Describe (including illustrations) how Ampere’s Law can be used to determine the magnetic field for:
Describe (including illustrations) how Ampere’s Law can be used to determine the magnetic field for: An...
12) Ampere’s Law – Infinite Wire: (10 pts) (a) Use Ampere’s law to determine the magnetic field both inside and outside an infinite cylindrical wire of radius R and length l carrying a constant current I. Sketch the relevant Amperian loop each case. 12) Ampere's Law - Infinite Wire: (10 pts) (a) Use Ampere's law to determine the magnetic field both inside and outside an infinite cylindrical wire of radius R and length / carrying a constant current I. Sketch...
12) Ampere’s Law – Infinite Wire: (10 pts) (a) Use Ampere's law to determine the magnetic field both inside and outside an infinite cylindrical wire of radius R and length 1 carrying a constant current I. Sketch the relevant Amperian loop each case. 1 R R
13) Ampere’s Law – Solenoid: (12 pts) A coil of wire is wrapped into a solenoid of length l = 1 m and has N = 15 loops with a current of 1 A passing through it. 13) Ampere's Law - Solenoid: (12 pts) A coil of wire is wrapped into a solenoid of length 1 = 1 m and has N = 15 loops with a current of 1 A passing through it. (a) Identify the current enclosed by...
Use Ampere’s Law to find the magnetic field of an infinitely large slab and current with current density J0 i hat. The slab is infinite in the x and y directions, but has a finite thickness t in the z direction. Do this for both (a) inside at the point p(0, 0,-t/4) and (b) outside at the point p(0,0,4t).
(2) Use Ampere’s Law to find the magnetic field (a) inside and (b) outside of a long straight cylinder of current with current density J and radius R. Remember that J = I/A. When indicating the direction, describe it as clockwise or counterclockwise when looking at the wire with the current going away from you.
Use Ampere’s Law to find an expression for the magnetic field B produced by a a long straight wire carrying current i at all points that are a perpendicular distance r from the wire
Question 2: Use Ampere's Law to find the magnetic field in the interior of a toroidal solenoid tightly wound with N turns of wire carrying current l. Toroid
Using Ampere’s Law, find the magnitude of the magnetic field at a point exterior to a coaxial cable, a distance of 24 mm from the central axis. The coaxial cable consists of a wire with radius r1=1.3 mm and surrounding that, a cylindrical shell with inner radius r2=2.5 mm and outer radius r3=3.3 mm. The wire and cylindrical shell carry equal currents (4.0 A) in opposite directions. Side questions: 1. does the outer radius matter? 2. what would you do...
PLEASE helP! A solenoid has 600 turns per meter. Determine the magnitude of the magnetic field when a current of 0.35 A is present in the solenoid. Permittivity mu _o = 4 pi times 10^-7 T middot m/A. Solenoid magnetic field:____ (b) A 5000-turn toroid carries a current load equal 1.3 A. What should be its diameter to maintain an interior magnetic field of magnitude 30. Gauss (3.0 milli-Tesla)? Toroid diameter = ____
Enumerate two sources of magnetic field Describe how a compass is used to determine the direction of magnetic field Discuss how a moving charge is affected by presence of magnetic field Describe the force experienced by a current-carrying wire in the presence of magnetic field