PROBLEM 02.03 A uniform steady current / flows down a straight, infinitely long, non-magnetic wire of...
PROBLEM 02.05 A uniform current with the surface current density K flows along an infinite conducting plane. The plane is adjourned on one of its sides by an infinite plate of finite thickness d made of a non-conducting linear material with magnetic permeability p Find the magnetic field B, the H-field, the magnetization M, and all bound currents ir everviwhere
An infinitely long, straight, cylindrical wire of radius R carries a uniform current density J. Using symmetry and Ampere's law, find the magnitude and direction of the magnetic field at a point inside the wire. For the purposes of this problem, use a cylindrical coordinate system with the current in the +z-direction, as shown coming out of the screen in the top illustration. The radial r-coordinate of each point is the distance to the central axis of the wire, and...
The magnetic field inside wires In a regular household wire, current I flows (uniformly!) down a long straight conducting wire of radius R. Assume the metal is a "magnetically linear" material, and find the magnetic field B as a function of distance s from the center of the wire (both inside and outside the wire) What are all the bound currents in this problem? (Check yourself by verifying that the total bound current is zero) What can you say about...
A cylindrical non-magnetic wire, radius R, carries a uniform steady current I. Find H inside and outside the wire. If the current is 30 kA, what is the field in T at a distance of 1 m?
a) In a regular household wire, current I flows (uniformly!) down a long straight con- ducting wire of radius R. Assume the metal is a "magnetically linear" material, with magnetic susceptibility Xm. Find the magnetic field B (magnitude and direction) as a function of distance r from the center of the wire (both inside and outside the wire). b) Compute the total bound current per length of the rod. (Include both volume and surface bound currents.) c) What can you...
Consider an infinitely long straight wire with current I. Let's take the direction of the wire as the z-axis. Current is flowing in the positive z-direction. We already know the magnetic field. Find a vector potential for the case. Use the Coulomb gauge. 6. 7. For the example 1 of Chapter 6 in the textbook, obtain the magnetic field outside of the sphere. of a polarized object was the same as that of a bound volume charge pV. plus a...
How does the magnitude of magnetic field around a long Straight current carrying wire of radive B depend on radial distan RAR from the lang gxis of wire ? Assuming that the cpirent is steady and uniformly distribe within N the wire, How does the field magnitude che on the radial distance rak from the wire axis-
A wire carries a steady current of 2.00 A. A straight section of the wire is 0.750 m long and lies along the y axis within a uniform magnetic field, = 2.00 T. If the current is in the negative y direction, what is the magnetic force on the section of wire? Find magnitude. Already know direction is - x axis thank you
Question: Consider one infinitely long straight wire with a uniform charge density of 1C/m. Sketch the electric field around the wire Question: In the above problem, calculate the magnitude of the electric field at a distance R from the wire. How is it different (if any)from the field of a point charge? Question: Consider two infinite wires 1 m apart with a uniform charge density per unit length 1 C/m. Calculate the force per unit length between the wires. To...
A wire caries a steady current of 2.00 A. A straight section of the wire is 0.750 m long and lies along the y axis within a uniform magnetic field, B - 2.00 k T. If the current is in the negative y direction, what is the magnetic force on the section of wire? Magnitude Direction -x ㅶ