3)In above figure, current flows through a truncated circular cone of conductivity o = 10* (S/m).Left radius of the cone is a= 1 cm, right radius of the cone is b = 2 cm, and length of the coneis L = 0.2 m. The z-axis given in the figure is the rotation axis of the cone.a) Assume that this resistance is fed by DC voltage as shown in figure. Then, the electric fieldintensity E inside the conductor becomes only dependent on z variable but not p and/or ovariable. For this DC case, what is DC resistance of this cone structure?b) Assume that DC voltage source is replaced with high frequency AC voltage source. For thiscase, in addition to dependency on z variable, the electric field intensity E inside the conductoris also directly proportional with p as being more realistic condition/model for high frequencyAC circuits. Then, what is high-frequency AC resistance of this cone structure?

(a) As the radius of the cone changes linearly with the length of the conductor, write the…

Answered: 3) In above figure, current flows…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

ds 3. Current head-on to point P: Consider the case where the current is heading straight toward the point where we want the magnetic field. What is the magnetic field at the point P shown? D P Hint: consider a small piece ds and think about what the Biot-Savart law tells you. HoI ds x î dB = 4rr2 Thin about the angle between ds and î.
.........
Faraday’s Law
A charged particle with mass m, charge q, kinetic energy K enters a magnetic field and then follows a circle of radius r as seen in the figure. Find the magnitude and direction of the magnetic field B. m, q
Figure shows a circuit and a conducting rod. A conducting rod moves with a constant velocity vperpendicular to a circuit with a current I=2.82sin(??)
QUESTION 5 Consider the complex number defined below. Z, = 1-j Convert Z1 to polar form and specify its angle in the box below in units of degrees. DO NOT ENTER UNITS IN THE ANSWER BOX BELOW.
Find / Derive the equation for the capacitance of a spherical capacitor, consisting a spherical conducting shell of radius "b" and charge - Q concentric with a smaller conducting sphere of radius "a" and charge Q. Draw the figure.
C2 For the figure shown, (ii) (i) Write the equation of current with Voltage. (V) 200 V respect to voltage. 20 A Current () (ii) Draw the phasor diagram for this waveform e= ot (iii) Find the average value of current and 30 voltage.
Solve this
2) Vo voltage is applied to the metal parallel plate capacitor system given in the figure. The region between the plates is filled with dielectric material of &-2.4. Bottom plate grounded and d-2mm in the z-axis of the top plate when placed at z=0 are within distance. For tension in the interplate region boundary conditions: If V(z)-0 volts for z-0 and V(z)-Vo volts for z-d; a) Potential expression in the interplate region V=? b) Electric field strength E-? c) Electric flux density D-? d) Surface charge densities of the plates p.=?
) Consider Figure 4.8-1 in your textbook. The windings are sinusoidally distributed. a. Express mmf,, the stator mmf. b. Determine the phase relationship between Ias and Ībs that will produce a counterclockwise rotation of the stator mmf. Specifically, does Ips lag or lead Ias, and by what angle? Locate the positions of S and N° when ias = V21, cos(wet), ips = -V21, sin(wet), and с. Wet = 30°.

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