Test: Maxwell’S Equations - Electronics and Communication Engineering (ECE) MCQ

Consider the fig. The rails have a resistance of 2 Ω/m. The bar moves to the right at a constant speed of 9 m/s in a uniform magnetic field of 0.8 T. The bar is at x = 2 m at t = 0.

Que: If 6 Ω resistor is present across each end, then I at 0.5 sec is

The internal dimension of a coaxial capacitor is a = 1.2 cm, b = 4 cm and c = 40 cm. The homogeneous material inside the capacitor has the parameter ε = 10^-11 F/m, μ = 10^-5H/m and  σ =10^-5 S/m.The electric field intensity is

Que: The current density J is

The internal dimension of a coaxial capacitor is a = 1.2 cm, b = 4 cm and c = 40 cm. The homogeneous material inside the capacitor has the parameter ε = 10^-11 F/m, μ = 10^-5H/m and  σ =10^-5 S/m.The electric field intensity is 

Que: The quality factor of the capacitor is

The following fields exist in charge free regions

The possible electromagnetic fields are

A parallel-plate capacitor with plate area of 5 cm² and plate separation of 3 mm has a voltage 50 sin (10³ t) V applied to its plates. If ε_r = 2, the displacement current is

In a coaxial transmission line (ε_r = 1), the electric field intensity is given by

The displacement current density is

Consider the region defined by |x|,|y| and |z| < 1. Let ε = 5ε₀ , μ = 4μ_o  and σ = 0 the displacement current densityJ_d  = 20cos(1.5 x 10⁸ t - ax)u_y μA/m². Assume no DC fields are present.

Consider the region defined by |x|,|y| and |z| < 1. Let ε = 5ε₀ , μ = 4μ_o  and σ = 0 the displacement current densityJ_d  = 20cos(1.5 x 10⁸ t - ax)u_y μA/m². Assume no DC fields are present.

Que: The magnetic field intensity is

Consider the region defined by |x|,|y| and |z| < 1. Let ε = 5ε₀ , μ = 4μ_o  and σ = 0 the displacement current densityJ_d  = 20cos(1.5 x 10⁸ t - ax)u_y μA/m². Assume no DC fields are present.

Que: The value of α is

Let  H = 2cos(10¹⁰ - βx) u_z A/m, μ = 3 x 10^-5 H/m, ε = 1.2 x 10^-10 F/m and σ = 0 everywhere.

Que: The electric flux density D is

Let  H = 2cos(10¹⁰ - βx) u_z A/m, μ = 3 x 10^-5 H/m, ε = 1.2 x 10^-10 F/m and σ = 0 everywhere.

Que: The magnetic flux density B is

A material has  σ = 0 and ε_r = 1. The magnetic field intensity is H = 4cos ( 10⁶t  - 0.01z)μ_y A/m.

Que: The electric field intensity E is

A material has  σ = 0 and ε_r = 1. The magnetic field intensity is H = 4cos ( 10⁶t  - 0.01z)μ_y A/m.

Que: The value of  μ_r is

The surface ρ = 3 and 10 mm, and z = 0 and 25 cm are perfect conductors. The region enclosed by these surface has μ = 25 x 10^-6  H/m, ε = 4 x 10^-11 F/m and σ = 0. If H = 2/ρ cos8πz cosωt u_ø A/m,  then the value of ω is

For distilled water μ = μ_o , ε = 81ε_o and  σ = 2 x 10^-3 S/m, the ratio of conduction current density to displacement current density at 1 GHz is

A conductor with cross-sectional area of 10 cm² carrier a conductor current 2sin (10⁹ t) mA. If σ = 2.5 x 10⁶ S/m and ε_r 4.6 the magnitude of the displacement current density is

In a certain region

If volume charge density ρ_v in z = 0 plane is zero, then ρ_v is