(A) The displacement current $I_d$ is given by the formula $I_d = \epsilon_0 \frac{d\Phi_E}{dt}$.Since $\Phi_E = E \cdot A$ and $V = E \cdot d$,we hav

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(A) The displacement current $I_d$ is given by the formula $I_d = \epsilon_0 \frac{d\Phi_E}{dt}$.Since $\Phi_E = E \cdot A$ and $V = E \cdot d$,we have $I_d = C \frac{dV}{dt}$.Given: Capacitance $C = 2 \ pF = 2 \times 10^{-12} \ F$.Rate of change of potential $\frac{dV}{dt} = 10^{12} \ V \ s^{-1}$.Substituting the values: $I_d = (2 \times 10^{-12} \ F) \times (10^{12} \ V \ s^{-1})$.$I_d = 2 \ A$.

Class 12 Physics Electromagnetic waves Maxwell's equations , Concept of displacement current and Hertz experiment

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The capacitance of a capacitor is $2 \ pF$. If the electric field inside the capacitor changes at a rate of $10^{12} \ V \ s^{-1}$,the displacement current is ..... $A$.

A
$2$
B
$3$
C
$6$
D
$9$

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Class 12 Questions

Class 12

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Electromagnetic waves

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Maxwell's equations , Concept of displacement current and Hertz experiment

Derive the expression for the displacement current term in the modified Ampere's circuital law. Define displacement current and state its $SI$ unit.

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What contradiction is found by using Ampere's circuital law to obtain the magnetic field during the charging of a capacitor?

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At a particular instant,the current in the circuit given below is $i$. The displacement current between the plates of the capacitor shown below is ..........

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"Changing electric field produces magnetic field". Explain the importance of the given statement.

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An electromagnetic wave of frequency $100 \text{ MHz}$ propagates through a medium of conductivity $\sigma = 10 \text{ mho/m}$. The ratio of maximum conducting current density to maximum displacement current density is . . . . . . . $\left[ \text{Take } \frac{1}{4 \pi \epsilon_0} = 9 \times 10^9 \text{ Nm}^2/\text{C}^2 \right]$

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The capacitance of a capacitor is $2 \ pF$. If the electric field inside the capacitor changes at a rate of $10^{12} \ V \ s^{-1}$,the displacement current is ..... $A$.

Similar Questions

Derive the expression for the displacement current term in the modified Ampere's circuital law. Define displacement current and state its $SI$ unit.

What contradiction is found by using Ampere's circuital law to obtain the magnetic field during the charging of a capacitor?

At a particular instant,the current in the circuit given below is $i$. The displacement current between the plates of the capacitor shown below is ..........

"Changing electric field produces magnetic field". Explain the importance of the given statement.

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