2. Charge q1 = 6 µC is located at (1 m, 1 m, 0) and charge q2 is located at(0, 0, 4 m). What should q2 be so that Ē at (0, 2 m, 0) has no ycomponent?3. A spherical shell with outer radius b surrounds a charge free-cavity ofradius a < b in free space. If the shell contains a uniform volume chargedensity pv, use Gauss's law to determine E in all three regions (1) r₁ <a; (2) a b.Iin9000

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Charge q1 = 6 μC is located at (1 m, 1 m, 0) and charge q2 is located at (0, 0, 4 m). What should q2 be so that E at (0, 2 m, 0) has no y component?

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Question

2. Charge q1 = 6 µC is located at (1 m, 1 m, 0) and charge q2 is located at
(0, 0, 4 m). What should q2 be so that Ē at (0, 2 m, 0) has no y
component?
3. A spherical shell with outer radius b surrounds a charge free-cavity of
radius a < b in free space. If the shell contains a uniform volume charge
density pv, use Gauss's law to determine E in all three regions (1) r₁ <
a; (2) a <r₂ <b; (3) r3 > b.
I
in
9000

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