358753 An \(ac\) source is connected to a capacitor \(C\).
Due to decrease in its operating frequency:

358754 A parallel plate capacitor of plate separation \(2\,mm\) is connected in an electric circuit having source voltage \(400\;V\). If the plate area is \(60\;c{m^2}\), then the value of displacement current for \({10^{ - 6}}\sec \) will be \(\left[ {In\,{{10}^{ - 6}}\;s} \right.\) voltage across capacitor becomes 400 volt]

358755 Which of the following statements is/are correct?
(I) Displacement current happens because of changing electric field.
(II) Displacement current happens because of motion of charged particles.

358756 The Maxwell's four equations are written as
(i) \(\oint_{s} \bar{E} \cdot d \bar{s}=\dfrac{q}{\varepsilon_{o}}\)
(ii) \(\oint_{S} B . d s=0\)
(iii) \(\oint_{S} E \cdot d l=\dfrac{d}{d t} \int_{S} B \cdot d s\)
(iv) \(\int \bar{B} \cdot d \bar{l}=\mu_{0} I+\mu_{0} \varepsilon_{0} \dfrac{d}{d t} \int \bar{E} \cdot \mathrm{d} \bar{s}\)
The correct equations are

358753 An \(ac\) source is connected to a capacitor \(C\).
Due to decrease in its operating frequency:

358754 A parallel plate capacitor of plate separation \(2\,mm\) is connected in an electric circuit having source voltage \(400\;V\). If the plate area is \(60\;c{m^2}\), then the value of displacement current for \({10^{ - 6}}\sec \) will be \(\left[ {In\,{{10}^{ - 6}}\;s} \right.\) voltage across capacitor becomes 400 volt]

358755 Which of the following statements is/are correct?
(I) Displacement current happens because of changing electric field.
(II) Displacement current happens because of motion of charged particles.

358756 The Maxwell's four equations are written as
(i) \(\oint_{s} \bar{E} \cdot d \bar{s}=\dfrac{q}{\varepsilon_{o}}\)
(ii) \(\oint_{S} B . d s=0\)
(iii) \(\oint_{S} E \cdot d l=\dfrac{d}{d t} \int_{S} B \cdot d s\)
(iv) \(\int \bar{B} \cdot d \bar{l}=\mu_{0} I+\mu_{0} \varepsilon_{0} \dfrac{d}{d t} \int \bar{E} \cdot \mathrm{d} \bar{s}\)
The correct equations are

358753 An \(ac\) source is connected to a capacitor \(C\).
Due to decrease in its operating frequency:

358754 A parallel plate capacitor of plate separation \(2\,mm\) is connected in an electric circuit having source voltage \(400\;V\). If the plate area is \(60\;c{m^2}\), then the value of displacement current for \({10^{ - 6}}\sec \) will be \(\left[ {In\,{{10}^{ - 6}}\;s} \right.\) voltage across capacitor becomes 400 volt]

358755 Which of the following statements is/are correct?
(I) Displacement current happens because of changing electric field.
(II) Displacement current happens because of motion of charged particles.

358756 The Maxwell's four equations are written as
(i) \(\oint_{s} \bar{E} \cdot d \bar{s}=\dfrac{q}{\varepsilon_{o}}\)
(ii) \(\oint_{S} B . d s=0\)
(iii) \(\oint_{S} E \cdot d l=\dfrac{d}{d t} \int_{S} B \cdot d s\)
(iv) \(\int \bar{B} \cdot d \bar{l}=\mu_{0} I+\mu_{0} \varepsilon_{0} \dfrac{d}{d t} \int \bar{E} \cdot \mathrm{d} \bar{s}\)
The correct equations are

358753 An \(ac\) source is connected to a capacitor \(C\).
Due to decrease in its operating frequency:

358754 A parallel plate capacitor of plate separation \(2\,mm\) is connected in an electric circuit having source voltage \(400\;V\). If the plate area is \(60\;c{m^2}\), then the value of displacement current for \({10^{ - 6}}\sec \) will be \(\left[ {In\,{{10}^{ - 6}}\;s} \right.\) voltage across capacitor becomes 400 volt]

358755 Which of the following statements is/are correct?
(I) Displacement current happens because of changing electric field.
(II) Displacement current happens because of motion of charged particles.

358756 The Maxwell's four equations are written as
(i) \(\oint_{s} \bar{E} \cdot d \bar{s}=\dfrac{q}{\varepsilon_{o}}\)
(ii) \(\oint_{S} B . d s=0\)
(iii) \(\oint_{S} E \cdot d l=\dfrac{d}{d t} \int_{S} B \cdot d s\)
(iv) \(\int \bar{B} \cdot d \bar{l}=\mu_{0} I+\mu_{0} \varepsilon_{0} \dfrac{d}{d t} \int \bar{E} \cdot \mathrm{d} \bar{s}\)
The correct equations are