2. (a) Suppose you design an apparatus in which a uniformly charged disk of radius R is to produce an electric field. The field magnitude is most important along the central perpendicular axis of the disk, at a point P at distance 4.40R from the disk (see Figure (a)). Cost analysis suggests that you switch to a ring of the same outer radius R but with inner radius R/4.40 (see Figure (b)). Assume that the ring will have the same surface charge density as the original disk. If you switch to the ring, by what part will you decrease the electric field magnitude at P? (a) (b)
2. (a) Suppose you design an apparatus in which a uniformly charged disk of radius R is to produce an electric field. The field magnitude is most important along the central perpendicular axis of the disk, at a point P at distance 4.40R from the disk (see Figure (a)). Cost analysis suggests that you switch to a ring of the same outer radius R but with inner radius R/4.40 (see Figure (b)). Assume that the ring will have the same surface charge density as the original disk. If you switch to the ring, by what part will you decrease the electric field magnitude at P? (a) (b)
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Transcribed Image Text:2. (a) Suppose you design an apparatus in which a uniformly charged disk of
radius R is to produce an electric field. The field magnitude is most important
along the central perpendicular axis of the disk, at a point P at distance 4.40R
from the disk (see Figure (a)). Cost analysis suggests that you switch to a ring
of the same outer radius R but with inner radius R/4.40 (see Figure (b)).
Assume that the ring will have the same surface charge density as the original
disk. If you switch to the ring, by what part will you decrease the electric field
magnitude at P?
(a)
(b)
(b) In the figure, four long straight wires are perpendicular to the page, and
their cross sections form a square of edge length a = 115 mm. Each wire carries
8.00 A, and the currents are out of the page in wires 1 and 4 and into the page
in wires 2 and 3. In unit-vector notation, what is the net magnetic force per
meter of wire length on wire 4?
ia
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