Two positive ions, each carrying a charge $q$, are separated by a distance $d$. If $F$ is the force of repulsion between the ions, the number of electrons missing from each ion will be (e being the charge on an electron)
- $ \frac{ 4 \pi \varepsilon_0 F d^2 }{ e^2}$
- $ \sqrt{ \frac{ 4 \pi \varepsilon_0 F e^2 }{ d^2}}$
- $ \sqrt{ \frac{ 4 \pi \varepsilon_0 F d^2 }{ e^2}}$
- $ \frac{ 4 \pi \varepsilon_0 F d^2 }{ q^2}$
The Correct Option is C
Solution and Explanation
$F = \frac{ 1}{ 4 \pi \varepsilon_0 } \frac{(q)(q)}{ d^2} $
$F = \frac{ q^2}{ 4 \pi \varepsilon_0 d^2} $
$ q^2 = 4 \pi \varepsilon_0 F \, d^2 $
$q = \sqrt{ 4 \pi \varepsilon_0 \, F \, d^2 } $ ..(i)
Since, $q = ne$
where,
$n =$ number of electrons missing from each ion
$e =$ magnitude of charge on electron
$ \therefore n = \frac{ q}{ e} $
$n = \frac{ \sqrt{ 4 \pi \varepsilon_0 F \, d^2 }}{ e} $ (Using (i))
$= \sqrt{ \frac{ 4 \pi \varepsilon_0 F \, d^2 }{ e^2 }} $
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Coulomb’s Law
In 1785, french physicist Charles Augustin de Coulomb coined a tangible relationship in mathematical form between two bodies that have been electrically charged. He represented an equation for the force causing the bodies to attract or repel each other which is commonly known as Coulomb’s law or Coulomb’s inverse-square law.
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Coulomb’s Law has an abundant application to modern life, from Xerox machines to laser printers, to powder coating.