a) What is the electric flux passing outwards through the imaginary surface? Compute this " SE·dà imaginary vurface directly using maginwry narface b) What can you therefore say about the charge enclosed by the imaginary surface? c) How much charge lies on the inner surface of the cavity? How is this charge distributed?

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please answer all i beg of you if not answer a-d please

2. A metal ball carrying a net charge of +7Q has a) What is the electric flux passing outwards
through the imaginary surface? Compute this
SË- dÃ.
two spherical cavities scooped out of it.
directly using maginay srtace
imaginary vurface
b) What can you therefore say about the charge
enclosed by the imaginary surface?
c) How much charge lics on the inner surface of
the cavity? How is this charge distributed?
net charge on conductor - +7Q
d) Now draw another imaginary surface, this one
enclosing the second cavity, and repeat
questions (a) - (c) for this surface.
In the center of the first cavity, a point charge
-Q floats motionless in midair. The second
cavity is empty.
e) How much charge resides on the outer surface
of the conductor? How is this charge
distributed?
Consider the imaginary surface indicatod with
dotted lines in the figure below.
H Sketch the electric field created by this object,
both outside the conductor and within the
cavities.
g) What is the strength of the electric field
within the first cavity, at a distance r from the
-Q point charge?
h) What is the strength of the electric field
within the second cavity, at a distance r from
the center of the cavity?
net charge on conductor = +7Q
First of all, note that this imaginary surface
encloses the first cavity. Second, notice that
every point of this imaginary surface lies
within the conducting material.
i) What is the strength of the electric field
outside the ball itself, at a distance r from the
center of the ball1? •
Transcribed Image Text:2. A metal ball carrying a net charge of +7Q has a) What is the electric flux passing outwards through the imaginary surface? Compute this SË- dÃ. two spherical cavities scooped out of it. directly using maginay srtace imaginary vurface b) What can you therefore say about the charge enclosed by the imaginary surface? c) How much charge lics on the inner surface of the cavity? How is this charge distributed? net charge on conductor - +7Q d) Now draw another imaginary surface, this one enclosing the second cavity, and repeat questions (a) - (c) for this surface. In the center of the first cavity, a point charge -Q floats motionless in midair. The second cavity is empty. e) How much charge resides on the outer surface of the conductor? How is this charge distributed? Consider the imaginary surface indicatod with dotted lines in the figure below. H Sketch the electric field created by this object, both outside the conductor and within the cavities. g) What is the strength of the electric field within the first cavity, at a distance r from the -Q point charge? h) What is the strength of the electric field within the second cavity, at a distance r from the center of the cavity? net charge on conductor = +7Q First of all, note that this imaginary surface encloses the first cavity. Second, notice that every point of this imaginary surface lies within the conducting material. i) What is the strength of the electric field outside the ball itself, at a distance r from the center of the ball1? •
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