(a) Explanation Given data: The current flowing through the conductor is I . The inner conductor has the radius a . The inner radii of the outer conductor is b . The outer radii of the outer conductor is c . Calculation: The current I flows through + z direction. The required diagram is shown in Figure 1. To determine the magnetic field in the region r ≤ a , lets choose an imaginary circular amperian contour with radius r = r 1 ≤ a . Apply ampere circuital law for the amperian contour, ∮ C 1 H 1 ⋅ d l 1 = I 1 (1) Here, I 1 is the fraction of total current flowing through C 1 . H 1 is the magnetic field present in the contour. Apply Fleming’s right hand thumb rule to determine the direction of H 1 . Since, the current I is flowing along + z direction, the direction of H 1 will be + ϕ ^ . Hence, the magnetic field H 1 is written as, H 1 = + ϕ ^ H 1 (2) The differential length d l 1 in cylindrical coordinates is written as, d l 1 = ϕ ^ r 1 d ϕ Since amperian path is assumed to be circular, the limits for ϕ will be 0 to 2 π . Substitute ϕ ^ r 1 d ϕ for d l 1 and + ϕ ^ H 1 for H 1 in equation (1). I 1 = ∫ 0 2 π H 1 ( ϕ ^ ⋅ ϕ ^ ) r 1 d ϕ Solve above expression as, I 1 = 2 π r 1 H 1 (3) The fraction of current I 1 is given by, I 1 = ( π r 1 2 π a 2 ) I = ( r 1 a ) 2 I Substitute ( r 1 a ) 2 I for I 1 in equation (3). ( r 1 a ) 2 I = 2 π r 1 H 1 H 1 = ( r 1 2 π a 2 ) I Substitute ( r 1 2 π a 2 ) I for H 1 and r for r 1 in equation (2). H 1 = + ϕ ^ ( r 2 π a 2 ) I for r ≤ a . For the region a < r < b , Choose an amperian path C 2 with radius r 2 > a which encloses all the current I and develops the magnetic field H 2 . Apply ampere circuital law, ∮ C 1 H 2 ⋅ d l 2 = I Similarly as above, solve the integral for current I as, I = 2 π r 2 H 2 H 2 = I 2 π r 2 Hence, similarly the magnetic field H 2 is written as, H 2 = + ϕ ^ ( I 2 π r ) for a < r < b (b) To determine The plot of magnetic field for the given values.

Fundamentals of Applied Electromagnetics (7th Edition)

7th Edition

ISBN: 9780133356816

Author: Fawwaz T. Ulaby, Umberto Ravaioli

Publisher: PEARSON

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Chapter 5, Problem 21P

(a)

To determine

The magnetic field in the each of the given region.

(b)

To determine

The plot of magnetic field for the given values.

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Chapter 5, Problem 20P

Chapter 5, Problem 22P

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Chapter 5 Solutions

Fundamentals of Applied Electromagnetics (7th Edition)

Ch. 5.1 - What are the major differences between the...Ch. 5.1 - Prob. 2CQ Ch. 5.1 - How is the direction of the magnetic moment of a...Ch. 5.1 - If one of two wires of equal length is formed into...Ch. 5.1 - An electron moving in the positive x direction...Ch. 5.1 - A proton moving with a speed of 2 106 m/s through...Ch. 5.1 - A charged particle with velocity u is moving in a...Ch. 5.1 - A horizontal wire with a mass per unit length of...Ch. 5.1 - A square coil of 100 turns and 0.5 m long sides is...Ch. 5.2 - Two infinitely long parallel wires carry currents...

Ch. 5.2 - Devise a right-hand rule for the direction of the...Ch. 5.2 - What is a magnetic dipole? Describe its magnetic...Ch. 5.2 - Prob. 6E Ch. 5.2 - A wire carrying a current of 4 A is formed into a...Ch. 5.2 - Prob. 8E Ch. 5.3 - What are the fundamental differences between...Ch. 5.3 - Prob. 9CQ Ch. 5.3 - Compare the utility of applying the BiotSavart law...Ch. 5.3 - Prob. 11CQ Ch. 5.3 - A current I flows in the inner conductor of a long...Ch. 5.3 - The metal niobium becomes a superconductor with...Ch. 5.5 - What are the three types of magnetic materials and...Ch. 5.5 - What causes magnetic hysteresis in ferromagnetic...Ch. 5.5 - Prob. 14CQ Ch. 5.5 - The magnetic vector M is the vector sum of the...Ch. 5.6 - With reference to Fig. 5-24, determine the single...Ch. 5.7 - Prob. 15CQ Ch. 5.7 - What is the difference between self-inductance and...Ch. 5.7 - Prob. 17CQ Ch. 5.7 - Use Eq. (5.89) to obtain an expression for B at a...Ch. 5 - An electron with a speed of 8 106 m/s is...Ch. 5 - When a particle with charge q and mass m is...Ch. 5 - The circuit shown in Fig. P5.3 uses two identical...Ch. 5 - The rectangular loop shown in Fig. P5.4 consists...Ch. 5 - In a cylindrical coordinate system, a 2 m long...Ch. 5 - Prob. 6P Ch. 5 - Prob. 7P Ch. 5 - Prob. 8P Ch. 5 - The loop shown in Fig. P5.9 consists of radial...Ch. 5 - An infinitely long, thin conducting sheet defined...Ch. 5 - An infinitely long wire carrying a 25 A current in...Ch. 5 - Prob. 12P Ch. 5 - Prob. 13P Ch. 5 - Prob. 14P Ch. 5 - A circular loop of radius a carrying current I1 is...Ch. 5 - Prob. 16P Ch. 5 - Prob. 17P Ch. 5 - Prob. 18P Ch. 5 - Three long, parallel wires are arranged as shown...Ch. 5 - A square loop placed as shown in Fig. P5.20 has 2...Ch. 5 - Prob. 21P Ch. 5 - Prob. 22P Ch. 5 - Repeat Problem 5.22 for a current density J=zJ0er.Ch. 5 - In a certain conducting region, the magnetic field...Ch. 5 - Prob. 25P Ch. 5 - Prob. 26P Ch. 5 - Prob. 27P Ch. 5 - A uniform current density given by J=zj0 (A/m2)...Ch. 5 - A thin current element extending between z = L/2...Ch. 5 - In the model of the hydrogen atom proposed by Bohr...Ch. 5 - Iron contains 8.5 1028 atoms/m3. At saturation,...Ch. 5 - The xy plane separates two magnetic media with...Ch. 5 - Given that a current sheet with surface current...Ch. 5 - In Fig. P5.34, the plane defined by x y = 1...Ch. 5 - The plane boundary defined by z = 0 separates air...Ch. 5 - Prob. 36P Ch. 5 - Prob. 37P Ch. 5 - A solenoid with a length of 20 cm and a radius of...Ch. 5 - Prob. 39P Ch. 5 - The rectangular loop shown in Fig. P5.40 is...Ch. 5 - Determine the mutual inductance between the...

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