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Sagot :
Part a: Displacement current: I(d1) = 8 ampere.
Part b: displacement current: I(d2) = 2.812 x 10⁻¹ A.
Part c: magnetic field at a r = 3 cm radial distance: 1.875 x 10⁻⁶ T.
Explain the term Displacement Current?
- The electric field that exists between both the capacitor plates stores energy in capacitors.
- A current known as displacement current forms between the capacitor plates if the electric field between them is continuously changing.
Part a: Displacement current within the 21 cm-radius circular loop.
Since the capacitance plate has a 16 cm radius, the current can only flow in a loop of this size, or the total displacement current flows within a loop with a 21 cm radius.
Displacement current;
I(d1) = ∈₀.dФ(e)/dt
I(d1) = ∈₀ x A x (Qr.d/∈₀.A.d)
I(d1) = Qr
I(d1) = 8 C/s
I(d1) = 8 ampere of Displacement current.
Part b: displacement current flowing through a 3 cm-diameter circular loop
Density of the displacement current;
Jd = I(d1)/A
Jd = 8/(8.042 x 10⁻²)
Jd = 99.478 A/m²
For the radius r, area of loop
A1 = πr²
A1 = 3.14 x (0.03)²
A1 = 2.827 x 10⁻³ m²
Thus, displacement current;
I(d2) = Jd x A1
I(d2) = 99.478 x 2.827 x 10⁻³
I(d2) = 2.812 x 10⁻¹ A.
Part c: magnetic field at a r = 3 cm radial distance.
Field of magnetism:
B = μ₀.I(d2) / 2πr
B = 4π x 10⁻⁷ x 2.812 x 10⁻¹ / 2π x 0.03
B = 1.875 x 10⁻⁶ T
Thus, magnetic field at a r = 3 cm radial distance is 1.875 x 10⁻⁶ T.
To know more about the Displacement Current, here
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