by Dasha

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Coulomb's law

The Math / Science

Supplemental Materials

References

Datasets

Equations and Data Items

Calculators

Equations and Data Items

Collections