Electrostatics

Electromagnetics >> Electrostatics >> Properties of electric charge

The various properties of electric charge include:

• Additivity of charges
• Charge is conserved
• Quantization of charge

Additivity of charges

If a system contains two point charges q₁ and q₂, then the total charge of the system is obtained by simply adding q₁ and q₂, i.e., charges add up like real numbers.

If a system contains n number of charges q₁, q₂, q₃, q₄, - - - - - - ,q_n, then the total charge of the system is q₁ + q₂ + q₃ + q₄ + - - - - - - - - + q_n.

Charge is a scalar quantity; it has magnitude but no direction, similar to mass. However, there is one difference between charge and mass. Mass of a body is always positive whereas charge can be either positive or negative.

Let us take for example, the system containing four charges q₁ = +2C, q₂ = +3C, q₃ = -3C, q₄ = +4C, then the total charge of the system is

                q = q₁ + q₂ + q₃ + q₄

                   = (+2) + (+3) + (-3) + (+4)

                   = +6C

Therefore, the total charge of the system is +6C and it is positively charged.

Charge is conserved

The law of conservation of charge states that charge cannot be created or destroyed. However, a charge can be transferred from one object to other. 

Let us consider two objects, object A and object B. Object A has equal number of electrons and protons. So, it is electrically neutral. Similarly, object B has equal number of electrons and protons. So, it is also electrically neutral.

                             

When object A and object B are rubbed with each other, negative charges from object A can be transferred to object B. Hence, object B has more number of electrons than protons due to gaining of extra electrons. Similarly, object A has lesser number of electrons than protons due to losing of some electrons.

Therefore, object A becomes positively charged and object B becomes negatively charged. However, the total charge of an isolated system remains constant.

 Quantization of charge

The charge of any object is equal to integer multiples of the elementary charge. This is known as quantization of charge. It is given by

q = ne   (or)   n(-e)

                        Where q = electric charge of any object or body
                                    n = any integer positive or negative
                                    -e = elementary charge = charge carried by single electron.
                                      e = elementary charge = charge carried by single proton.

The charge on an electron is written as -e and charge on a proton is written as +e. The quantization of charge was first suggested by the experimental laws of electrolysis discovered by Faraday. It was experimentally proved by Millikan. The total charge on a object is equal to the algebraic sum of individual charges present within the object.

If an object contains n₁ electrons and n₂ protons, then the total charge on the object is n₁ × (-e) + n₂ × e. For example, if the object contains 150 electrons and 200 protons, then the total charge on the object is -150e + 200e = 50e. Hence, the object is positively charged. The object charge can be exactly 0e or 1e, 2e - - - or -1e, -2e - - - but not 1/2, 1/4 etc.