PLEAS EHLEP The units of magnate dipetic moment are: Electric monopoles do not exist because In...
For the following problem show detail solution steps including diagrams, equations used, reasoning, units and calculations. A coaxial cable has a central conductor of radius RA o.005 m) and a coaxial cylindrical shell of inner radius RB 0.015 m) and outer radius Rc 0.020 m). The central conductor carries a current li 10 Amps) and the outer conductor carries a uniformly distributed current 20 Amp) but in an opposite direction of li. Derive expressions (not numerical values) for the magnetic...
A coaxial cable is constructed from a central cylindrical conductor of radius rA = 1.40 cm carrying current IA = 7.90 A in the positive x direction and a concentric conducting cylindrical shell with inner radius rB = 14.0 cm and outer radius rC = 15.0 cm with a current of 32.0 A in the negative x direction (see figure below). What are the magnitude and direction of the magnetic field at the following points? = 7.90 A A coaxial...
5. Consider a very long coaxial cable, comprised of concentric cylindrical conductors with some insulating gap between them. In particular, the inner solid cylindrical conductor has a radius, a, and carries a total, axial current, I. However, this current is not distributed uniformly along its circular cross section. In particular, the current density of this inner conductor is J(r) = Jovi where Jo is a positive constant that is to be determined and r labels the radial distance away from...
A coaxial cable consists of an inner cylindrical conductor of radius R1 -0.040 m on the axis of an outer hollow cylindrical conductor of inner radius R2 -0.080 m and outer radius R3 = 0.090 m. The inner conductor carries current 11 = 4,40 A in one direction, and the outer conductor carries current 12-4.40A in the opposite direction. What is the magnitude of the magnetic field at the following distances from the central axis of the cable? (0 =...
A coaxial cable is constructed from a central cylindrical conductor of radius r'a = 1.30 cm carrying current 1a = 7.20 A in the positive x direction and a concentric conducting cylindrical shell with inner radius 18 = 14.0 cm and outer radius rc = 15.0 cm with a current of 13.0 A in the negative x direction (see Figure below). What are the magnitude and direction of the magnetic field at the following points? 18 69 fc Y 0...
A coaxial cable is constructed from a central cylindrical conductor of radius rA = 1.60 cm carrying current IA = 7.30 A in the positive x direction and a concentric conducting cylindrical shell with inner radius rB = 14.0 cm and outer radius rC = 15.0 cm with a current of 19.0 A in the negative x direction (see figure below). What are the magnitude and direction of the magnetic field at the following points? (a) at point O, a...
please show work A coaxial cable is constructed from a central cylindrical conductor of radius A = 1.60 cm carrying current lA = 8.40 A in the positive x direction and a concentric conducting cylindrical shell with inner radius rs = 14.0 cm and outer radius rc = 15.0 cm with a current of 19.0 A in the negative x direction (see figure below). What are the magnitude and direction of the magnetic field at the following points? fc "B...
A coaxial cable is constructed from a central cylindrical conductor of radius r A = 1.70 cm carrying current lA = 6.50 A in the positive x direction and a concentric conducting cylindrical shell with inner radius rs = 14.0 cm and outer radius rc = 15.0 cm with a current of 38.0 A in the negative x direction (see figure below). What are the magnitude and direction of the magnetic field at the following points? 9 Tc 0 IA...
A coaxial cable is constructed from a central cylindrical conductor of radius ra = 2.00 cm carrying current IA = 9.20 A in the positive x direction and a concentric conducting cylindrical shell with inner radius 18 = 14.0 cm and outer radius rc = 15.0 cm with a current of 21.0 A in the negative x direction (see figure below). What are the magnitude and direction of the magnetic field at the following points? Z Ів a fc 1B...
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...