CBSE Class 12 Board Examination

Board examination for Class 12 students under CBSE, a crucial exam for higher education and career opportunities, covering stream-specific subjects.

Class 12 Physics — Chapter-wise Notes & Quizzes

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Physics · 14 chapters
Summary, key terms, important questions and a practice quiz with AI diagnosis for each.

Chapter 1: Electric Charges and Fields

Summary

Matter carries an intrinsic property called electric charge, which exists in two kinds, positive and negative, and is conserved and quantised as \(q=ne\). Like charges repel and unlike charges attract through a force whose magnitude between two point charges in vacuum obeys Coulomb's law \(F=\dfrac{1}{4\pi\varepsilon_0}\dfrac{q_1q_2}{r^2}\). To describe the influence a charge exerts on its surroundings we introduce the electric field \(\vec{E}=\vec{F}/q_0\), a vector quantity whose direction follows the force on a positive test charge. Field lines give a pictorial map of \(\vec{E}\): they start on positive and end on negative charges, never cross, and crowd together where the field is strong. An electric dipole, two equal and opposite charges separated by a small distance, has a dipole moment \(\vec{p}=q\,2\vec{a}\) and experiences a torque \(\vec{\tau}=\vec{p}\times\vec{E}\) in a uniform field. Electric flux \(\Phi=\oint\vec{E}\cdot d\vec{A}\) measures the field threading a surface, and Gauss's law states the net flux through any closed surface equals the enclosed charge divided by \(\varepsilon_0\). Gauss's law gives elegant results for symmetric distributions: the field of an infinite line, an infinite charged sheet, and a uniformly charged spherical shell.

Charge, conservation and quantisationCoulomb's law and superpositionElectric field and field linesElectric dipole and torqueElectric flux and Gauss's lawApplications of Gauss's law

Key terms

Quantisation of charge
Charge appears only in integral multiples of the elementary charge \(e\), so \(q=ne\).
Coulomb's law
The electrostatic force between two point charges varies as the product of charges and inversely as the square of separation.
Electric field
Force per unit positive test charge at a point, \(\vec{E}=\vec{F}/q_0\), measured in N/C.
Electric dipole moment
Vector \(\vec{p}=q\,2\vec{a}\) directed from the negative to the positive charge.
Electric flux
Scalar product of field and area summed over a surface, \(\Phi=\oint\vec{E}\cdot d\vec{A}\).
Gauss's law
Net flux through a closed surface equals the enclosed charge divided by \(\varepsilon_0\).

Important questions

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TermQuantisation of charge
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Practice quiz

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Class 12 Physics — Electric Charges and Fields (Practice Quiz)

10 Qs · ~10 min