Charge is the characteristic property of mass. There are two types of charges, positive charge and negative charge. The fundamental charge is the charge of an electron. When two charges interact with each other, then a force exists between them called electrostatic force. The magnitude of the electrostatic force between two charges is given by Coulomb’s law. Here, we will discuss electrostatic force in detail and Coulomb’s law which describes electrostatic force acting between two charges.
Electrostatic Force Acting Between Two Charges
What is electrostatic force?. Electrostatic force is one of the fundamental forces in the universe.There are four fundamental forces in the universe. They are strong nuclear force, electromagnetic force , weak nuclear force and gravitational force. The electrostatic force comes under electromagnetic force. The electrostatic force exists between two charges placed at a distance. The magnitude of electrostatic force depends on the magnitude of each charge and the distance between them.
When two positive charges or two negative charges are brought together, then the two charges repel each other. The electrostatic force acting between two like charges is called electrostatic force of repulsion. When two opposite charges are brought together, then two charges get attracted towards each other. Then the electrostatic force acting between two opposite charges is called electrostatic force of repulsion. Therefore, we can say that like charges repel and unlike charges attract. The electrostatic force acting between two charges is greater when the magnitude of two charges are larger. The electrostatic force is larger when the distance between the two charges are less.
Let us see some electrostatic force examples .We can do a simple experiment to observe the electrostatic force. Take a piece of paper and cut it into very small pieces of paper. Then using a dry scale or ruler, rub it on your dry hair vigorously and repeat it for some time. After doing it for some time, bring the ruler close to the tiny pieces of paper. You can observe that the paper bits are attracted to the ruler. This is because when the ruler is rubbed on your dry hair, the electrons are transferred and electrostatic force acts between them which causes the paper to get attracted to the ruler. Another simple activity to visualise the electrostatic force is to move your hand closer to the screen of the tv. Then you can observe that the skin hairs are getting attracted to the screen of the TV. It is because the screen of the TV is charged due to a cathode ray tube inside the TV which polarises the skin hair and an electrostatic force will be formed that attracts the hairs of the skin. The above activities are electrostatic force examples.
Coulomb’s Law of Electrostatic Force
The magnitude of the electrostatic force is given by Coulomb’s law. According to Coulomb’s law of electrostatic force, the electrostatic force acting between two charges is directly proportional to the product of magnitude of charges and inversely proportional to the square of the distance between the two charges.
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Consider two charges q1 and q2 placed at a distance r from each other. Then the electrostatic force acting between the two charges is given by,
Where,
Ans:
The magnitude of first charge =q1=
The distance between the two charges =r=1 m
The formula to calculate the electrostatic force between two charge is given by,
Substitute the value for the magnitude of charges and distance between the charges to obtain the electrostatic forces between two charges.
2. The electrostatic force acting between two charges q1 and q2 is F. What is the new electrostatic force if the distance between the two charges is doubled?
Ans:
Let r be the initial distance between the two charges.
Then the formula to calculate initial electrostatic force is given by,
Therefore, when the distance is doubled, the new electrostatic force is reduced to one fourth of the initial value.
Conclusion
The electrostatic force can be the electrostatic force of repulsion or attraction depending on the polarity of the two charges. The magnitude of the two charges and the distance between the two charges affects the electrostatic force. For a system of two charges, electrostatic forces on the charges are equal in magnitude but opposite in direction. The electrostatic force is a conservative force which means that the work done by the electrostatic force in a closed loop is zero. The electrostatic force also depends on the medium at which two charges are placed and is maximum when the medium is vacuum.