At a frequency f: 100 MHz, verify that copper (σ-58 x 107 m,6-1 ) is a...
5-At a frequency f = 100 MHz, verify that copper(σ=5.8×107 m,er-1)is a good conductor, and quartz (20 Marks) (σ= 10-17示,Er = 4) ¡s a good dielectric.
8-16 Two nonmagnetic dielectrics( μ: 1 ) have the same dielectric constant( ε.-2.25 ), but different conductivities( σ-O and G-50 [S/m). If a wave of a frequency 100 MHz) propagates in each dielectric, compare the values of (a) β, (b) λ, and (c) up of the two waves. An electromagnetic plane wave propagating in a nonmagnetic dielectric has the instantaneous electric and magnetic field intensities given as 8-17 (z.t)- a,967.le" cos(1.5x10°t-Bz) and 'W(z, t) = ay 10e-az cos(1.5x10°t-Bz-0.7194) Determine (a)...
A rectangular copper block is 30 cm in height (along z). In response to a wave incident upon the block from above, a current is induced in the block in the positive x direction. Determine the ratio of the ac resistance of the block to its dc resistance at 10 MHz. The relevant properties of copper are given in Appendix B. A30 25 30cm 20 15 10 5 30 30 20 20 10 10 Material Conductivity, σ (S/m) |...
A rectangular copper block is 30 cm in height (along z). In response to a wave incident upon the block from above, a current is induced in the block in the positive x direction. Determine the ratio of the ac resistance of the block to its dc resistance at 10 MHz. The relevant properties of copper are given in Appendix B. A30 25 30cm 20 15 10 5 30 30 20 20 10 10 Material Conductivity, σ (S/m) | Material...
(a) A low-loss coaxial cable is required for a 100 MHz project. The diameter of the inner conductor (copper, σc = 5.7×107 S/m) and the outer diameter of the dielectric to be 2 mm and 7.75 mm, respectively. The dielectric inside this cable is XLPE polyethylene (εr = 2.2, σ = 2.5×10-6 S/m). Please calculated the per-unit-length inductance and per-unit-length conductance; (b) Find the characteristic impedance and its phase constant; (c) A two-wire transmission line is used instead where an...
A low-loss dielectric is one with a small loss tangent, that is, (o/we) <1. We can reduce (6.52) for this special case by applying a binomial series expansion to the value within the 6.3.1 Low-Loss Dielectrics interior square root portion of the equations. The expansion is n(n-1);- + (1 + x)" = 1 + nx + 2! and for x< 1 this can be approximated as (1 + x)" = 1+ nx So we have + 1+ (6.53) 08 Inserting...
Material ρ (Ω•m) at 20 °C Resistivity σ (S/m) at 20 °C Conductivity Copper 1.68×10−8 5.96×107 Given the parallel plate shown below: (a) Calculate the TEM mode circuit parameters (L',C', R', and G') step-by-step and compare your derivation to the answer given in Table 2 of Ludwig. Hint: Do this calculation carefully since a problem of this nature may show up on an exam with a different geometry (b) Now calculate these parameters for a copper-plate transmission line operating at...
Quiz 5 Let E,-100 exp(プ40 z) ay V/m in a charge free region for which σ-0 and the frequency is 100 MHz. Find B, in phasor form. Quiz 5 Let E,-100 exp(プ40 z) ay V/m in a charge free region for which σ-0 and the frequency is 100 MHz. Find B, in phasor form.
Given a distortionless cable for 250 MHz. The outer radius is 20 mm. Assume copper conductors are thick (σc = 5.7×107 S/m). The medium has σ = 10-5 S/m, μ = μ0, ε = ε0. (a) Please design the radius of the inner conductor, so this transmission the line can be distortionless; (b) Calculate the characteristic impedance of this line and its attenuation constant; (c) Calculate the distance of at most 10 dB attenuation.
please answer A and B 10 branchest 58-1600 M 106 poesie abatt 1-1301 Mtor 100 plus 10 10 16 10 Frequency HE B. FM radio broadcasts a frequency from 88.1 MHz to 108.1 MHz. show work for (8) 1. What is the wavelength range? b. How long does it take for the radio signal to travel 100. Km?