In an electromagnetic wave the electric field vector magnetic field vector are given as E → = E 0 i ^ a n d B → = B 0 k ^ respectively. The direction of propagation of electromagnetic wave is along.

As we know that direction of propagation ( p ^ ) of wave is given as p ^ = E ^ * B ^ = i ^ * k ^ = ( − j ^ )

In an electromagnetic wave the electric field vector magnetic field vector are given as $\vec{E} = E_{0} \hat{i} a n d \vec{B} = B_{0} \hat{k}$ respectively. The direction of propagation of electromagnetic wave is along.

Option 1 - <math> <mrow> <mrow> <mo>(</mo> <mrow> <mo>−</mo> <mover accent="true"> <mi>k</mi> <mo>^</mo> </mover> </mrow> <mo>)</mo> </mrow> </mrow> </math>

Option 2 - <math> <mrow> <mrow> <mo>(</mo> <mrow> <mover accent="true"> <mi>k</mi> <mo>^</mo> </mover> </mrow> <mo>)</mo> </mrow> </mrow> </math>

Option 3 - <math> <mrow> <mrow> <mo>(</mo> <mrow> <mo>−</mo> <mover accent="true"> <mi>j</mi> <mo>^</mo> </mover> </mrow> <mo>)</mo> </mrow> </mrow> </math>

Option 4 - <math> <mrow> <mover accent="true"> <mi>j</mi> <mo>^</mo> </mover> </mrow> </math>

2 Views|Posted 6 months ago

Asked by Shiksha User

1 Answer

Sort by:

Answered by

Vishal Baghel | Contributor-Level 10

6 months ago

Correct Option - 3

Detailed Solution:

As we know that direction of propagation $(\hat{p})$ of wave is given as

$\hat{p} = \hat{E} * \hat{B} = \hat{i} * \hat{k} = (- \hat{j})$

Upvote

Similar Questions for you

An electromagnetic wave of frequency 5 GHz, is travelling in a medium whose relative electric permittivity and relative magnetic permeability both are 2. Its velocity in the this medium is_____× 10⁷ m/s.

Vishal Baghel

$v = \frac{1}{\sqrt[]{ε μ}} = \frac{1}{\sqrt[]{2 ε_{0} . 2 μ_{0}}} = \frac{1}{2 \sqrt[]{ε_{0} μ_{0}}} = \frac{c}{2} = 15 \times 1 0^{7} m / s .$

The displacement current of 4.425 $μ A$ is developed in the space between the plates of parallel plate capacitor when voltage is changing at a rate of 10⁶ Vs^-1. The area of each plate of the capacitor is 40 cm². The distance between each plate of the capacitor is x × 10^-3. The value of x is,

(Permittivity of free space, $E_{0} = 8.85 \times 1 0^{- 12} C^{2} N^{- 1} m^{- 2})__________$

Vishal Baghel

According to definition of displacement current, we can write

$I_{d} = ε_{0} \frac{d ?}{d t} = ε_{0} \frac{d (E S)}{d t} = ε_{0} \frac{d (\frac{V}{l} S)}{d t} = \frac{ε_{0} S}{l} (\frac{d V}{d t})$

$\Rightarrow l = \frac{8.85 \times 1 0^{- 12} \times 40 \times 1 0^{- 4} \times 1 0^{6}}{4.425 \times 1 0^{- 6}} 8 \times 1 0^{- 3} m$

The intensity of the light from a bulb incident on a surface is 0.22 W/m². The amplitude of the magnetic field in this light – wave is__________ × 10^-9 T.

(Given : Permittivity of vacuum $\in_{0} = 8.85 \times 1 0^{- 12} C^{2} N^{- 1} - m^{- 2},$ speed of light in vacuum c = 3 × 10⁸ ms^-1)

Vishal Baghel

$\frac{B_{0}^{2}}{2 μ_{0}} C$

$B_{0}^{2} = \frac{I 2 μ_{0}}{C}$

$B_{0}^{2} = \frac{0.22 \times 2 \times 4 \times 1 0^{- 7}}{9 \times 108}$

B₀ = 42.9 × 10^-9

42.9 Ans

An electromagnetic wave is represented by the electric field
E⃗ = E₀n̂[ωt + (y − z)]
The direction of propagation of the wave, ŝ is:

Vishal Baghel

s? = -? + k? ∴ s? = (-? +k? )/√2

A point source surrounded by vacuum emits an electromagnetic wave of frequency of 900 kHz. If the power emitted by the source is 15 W, the amplitude of the electric field of the wave (in 10^-3V/m) at a distance 15 km from the source is :
( (1 / 4πε₀) = 9×10⁹ Nm²/C² and speed of light in vacuum = 3 × 10⁸ ms^-1)

Vishal Baghel

I = P/ (4πr²) . (i)
and I = (1/2)ε? E? ²c . (ii)
From (i) and (ii)
P/ (4πr²) = (1/2)ε? E? ²c
E? = √ (2P/ (4πε? r²c) ; E? = √ (9×10? ×2×15)/ (15×15×10? ×3×10? ) = 2×10? ³ V/m

Taking an Exam? Selecting a College?

Get authentic answers from experts, students and alumni that you won't find anywhere else.

On Shiksha, get access to

66K

Colleges

1.2K

Exams

6.9L

Reviews

1.8M

Answers

Learn more about...

Physics Electromagnetic Waves 2025

View Exam Details

Share Your College Life Experience

Didn't find the answer you were looking for?

Search from Shiksha's 1 lakh+ Topics

Ask Current Students, Alumni & our Experts

Quick Actions

Community GuidelinesUser Points System

QuestionsDiscussionsTags

Have a question related to your career & education?

See what others like you are asking & answering