Question:

The time period of revolution of a charge $q_1$ and of mass $m$ moving in a circular path of radius $r$ due to Coulomb force of attraction with another charge $q_2$ at its centre is

Updated On: Jun 23, 2023

$\sqrt{\frac{16 \pi\varepsilon_{0} mr^{3}}{q_{1}q_{2}} }$
$\sqrt{\frac{8\pi\varepsilon_{0} mr^{3}}{q_{1}q_{2}} }$
$\sqrt{\frac{ \varepsilon_{0} mr^{3}}{ 16 q_{1}q_{2}} }$
$\sqrt{\frac{16 \pi^3 \varepsilon_{0} mr^{3}}{q_{1}q_{2}} }$

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The Correct Option is D

Solution and Explanation

Centripetal force $F=\frac{m v^{2}}{r}\,...(i)$ and electrostatic force $F=K \cdot \frac{q_{1} \cdot q_{2}}{r^{2}}\,...(ii)$ Equating both equation $\frac{m v^{2}}{r} =K \cdot \frac{q_{1} q_{2}}{r^{2}} $ $v =\sqrt{\frac{K}{m} \cdot \frac{q_{1} q_{2}}{r}}$ The time period of revolution $T=\frac{2 \pi r}{V}$ $=2 \pi r \sqrt{\frac{m \cdot r}{K \cdot q_{1} q_{2}}} $ $ =\sqrt{\frac{4 \pi^{2} r^{2} m r}{K \cdot q_{1} q_{2}}} \,\left(\because K=\frac{1}{4 \pi \varepsilon_{0}}\right) $ $T=\sqrt{\frac{4 \pi^{2} r^{2} m r \cdot 4 \pi \varepsilon_{0}}{q_{1} q_{2}}} $ $=\sqrt{\frac{16 \pi^{3} \varepsilon_{0} m r^{3}}{q_{1} q_{2}}} $

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Concepts Used:

Electric charges and field

What is Electric Charge

It is the property of subatomic particles that experiences a force when put in an electric and magnetic field.

What is Electric Field

It is a property associated with each point in space when charge is present in any form. The magnitude and direction of the electric field are expressed by E, called electric field strength or electric field intensity.

Electric charges are of two types: Positive and Negative. It is commonly carried by charge carriers protons and electrons.

Properties of Electric Charge

Various properties of charge include the following :-

Additivity of Electric Charge
Conservation of Electric Charge
Quantization of Electric Charge

Types of electric charge

Two kinds of electric charges are there :-

Negative Charge - When an object has a negative charge it means that it has more electrons than protons.

Positive Charge - When an object has a positive charge it means that it has more protons than electrons.

When there is an identical number of positive and negative charges, the negative and positive charges would cancel out each other and the object would become neutral.