We have seen that a long solenoid produces a uniform magnetic field directed along the axis of a cylindrical region. To produce a uniform magnetic field directed parallel to a diameter of a cylindrical region, however, one can use the saddle coils illustrated as shown. The loops are wrapped over a long, somewhat flattened tube.29.46a shows one wrapping of wire around the tube. This wrapping is continued in this manner until the visible side has many long sections of wire carrying current to the left in 29.46a and the back side has many lengths carrying current to the right. The end view of the tube in 29.46b shows these wires and the currents they carry. By wrapping the wires carefully, the distribution of wires can take the shape suggested in the end view such that the overall current distribution is approximately the superposition of two overlapping, circular cylinders of radius R (shown by the dashed lines) with uniformly distributed current, one toward you and one away from you. The current density J is the same for each cylinder. The center of one cylinder is described by a position vector d^→ relative to the center of the other cylinder. Prove that the magnetic field inside the hollow tube is μ₀Jd/2 downward. Suggestion: The use of vector methods simplifies the calculation.

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Wire lengths carrying current out of the page R R Wire lengths carrying current into the page a Figure P29.46