A coaxial cable of length 1 = 4m consists of a solid cylindrical conductor surrounded by...
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 =...
18. A infinitely long cable consists of a solid cylindrical inner conductor of radius a, surrounded by a concentric cylindrical conducting shell of inner radius b and outer radius c. The inner conductor has a non-uniform current density (r) = ar in the z direction shown. a is a positive constant with units A-m'. The outer conductor has a uniform current density: Jr) = -B (in negative z). B has the same unit as a. The conductors carry equal and...
2 (15 points) A coaxial cable consists of a solid inner conductor of radius R. surrounded by a concentric cylindrical tube of inner radius R, and outer radius R, (see the figure). The conductors carry equal and opposite currents lo distributed uniformly across their cross sections. Let lo = 3.00 A, R = 0.60 mm, R 4.00 mm, and Ry -4.80 mm. Find B for (a) (10 points) 2.00 mm; (b) (5 points) = 5.00 mm
A 58.0 m length of coaxial cable has an inner conductor that has a diameter of 2.58 mm and carries a charge of 8.10 µC. The surrounding conductor has an inner diameter of 7.27 mm and a charge of -8.10 µC. (a) What is the capacitance of this cable? C = nF (b) What is the potential difference between the two conductors? Assume the region between the conductors is air. ΔV = kV
A 43.0-m length of coaxial cable has an inner conductor that has a diameter of 2.58 mm and carries a charge of 8.10 μC. The surrounding conductor has an inner diameter of 7.27 mm and a charge of-8.10 μC. Assume the region between the conductors is air. (a) What is the capacitance of this cable? nF (b) What is the potential difference between the two conductors? kV
A coaxial cable consists of a solid inner conductor of radius a, surrounded by a concentric cylindrical tube of inner radius b and outer radius c. The conductors carry equal and opposite currents I0distributed uniformly across their cross-sections. Determine the magnetic field at a distance r from the axis for the following ranges of radii. On the figures below, draw the Amperian loop you use in each case. Plot your answers for the magnitude of B above on a graph...
A coaxial cable, as shown in Figure 2, consists of an inner conductor of radius a, surrounded by an outer conductor of radius b, along the same axis. The space is filled with dielectric. The cable is connected to a power supply and it is deposited a charge of +Q uniformly along the length of the surface of the inner conductor and a charge - Q uniformly along the length of the inner surface of the outer conductor. No fields...
6. (3 points) A coaxial cable consists of a solid inner conductor of radius Ri, surrounded by a concentric cylindrical tube of inner radius R2 and outer radius Rs (called the shield) as shown in Figure 8. The conductors carry equal and opposite currents, I, distributed uniformly across their cross sections. Determine the magnetic field at a distance r from the axis for: (a) r< Ri (b) Ri < R2 Page 2 (c) R2<r<Rs (d) R3 (e) Plot the magnitude...
A coaxial cable consists of a solid inner conductor with radius R1, surrounded by a concentric cylindrical tube with inner radius R2 and outer radius R3. The conductors carry equal and opposite currents I distributed evenly across their cross sections. Determine the magnetic field at a distance R from the axis to: a)R<R1 b)R1<R<R2 c)R2<R<R3 d)R>R3 e)I=1.20A, R1=1.00cm, R2=2.00cm y R3=2.50cm Graphic B, R=0 to R=3.00cm | = _
3. (20 points) A coaxial cable consists of a solid inner conductor of radius R, surrounded by a concentric cylindrical tube of inner radius R2 and outer radius R3 (see the figure). The conductors carry equal and opposite currents lo distributed uniformly across their cross sections. Let I 3.00 A, R 0.60 mm. R 4.00 mm, and R -4.80 mm. Find B for (a) (10 points)r 0.40 mm; (b) (10 points)r - 5.00 mm