Sea water at frequency `v=4 xx 10^(8)` Hz has permittivity `epsilon ~~ 80 epsilon_(0)` permeability `mu= mu_(0)` and resistivity `rho= 0.25`M. Imagine a parallel plate capacitor immersed in sea water and driven by an alternating voltage source `V(t) =V_(0) " sin "(2pivt).` What fraction of the conduction current density is the displacement current density ?

Sea water at frequency v=4xx10^(8) Hz has permittivity in ~~ 80 in_(0) , permeability mu = mu_(0) and resistivity rho = 0.25 Omega , Imagine a parallel plate capacitor immersed in sea water and driven by an alternating voltage source V(t)=V_(0)sin 2pi vt . What fraction of the conduction current density is the displacement current current density ?

Sea water at frequency v=4xx10^8Hz has permitivity epsilon~~80epsilon_0 , pemeability mu=mu_0 and resistivity rho=0.25Omega-m . Imagine a parallel plate capacitor immersed in sea water and driven by an alternating voltage source V(t)=V_0sin(2pivt) . What fraction of the conduction density is the dispalcement current density?

Sea water at a frequency f=9xx10^(2) Hz, has permittivity epsilon=80epsilon_(0) , and resistivity rho=0.25 Omega m. Imagine a parallel plate capacitor is immersed in seawater and is driven by an alternating voltage source V(t)= V_(0) sin (2pi ft) . Then the conduction current density becomes 10^(x) times the displacement current density after time t =(1)/(800)s . The value of x is __________ (Given : (1)/(4pi epsilon_(0))=9xx10^(9)Nm^(2)C^(-2) )

A parallel plate capacitor consits of two circular plates of radius 0.5m. If electric field between the plates changed as (dE)/(dt) = 10^(10). (V)/(m-c) , then find displacement current between the plates

The voltage between the plates of a parallel plate capacitor of capacitance 1.0 mu F is changing at the rate of 5 V s^(-1) . What is the displacement current in the capacitance ?

A parallel plate capacitor consists of two circular plates of radius 0.05 m. If electric field between the plate is change as (dE)/(dt) = 10^(10) (V)/(m-s) , then find displacement current between the plates.

A parallel plate capacitor consists of two circular plates of radius 0.05 m. If electric field between the plate is change as (dE)/(dt) = 10^(10) (V)/(m-s) , then find displacement current between the plates.

An alternating voltage V = 400 sin (500 omega t)V is connected to a 0.2 kOmega resistor, what will be the rms value of current ?