Two equal charges with magnitude Q and Q experience a force of 12.3442 when held at a distance r. What is the force between two charges of magnitude 2Q and 2Q when held at a distance r/2.?

According to the Coulomb's law, the magnitude of the electrostatic force of interaction between two charges [tex]\rm q_1[/tex] and [tex]\rm q_2[/tex] which are separated by the distance [tex]\rm d[/tex] is given by

[tex]\rm F = \dfrac{kq_1q_2}{d^2}.[/tex]

where, k is the Coulomb's constant.

For the case, when,

[tex]\rm q_1 = Q.[/tex]
[tex]\rm q_2 = Q.[/tex]
[tex]\rm d=r.[/tex]
[tex]\rm F=12.3442.[/tex]

Then, using Coulomb's law,

[tex]\rm 12.3442 = \dfrac{kQQ}{r^2}=\dfrac{kQ^2}{r^2}\ \ \ \ .......\ (1).[/tex]

For the case, when,

[tex]\rm q_1 = 2Q.[/tex]
[tex]\rm q_2 = 2Q.[/tex]
[tex]\rm d=\dfrac r2.[/tex]

Then, using Coulomb's law, the new electric force between the charges is given by,

[tex]\rm F' = \dfrac{k(2Q)(2Q)}{\left (\dfrac r2\right )^2}\\=\dfrac{k\ 4Q^2}{\dfrac{r^2}{4}}\\=4\times 4 \times \dfrac{kQ^2}{r^2}\\=16\ \dfrac{kQ^2}{r^2}\\=16\times 12.3442\ \ \ \ \ \ \ \ (Using\ (1))\\=197.5072.[/tex]

Two equal charges with magnitude Q and Q experience a force of 12.3442 when held at a distance r. What is the force between two charges of magnitude 2*Q and 2*Q when held at a distance r/2.?

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Two equal charges with magnitude Q and Q experience a force of 12.3442 when held at a distance r. What is the force between two charges of magnitude 2Q and 2Q when held at a distance r/2.?