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they will repel each other and if the two charged objects are from two different columns, they will attract each other. Additive Nature of Charge The total electric charge of a body is equal to the algebraic sum of all the electric charges distributed on the different parts of the body. Due to this property, the charge is said to be additive in nature. We know that mass of an extended body is equal to sum of the masses of its constituent particles. The electric charge also possesses this additive property possessed by mass. However, the additive property in the two cases differ on following two accounts: (i) The mass of the particles constituting the body is always
positive, whereas the charges distributed on the different
parts of the body may be positive or negative. (ii) The total mass of the body is always non-zero, whereas the
total charge on a body may be positive, zero or negative. Conservation of Charge Just as in mechanics, the total linear momentum of an isolated system always remains constant, the electric charge also obeys a similar law. It is called law of conservation of charge. It stated that for an isolated system, the net charge always remains constant. In other words, it may get transferred from one part of the system to another, but net charge will always have a constant value. In other words, charge can neither be created nor destroyed. Following examples explain the law of conservation of charge:
We know that when a glass rod is rubbed with silk, glass rod becomes positively charged and the silk becomes negatively charged. The amount of positive charge on glass rod is found to be exactly the same as negative charge on silk. Thus, the system of glass rod and silk, which had zero net charge before rubbing, still possesses zero net charge
after rubbing Ibid, p. 161– “Some Useful Facts 1. The charges developed on the bodies during the process of
(b)
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