get the solution 1. A coaxial transmission line has inner and outer conductor radii a and b. Between conductors (a &...
need help for #1 and #3 thank you EE 360 Test 2 Write every step for each question 1. (a) Derive the expression for capacitance between two concentric spherical surfaces of radii Ri and Ro(RI R:) if the space between the surfaces is filled with a homogenous and isotropie material having permittivity o, (b) Derive expression for the resistance of medium between two concentric spherical surfaces in part (a) has conductivity σ as its' conductivity. ols 2. A current I...
P25.5. Compare the loss in the inner conductor and outer conductor of a coaxial cable at 1 MHz. Assume the conductors are made of copper, that the cable is filled with a dielectric of permittivity er - 3, and that the dimensions are such that the inner conductor radiu:s a = 0.45 mm, and inner radius of the outer conductor b ae. The ratio of losses per unit length in the two conductors is: (a) 3.05. (b) 2.72. (c) 2.30....
Calculate the electrical resistance per unit length between the inner and outer conductor of a coaxial cable. Between the inner conductor with radius ?1 and the outer conductor with radius ?2 there is an insulator with the residual conductivity ?.
Imagine a coaxial cable like transmission line with square cross-section of inner and outer conductors as shown in the figure. The cable is made transmission line at 300 MHz. 5.8x10. Calculate the AC resistance this with conducti e of copper with conductivity σ 80m 4mm 2mm Imagine a coaxial cable like transmission line with square cross-section of inner and outer conductors as shown in the figure. The cable is made transmission line at 300 MHz. 5.8x10. Calculate the AC resistance...
Problem 2: Consider a coaxial cable with an inner conductor radius of a and outer conductor radius of b. The region between the conductors is filled with a linear dielectric material that has a relative permittivity er (recall, ε = Er €0). A voltage V is applied to a length h of the cable, resulting in a free-charge of qf residing on the inner conductor and -9f residing on the outer conductor. Part a Determine the D, E, and P...
Q9) A coaxial cable of length L-10m, has inner and outerradii of a-1 mm and b-3 mm. The region a p<b is a dielectric with Ep-2 and conductivity σ-0.01 S/m. Let V-10 V at ρ-a and V-0 V at ρ-b, find i. Eand Vin the region a <ρ<b. ii. The capacitance per unit length. iii. ρ,atpra. iv. The stored energy per unit length. v. The resistance between the inner and outer conductors. vi. The leakage current (the current between the...
Q. 2A coaxial line has an inner conductor of diameter 2mm and inside outer of the outer conductor is 6mm. the region between the two conductors is filled with a pure dielectric of 6 =3. Calculate L, R, C and G. find also phase velocity and propagation constant
Q.3 Consider an infinitely long coaxial structure shown in the figure below. Inner conductor has a radius a and outer conducting shell has a radius b. Thickness of the outer conductor is ignored as it is very small. Between two conductors, there is a magnetic material with permeability () = Mo a Assume that the current I is distributed uniformly over the cross-section of the inner conductor whereas it flows on the surface of the outer conductor. a) Find the...
A coaxial line has an inner and outer conductor radius a = 0.5 cm and b = 1 cm, respectively. The line is filled with an insulating material where u = Mo and ε = 2.25€0. The operating frequency is f = 1 GHz. The conductors and the dielectric have conductivities oc = 5.8 x 107 - and o = 10-3, respectively. (a) Calculate the per-unit-length inductance and capacitance L' and C', respectively, the phase velocity Vp, the characteristic impedance...
Problem 26.66 The coaxial cable shown in the figure (Eugure 1)consists of a solid inner conductor of radius a and a hollow outer conductor of inner radius band thickness c The two carry equal but opposite currents I, uniformly distributed. of 1 previous l 4 of 4 l return to assignr Part A Find an expression for the magnetc field strength as a function of radial positionrwithin the inner conductor Express your answer in terms of the variables I, a,...