60 V 20 V 100 V Let the very thin spherical conducting shells with known potential values given as in the figure be at an electrostatic equilibrium. Between which points should a negati ve charge move so that the work done by electrical forees has the biggest value possible? a) From C to A b) From B to C C) From E to C di From D to C eErom Bto E
60 V 20 V 100 V Let the very thin spherical conducting shells with known potential values given as in the figure be at an electrostatic equilibrium. Between which points should a negati ve charge move so that the work done by electrical forees has the biggest value possible? a) From C to A b) From B to C C) From E to C di From D to C eErom Bto E
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![60 V
20 V
100 V
Let the very thin spherical conducting shells with known potential values given as
in the figure be at an electrostatic equilibrium. Between which points should a
negati ve charge move so that the work done by electrical forces has the biggest value
possible?
a) From C to A
b) From B to C
c) From E to C
d) From D to C
oErom B to E](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa8684382-dd23-45b9-86df-0bc0de5a50da%2F3693fcac-739a-488f-b280-7b185b0dc7c2%2Fz5qtycq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:60 V
20 V
100 V
Let the very thin spherical conducting shells with known potential values given as
in the figure be at an electrostatic equilibrium. Between which points should a
negati ve charge move so that the work done by electrical forces has the biggest value
possible?
a) From C to A
b) From B to C
c) From E to C
d) From D to C
oErom B to E
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