A parallel plate capacitor with circular plates of radius 1 m has a capacitance of 1 nF. At t = 0, it is connected for charging in series with a resistor R = 1 MΩ across a 2V battery (as shown in the figure). Find the magnetic field at a point P, halfway between the centre and the periphery of the plates, after t = 10–3 s. (The charge on the capacitor at time t is (t) = CV[1 – exp (–t/τ)], where the time constant τ is equal to CR.) 

  

1. 0.74×10-13 T
2.  0.67×10-13 T
3.  0.74×10-12 T
4. 0.67×10-12 T

Subtopic:  Maxwell's Equations |
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A plane electromagnetic wave of frequency \(25 ~\text{MHz}\) travels in free space along the \(x\text-\)direction. At a particular point in space and time, \(\vec{E_{0}}=6.3 \hat{j}~\text{V/m}.\) What is \(\vec{B_{0}}\) at this point?
1. \(2.1\times 10^{-8} \hat{k}~\text{T}\)
2. \(1.2\times10^{-8} \hat{k}~\text{T}\)
3. \(2.1\times10^{-8} \hat{j}~\text{T}\)
4. \(1.2\times10^{-8} \hat{j}~\text{T}\)

Subtopic:  Properties of EM Waves |
 78%
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The magnetic field in a plane electromagnetic wave is given by \({B}=\left(2 \times 10^{-7}\right)\sin \left(0.5 \times 10^3 {x}+1.5 \times 10^{11} {t}\right )~\text{T}\). The wavelength and frequency of the wave are respectively:
1. \( 2.16~\text{cm}, 24.1~\text{GHz} \) 2. \( 0.29~\text{cm}, 13.7~\text{GHz} \)
3. \( 3.23 ~\text{cm}, 20.0~\text{GHz} \) 4. \( 1.26~\text{cm}, 23.9~\text{GHz}\)
Subtopic:  Properties of EM Waves |
 73%
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The magnetic field in a plane electromagnetic wave is given by;
\(B_y=\left(2 \times 10^{-7}\right) \sin \left(0.5 \times 10^3 {x}+1.5 \times 10^{11} {t}\right)~\text{T}\).
The expression for the electric field is:
1. \(E_z=60 \sin \left(0.5 \times 10^3 x+1.5 \times 10^{11} t\right) ~\text{V/m} \)
2. \(E_z=60 \sin \left(1.5 \times 10^3 x+0.5 \times 10^{11} t\right) ~\text{V/m} \)
3. \(E_z=55 \sin \left(0.5 \times 10^3 x+1.5 \times 10^{11} t\right) ~\text{V/m} \)
4. \(E_z=55 \sin \left(1.5 \times 10^3 x+0.5 \times 10^{11} t\right) ~\text{V/m} \)
Subtopic:  Properties of EM Waves |
 83%
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Light with an energy flux of \(18~\text{W/cm}^{2}\) falls on a non-reflecting surface at normal incidence. If the surface has an area of \(20~\text{cm}^{2}\), what is the average force exerted on the surface during a \(30\) minute time span?
1. \(2.1\times10^{-6}~\text{N}\)
2. \(1.8\times10^{-6}~\text{N}\)
3. \(1.2\times10^{-6}~\text{N}\)
4. \(2.1\times10^{-5}~\text{N}\)

Subtopic:  Properties of EM Waves |
 56%
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Assume a bulb of efficiency \(2.5\%\) as a point source. The peak values of the electric field and magnetic field produced by the radiation coming from a \(100~\text{W}\) bulb at a distance of \(3~\text{m}\) are respectively:

1. \( 2.5 ~\text{V/m}, ~2.2 \times 10^{-8} ~\text{T} \)
2. \( 3.6 ~\text{V/m}, ~ 3.6 ~\text{T} \)
3. \( 4.07~\text{V/m},~ 1.4 \times 10^{-8} ~\text{T}\)
4. \( 4.2 ~\text{V/m}, ~3.4 \times 10^{-6}~\text{T}\)
Subtopic:  Properties of EM Waves |
 53%
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