What is the correct equation for displacement current density?

In summary, the conversation discusses the correct equation for displacement current density, with two possible options proposed. The first equation (Jd = ε0εr(dE/dt)) is confirmed to be correct, as it takes into account both sources of displacement current. The second equation (Jd = ε0(εr-1)(dE/dt)) is found to only account for one source and therefore gives a different answer.
  • #1
ryanwilk
57
0
Hi, just to check which equation for Jd (the displacement current density) is correct:

1) Jd = ε0εr(dE/dt), or
2) Jd = ε0(εr-1)(dE/dt)

1) came from the fact that Jd = ε(dE/dt) and ε=ε0εr
2) came from differentiating P = ε0(εr-1)E (since Jd=dP/dt).

It's only a minor thing but in a question I'm doing, it gives a different answer to 1 s.f. so you can't really just say that εr = εr-1.

Thanks.
 
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  • #2
The first equation is correct. The displacement current has two sources.
One is dE/dt, and one is dP/dt, which add to each other. Your second equation is only for the dP/dt part.
 
  • #3
Ah ok, thanks a lot =)
 

Related to What is the correct equation for displacement current density?

What is displacement current density?

Displacement current density is a concept in electromagnetism that describes the rate of change of electric displacement. It is represented by the symbol Jd and is measured in amperes per square meter (A/m²).

How is displacement current density related to electric current?

Displacement current density is closely related to electric current, as it is a component of the total current in a circuit. It is a time-varying electric field that is generated when the electric flux through a surface changes over time.

What is the significance of displacement current density in Maxwell's equations?

In Maxwell's equations, displacement current density plays a crucial role in describing the relationship between electric and magnetic fields. It is included in the equation of continuity, which states that the total current in a closed system must be conserved.

How is displacement current density different from conduction current density?

Unlike conduction current density, which is caused by the flow of electrons in a conductor, displacement current density is associated with the changing electric fields in a non-conducting medium. It does not involve the movement of charges but rather the displacement of electric flux.

What are some applications of displacement current density?

Displacement current density has various applications in electromagnetic devices, such as in antennas, capacitors, and transformers. It is also essential in the propagation of electromagnetic waves, which are used in communication technologies such as radio, television, and cellular networks.

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