NCERT Books For Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance

Safalta Expert Published by: Noor Fatima Updated Sat, 25 Jun 2022 11:22 PM IST

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Here is the information about NCERT Books Class 12 Physics Chapter 2. You can give a read to this blog and get PDFs of the subject. 
 

NCERT Books Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance is accessible here for download purposes. You can download the PDF for and learn from the book anytime you want. Students who are studying in Class 12 and candidates who are preparing for competitive exams can download the PDF for NCERT Books Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance to learn from the reading material.  

Taking these course books as a reference can be really helpful to prepare for any sought exam. You can keep the digital form of the book handy and learn from it without any time constraints.

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The Chapter Goes Like This-


INTRODUCTION

In Chapters 6 and 8 (Class XI), the notion of potential energy was introduced. When an external force does work in taking a body from a point to another against a force like spring force or gravitational force, that work gets stored as potential energy of the body. When the external force is removed, the body moves, gaining kinetic energy and losing an equal amount of potential energy. The sum of kinetic and potential energies is thus conserved. Forces of this kind are called conservative forces. Spring force and gravitational force are examples of conservative forces. 

Coulomb force between two (stationary) charges is also a conservative force. This is not surprising, since both have inverse-square dependence on distance and differ mainly in the proportionality constants – the masses in the gravitational law are replaced by charges in Coulomb’s law. Thus, like the potential energy of a mass in a gravitational field, we can define electrostatic potential energy of a charge in an electrostatic field.

Consider an electrostatic field E due to some charge configuration. First, for simplicity, consider the field E due to a charge Q placed at the origin. Now, imagine that we bring a test charge q from a point R to a point P against the repulsive force on it due to the charge Q. With reference to Fig. 2.1, this will happen if Q and q are both positive or both negative. For definiteness, let us take Q, q > 0.

Two remarks may be made here. First, we assume that the test charge q is so small that it does not disturb the original configuration, namely the charge Q at the origin (or else, we keep Q fixed at the origin by some unspecified force). Second, in bringing the charge q from R to P, we apply an external force Fext just enough to counter the repulsive electric force FE (i.e, Fext= –FE ).

This means there is no net force on or acceleration of the charge q when it is brought from R to P, i.e., it is brought with infinitesimally slow constant speed. In this situation, work done by the external force is the negative of the work done by the electric force, and gets fully stored in the form of potential energy of the charge q. If the external force is removed on reaching P, the electric force will take the charge away from Q – the stored energy (potential energy) at P is used to provide kinetic energy to the charge q in such a way that the sum of the kinetic and potential energies is conserved. Thus, work done by external forces in moving a charge q from R to P is

WRP = F r ext id R P ∫ = −∫ F r E R P id (2.1)

This work done is against electrostatic repulsive force and gets stored as potential energy.

At every point in electric field, a particle with charge q possesses a certain electrostatic potential energy, this work done increases its potential energy by an amount equal to potential energy difference between points R and P.

Thus, potential energy difference

∆ = − = U U U W P R RP

(Note here that this displacement is in an opposite sense to the electric force and hence work done by electric field is negative, i.e., –WRP .)

Therefore, we can define electric potential energy difference between two points as the work required to be done by an external force in moving (without accelerating) charge q from one point to another for electric field of any arbitrary charge configuration.

Two important comments may be made at this stage:

(i) The right side of Eq. (2.2) depends only on the initial and final positions of the charge. It means that the work done by an electrostatic field in moving a charge from one point to another depends only on the initial and the final points and is independent of the path taken to go from one point to the other. This is the fundamental characteristic of a conservative force. The concept of the potential energy would not be meaningful if the work depended on the path. The path-independence of work done by an electrostatic field can be proved using the Coulomb’s law. We omit this proof here.

(ii) Equation (2.2) defines potential energy difference in terms of the physically meaningful quantity work. Clearly, potential energy so defined is undetermined to within an additive constant.What this means is that the actual value of potential energy is not physically significant; it is only the difference of potential energy that is significant. We can always add an arbitrary constant α to potential energy at every point, since this will not change the potential energy difference:

( ) ( ) U U U U P + − + = − α α R P R

Put it differently, there is a freedom in choosing the point where potential energy is zero. A convenient choice is to have electrostatic potential energy zero at infinity. With this choice, if we take the point R at infinity, we get from Eq. (2.2)

W U U U ∞P P = − = ∞ P (2.3)

Since the point P is arbitrary, Eq. (2.3) provides us with a definition of potential energy of a charge q at any point. Potential energy of charge q at a point (in the presence of field due to any charge configuration) is the work done by the external force (equal and opposite to the electric force) in bringing the charge q from infinity to that point.

Download the complete book from the PDF link giveb below. 

NCERT Books Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance- PDF Download

Chapter 2- Electrostatic Potential and Capacitance

अध्याय 2 स्थिरवैद्युत विभव तथा धरिता Safalta provides the latest NCERT course books for all the major subjects of Class 12. A team of proficient teachers drafts these matters in a precise and thorough manner. You can download the PDFs for all the subjects in a chapter-wise format.

These Books are very effective in preparing for annual exams. Here is the PDF for NCERT Books Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance.
 

Where can you download NCERT Books Class 12 Physics Chapter 2 PDF?

Candidates can download NCERT Books Class 12 Physics Chapter 2- Electrostatic Potential and Capacitance PDF for free on our page. Links are given below.

Chapter 2- Electrostatic Potential and Capacitance

अध्याय 2 स्थिरवैद्युत विभव तथा धरिता

Why is NCERT Books Class 12 Physics the best study material?

The book can also help in clarifying doubts. Other benefits of studying from the NCERT Books Class 12 Physics are-
  • Students gain profound knowledge about Physics through the NCERT Books Class 12 Physics
  • The course books contain pictures that can help students in better understanding of the chapters
  • These books can help students in self-study

Why is NCERT Books Class 12 Physics so recommended for board exams?

Almost all the questions that appear in board exams are from NCERT Books Class 12 Science. Moreover, a team of professional teachers drafts these books, which become a reliable source of study for students.
 
 

Are CBSE Books for Class 12 Physics important from an examination perspective?

The chapters in CBSE Books for Class 12 Physics are vital for board exams and higher classes. Students should read the chapter given in the CBSE books for Class 12 Science. These stories and practice questions can help gain excellent marks.

To get outstanding marks, we provide mock test papers that can help gear-up your preparations for exams. Additionally, you can also download e-books to get yourself prepared even in a better way.
 
 

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