The relation between electric field E and magnetic field intensity H in an electromagnetic wave is:

(1) E = H

(2) E=μ0ε0H

(3) E=ε0μ0H

(4) E=μ0ε0H

Subtopic:  Generation of EM Waves |
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An electromagnetic wave going through Vaccum is described by

E=E0sin(kx-ωt)
B=B0sin(kx-ωt)

(1) E0B0=ωk

(2) E0ω=B0k

(3) E0k=B0ω

(4) none of these

 

Subtopic:  Properties of EM Waves |
 74%
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The ratio of E0H0 for a plane electromagnetic wave has the dimension of

(1) Impedance

(2) Resistance

(3) Both 

(4) None

Subtopic:  Properties of EM Waves |
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If an electromagnetic wave going through a medium is given by; 
\(E=E_{0}\sin\left ( kx-\omega t \right )\) and \(B=B_{0}\sin\left ( kx-\omega t \right ),\) then:
1. \(E_0k = B_0 \omega\)
2. If the electric field is in the \(z\text-\)direction then the magnetic field should be in the \(-y\text-\)direction
3. Both 1 and 2 are correct
4. Only 1 is correct
Subtopic:  Properties of EM Waves |
 69%
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A plane E M wave of frequency 25 MHz travels in free space in the x-direction. At a particular point in space and time E=6.3 j^ V/m then B at the point is 

(1) 2.1×10-8 -k^

(2) 2.1×10-8 k^

(3) 2.1 k^

(4) 2.1×10-8 i^

Subtopic:  Properties of EM Waves |
 81%
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In an electromagnetic wave, the amplitude of the electric field is \(1~\text{V/m}.\) The frequency of a wave is \(5\times 10^{14}~\text{Hz}.\) The wave is propagating along the \(z\text-\)axis. The average energy density of the electric field in \(\text{J/m}^3,\) will be:
1. \(2.2\times 10^{-12}\)
2. \(4.4\times 10^{-12}\)
3. \(6.6\times 10^{-12}\)
4. \(8.8\times 10^{-12}\)

Subtopic:  Properties of EM Waves |
 58%
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The infra-red spectrum lies between :

(1) radio wave and microwave region

(2) the micro-wave and visible region

(3) the visible and ultraviolet region

(4) the ultraviolet and the X-ray region

Subtopic:  Properties of EM Waves |
 83%
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Consider an electric charge oscillating with a frequency of \(10\) MHz. The radiation emitted will have a wavelength equal to:
1. \(20\) m 2. \(30\) m
3. \(40\) m 4. \(10\) m
Subtopic:  Properties of EM Waves |
 89%
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Which of the following electromagnetic waves has minimum frequency?
1. Radio waves
2. Infrared waves
3. Microwaves
4. X-rays

Subtopic:  Electromagnetic Spectrum |
 72%
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A parallel plate capacitor consists of two circular plates each of radius \(12\) cm and separated by \(5.0\) mm. The capacitor is being charged by an external source. The charging current is constant and is equal to \(0.15\) A. The rate of change of the potential difference between the plates will be:
1. \(1.873 \times 10^7~\text{V/s} \)
2. \(1.873 \times 10^8~\text{V/s}\)
3. \(1.873 \times 10^9~\text{V/s}\)
4. \(1.873 \times 10^{10}~\text{V/s}\)
Subtopic:  Displacement Current |
 60%
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