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2. Coulomb's law - Wikipedia

   en.wikipedia.org/wiki/Coulomb's_law

   Here, k e is a constant, q 1 and q 2 are the quantities of each charge, and the scalar r is the distance between the charges. The force is along the straight line joining the two charges. If the charges have the same sign, the electrostatic force between them makes them repel; if they have different signs, the force between them makes them attract.

3. Electric field - Wikipedia

   en.wikipedia.org/wiki/Electric_field

   [6]: 469–70 The electric field acts between two charges similarly to the way that the gravitational field acts between two masses, as they both obey an inverse-square law with distance. [7] This is the basis for Coulomb's law , which states that, for stationary charges, the electric field varies with the source charge and varies inversely ...

4. Inverse-square law - Wikipedia

   en.wikipedia.org/wiki/Inverse-square_law

   The force of attraction or repulsion between two electrically charged particles, in addition to being directly proportional to the product of the electric charges, is inversely proportional to the square of the distance between them; this is known as Coulomb's law. The deviation of the exponent from 2 is less than one part in 10 15. [8]

5. Jefimenko's equations - Wikipedia

   en.wikipedia.org/wiki/Jefimenko's_equations

   The vector ′ is a unit vector pointing from the observer to the charge and ′ is the distance between observer and charge. Since the electromagnetic field propagates at the speed of light, both these quantities are evaluated at the retarded time t − r ′ / c {\displaystyle t-r'/c} .

6. Euclidean distance - Wikipedia

   en.wikipedia.org/wiki/Euclidean_distance

   In mathematics, the Euclidean distance between two points in Euclidean space is the length of the line segment between them. It can be calculated from the Cartesian coordinates of the points using the Pythagorean theorem , and therefore is occasionally called the Pythagorean distance .

7. Mass-to-charge ratio - Wikipedia

   en.wikipedia.org/wiki/Mass-to-charge_ratio

   When charged particles move in electric and magnetic fields the following two laws apply: Lorentz force law: = (+),; Newton's second law of motion: = =; where F is the force applied to the ion, m is the mass of the particle, a is the acceleration, Q is the electric charge, E is the electric field, and v × B is the cross product of the ion's velocity and the magnetic flux density.

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9. Mathematical descriptions of the electromagnetic field

   en.wikipedia.org/wiki/Mathematical_descriptions...

   If the matter field is taken so as to describe the interaction of electromagnetic fields with the Dirac electron given by the four-component Dirac spinor field ψ, the current and charge densities have form: [2] = † = †, where α are the first three Dirac matrices. Using this, we can re-write Maxwell's equations as: