In a certain apparatus, a long wire along the z-axis carries a uniform charge on it. The resulting electric field outside the wire is directed away from the wire and has a magnitude given by
E = K/d
K = 30,000 Nm/C
and d is the perpendicular distance from the wire to the point in question.
Charges near the wire experience forces due to the electric field. This is true of elementary particles, like electrons, as well as ions and molecules. Polar molecules have one end charged positively and the other end, negatively. The two sides of the molecule thus experience two forces.
If the electric field is great enough, the gas around the wire may undergo breakdown, that is, the molecules are ionized by the electric field.
For the following questions, use for the charge on an electron
qelec = –1.6 x 10–19 C
A fluoride ion (F–) has a mass 19 times greater than a hydrogen ion (H+). If a hydrogen ion and a fluoride ion are at the same location relative to the wire, how does the magnitude of the force on the fluoride ion compare to that of the force on the hydrogen ion?