NCERT Class 12 Books Physics Chapter 8- Electromagnetic Waves 

Safalta Expert Published by: Noor Fatima Updated Sat, 25 Jun 2022 11:46 AM IST

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Here is the information about NCERT Books Class 12 Physics Chapter 8. You can give a read to this blog and get PDFs of the subject. 
 

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NCERT  Class 12 Books Physics Chapter 8- Electromagnetic Waves 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  Class 12 Books Physics Chapter 8- Electromagnetic Waves to learn from the reading material.  
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Here, you can learn the NCERT  Class 12 Books Physics Chapter 8- Electromagnetic Waves. Moreover, you can get the links for other chapters to download the links. 

The Chapter Goes like this-


INTRODUCTION

In Chapter 4, we learnt that an electric current produces magnetic field and that two current-carrying wires exert a magnetic force on each other. Further, in Chapter 6, we have seen that a magnetic field changing with time gives rise to an electric field. Is the converse also true? Does an electric field changing with time give rise to a magnetic field? James Clerk Maxwell (1831-1879), argued that this was indeed the case – not only an electric current but also a time-varying electric field generates magnetic field. While applying the Ampere’s circuital law to find magnetic field at a point outside a capacitor connected to a time-varying current, Maxwell noticed an inconsistency in the Ampere’s circuital law. He suggested the existence of an additional current, called by him, the displacement current to remove this inconsistency.

Maxwell formulated a set of equations involving electric and magnetic fields, and their sources, the charge and current densities. These equations are known as Maxwell’s equations. Together with the Lorentz force formula (Chapter 4), they mathematically express all the basic laws of electromagnetism.

The most important prediction to emerge from Maxwell’s equations is the existence of electromagnetic waves, which are (coupled) timevarying electric and magnetic fields that propagate in space. The speed of the waves, according to these equations, turned out to be very close to the speed of light( 3 ×108 m/s), obtained from optical measurements. This led to the remarkable conclusion that light is an electromagnetic wave. Maxwell’s work thus unified the domain of electricity, magnetism and light. Hertz, in 1885, experimentally demonstrated the existence of electromagnetic waves. Its technological use by Marconi and others led in due course to the revolution in communication that we are witnessing today.

In this chapter, we first discuss the need for displacement current and its consequences. Then we present a descriptive account of electromagnetic waves. The broad spectrum of electromagnetic waves, stretching from γ rays (wavelength ~10–12 m) to long radio waves (wavelength ~106 m) is described. How the electromagnetic waves are sent and received for communication is discussed in Chapter 15.


DISPLACEMENT CURRENT

We have seen in Chapter 4 that an electrical current produces a magnetic field around it. Maxwell showed that for logical consistency, a changing electric field must also produce a magnetic field. This effect is of great importance because it explains the existence of radio waves, gamma rays and visible light, as well as all other forms of electromagnetic waves. To see how a changing electric field gives rise to a magnetic field, let us consider the process of charging of a capacitor and apply Ampere’s circuital law given by (Chapter 4)
“B.dl = µ0 i (t)

to find magnetic field at a point outside the capacitor. Figure 8.1(a) shows a parallel plate capacitor C which is a part of circuit through which a time-dependent current i (t) flows . Let us find the magnetic field at a point such as P, in a region outside the parallel plate capacitor. For this, we consider a plane circular loop of radius r whose plane is perpendicular to the direction of the current-carrying wire, and which is centred symmetrically with respect to the wire [Fig. 8.1(a)]. From symmetry, the magnetic field is directed along the circumference of the circular loop and is the same in magnitude at all points on the loop so that if B is the magnitude of the field, the left side of Eq. (8.1) is B (2π r).

So we have B (2πr) = µ0 i (t)

Now, consider a different surface, which has the same boundary. This is a pot like surface [Fig. 8.1(b)] which nowhere touches the current, but has its bottom between the capacitor plates; its mouth is the circular loop mentioned above. Another such surface is shaped like a tiffin box (without the lid) [Fig. 8.1(c)]. On applying Ampere’s circuital law to such surfaces with the same perimeter, we find that the left hand side of Eq. (8.1) has not changed but the right hand side is zero and not µ0 i, since no current passes through the surface of Fig. 8.1(b) and (c). So we have a contradiction; calculated one way, there is a magnetic field at a point P; calculated another way, the magnetic field at P is zero. Since the contradiction arises from our use of Ampere’s circuital law, this law must be missing something. The missing term must be such that one gets the same magnetic field at point P, no matter what surface is used.

To get the complete NCERT  Class 12 Books Physics Chapter 8, See the link given below-
 
NCERT  Class 12 Books Physics Chapter 8- Electromagnetic Waves- PDF Download

Chapter 8- Electromagnetic Waves

अध्याय 8 वैद्युतचुंबकीय तरंग 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  Class 12 Books Physics Chapter 8- Electromagnetic Waves.
 

Where can you download NCERT Books Class 12 Physics Chapter 8 PDF?

Candidates can download NCERT  Class 12 Books Physics Chapter 8- Electromagnetic Waves PDF for free on our page. Links are given below.

Chapter 8- Electromagnetic Waves

अध्याय 8 वैद्युतचुंबकीय तरंग

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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