A parallel plate capacitor with circular plates of radius `1m` has a capacitor of `1nF`. At `t = 0`, it is connected for charging in series with a resistor `R = 1MOmega` across a `2V` battery. Calculate the magnetic field at a point `P`, halfway between the cnetre and the periphery of the plates, after `t = 10^(-3)sec`.

A parallel plate capacitor with circular plates of radius `1m` has a c

1.	A parallel plate capacitor with circular plates of radius `1m` has a capacitor of `1nF`. At `t = 0`, it is connected for charging in series with a resistor `R = 1MOmega` across a `2V` battery. Calculate the magnetic field at a point `P`, halfway between the cnetre and the periphery of the plates, after `t = 10^(-3)sec`.
Answer» The time constant of the CR circuit is `tau=CR=10^(-3)`s. Then we have `q(t)=CV[1-exp(-t//tau)]` `=2xx10^(-8)[1-exp(-t//10^(-2)]` The electric field in between the plates at time t is `E=(q(t))/(epsilon_(0)A)=(q)/(piepsilon_(0)),A=pi(1)^(2)m^(2)=` area of the plates Consider now a circular loop of radius `(1//2)`m parallel tot he plates passing through P. the magnetic field B at all points on the loop is along the loop and of the same value. the flux `Phi_(E)` through this loop is `Phi_(E)=Exx` area of the loop `=Exxpixx((1)/(2))^(2)=(piE)/(4)=(q)/(4epsilon_(0))` The displacement current `i_(d)=epsilon_(0)=(edPhi_(E))/(dt)=(1)/(4)(dq)/(dt)=0.5xx10^(-6)exp(-1)` at `t=10^(-3)s`. Now, applying Ampere-maxwell law to the loop we get `Bxx2pixx((1)/(2))=pi_(0)(i_(c)+i_(d))=mu_(0)(0+i_(d))=0.5xx10^(-6)mu_(0)exp(-1)` or, `B=0.74xx10^(-3)T`

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