the figure, a conducting rectangular body of dimensions dx = 9.92 m, dy = 3.96 m, and dz = 1.85 m moves at constant velocity v→ = (13.0 m/s)î through a uniform magnetic field B→ = (24.6 mT)ĵ. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body?

the figure, a conducting rectangular body of dimensions dx = 9.92 m, dy = 3.96 m, and dz = 1.85 m moves at constant velocity v→ = (13.0 m/s)î through a uniform magnetic field B→ = (24.6 mT)ĵ. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body?

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.1P: Given the complex numbers A1=630 and A2=4+j5, (a) convert A1 to rectangular form: (b) convert A2 to...

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Concept explainers

Ampere Circuital Law

Ampere's Law states that "for any closed loop path, the sum of the length elements times the magnetic field in the direction of the length element is equal to the permeability times the electric current enclosed in the loop.”

Current Density

To design the electrical and electronic system, the current density is an important factor. The designer current level is the factor on which the circuit performance depends and with the help of the dimensions of the conducting current the current density is then determined. For instance, despite the lower current demanded by smaller devices as integrated circuits are reduced in size, there is a type of trend in achieving the higher device number in even smaller chip areas. The current density is increased in this region at higher frequencies because the conducting region in a wire becomes confined and this is known as the skin effect. The consequences increase as the current densities become higher.

Question

In the figure, a conducting rectangular body of dimensions d_x = 9.92 m, d_y = 3.96 m, and d_z = 1.85 m moves at constant velocity v→ = (13.0 m/s)î through a uniform magnetic field B→ = (24.6 mT)ĵ. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body?

Quantities that have magnitude and direction but not position. Some examples of vectors are velocity, displacement, acceleration, and force. They are sometimes called Euclidean or spatial vectors.

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