The magnetic field between the plates of radius 12 cm separated by a distance of 4 mm of a parallel plate capacitor of capacitance 100 pF along the axis of plates having conduction current of 0.15 A is

(1) zero

(2) 1.5 T

(3) 15 T

(4) 0.15 T

Subtopic:  Maxwell's Equations |
 56%
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A larger parallel plate capacitor, whose plates have an area of \(1~\text{m}^2,\) separated from each other by \(1\) mm, is being charged at a rate of \(25.8\) V/s. If the plates have dielectric constant \(10\), then the displacement current at this instant is:
1. \(25~\mu\text{A}\)
2. \(11~\mu\text{A}\)
3. \(2.2~\mu\text{A}\)
4. \(1.1~\mu\text{A}\)

Subtopic:  Displacement Current |
 68%
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A parallel plate capacitor with plate area \(A\) and separation between the plates \(d\), is charged by a source having current \(i\) at some instant. Consider a plane surface of area \(A/2\) parallel to the plates and drawn symmetrically between the plates. The displacement current through this area is:
1. \(i\) 
2. \(i/2\) 
3. \(i/4\) 
4. \(i/8\)

Subtopic:  Displacement Current |
 73%
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The sun delivers \(10^{3}~\text{W/m}^2\) of electromagnetic flux to the earth's surface. The total power that is incident on a roof of dimensions \(8\) m×\(20\) m will be:
1. \(2.56\times 10^{4}~\text{W}\)
2. \(6.4\times 10^{5}~\text{W}\)
3. \(4.0\times 10^{5}~\text{W}\)
4. \(1.6\times 10^{5}~\text{W}\)

Subtopic:  Properties of EM Waves |
 79%
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In a region of free space, the electric field at some instant of time is E=(80i^+32j^-64k^)V/m and the magnetic field is B=(0.2i+0.08j^+0.29k^)μT. The Poynting vector for these fields is

(1) -11.52i^+28.8j^

(2) -28.8i^+11.52i^

(3) 28.8i^-11.52j^

(4) 11.52i^-28.8j^

Subtopic:  Properties of EM Waves |
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A plane electromagnetic wave propagating in the x-direction has wavelength of 60 mm. The electric field is in the y-direction and its maximum magnitude is 33 V/m-1. The equation for the electric field as function of x and t is

(1) 11 sin π(t - x/c)

(2) 33 sin π×1010 (t - x/c)

(3) 33 sin π(t - x/c)

(4) 11 sin π×1011(t - x/c)

Subtopic:  Properties of EM Waves |
 73%
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In an electromagnetic wave, if the electric field oscillated sinusoidally with an amplitude of \(48~\text{Vm}^{-1}\), then the RMS value of the oscillating magnetic field will be:
1. \(1.6\times 10^{-8}~\text{T}\)
2. \(1.6\times 10^{-9}~\text{T}\)
3. \(144\times 10^{-8}~\text{T}\)
4. \(11.3\times 10^{-8}~\text{T}\)

Subtopic:  Properties of EM Waves |
 66%
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The magnetic field in the plane electromagnetic wave is given by

Bz=2×10-7sin(0.5×103x+1.5×1011t) tesla

The expression for the electric field will be

(1) Ez=302 sin(0.5×103x+1.5×1011t) V/m

(2) Ez=60 sin(0.5×103x+1.5×1011t) V/m

(3) Ey=302 sin(0.5×1011x+1.5×103t) V/m

(4) Ey=60 sin(0.5×103x+1.5×1011t) V/m

 

Subtopic:  Properties of EM Waves |
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A plane electromagnetic wave

Ez=100 cos(6×108t+4x) V/m

propagates in a medium of dielectric constant

(1) 1.5

(2) 2.0

(3) 2.4

(4) 4.0

Subtopic:  Properties of EM Waves |
 56%
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The energy of the X-rays photon is 3.3×10-16J. Its frequency is :

(1) 2×1019 Hz

(2) 5×1018 Hz

(3) 5×1017 Hz

(4) 5×1016 Hz

Subtopic:  Electromagnetic Spectrum |
 77%
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