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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 at an electrostatic equilibrium. Between which points should a negative 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 e) From B toE

60 V 20 V 100 V Let the very thin spherical conducting shells with known potential values given as in the figure at an electrostatic equilibrium. Between which points should a negative 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 e) From B toE

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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 clectrostatic equilibrium. Between which points should a negative charge move so that the work done by electrical forces has the biggest value possible? a) From Cto A b) From B to C c) From E to C d) From D toC e) From B toE
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 clectrostatic equilibrium. Between which points should a negative charge move so that the work done by electrical forces has the biggest value possible? a) From Cto A b) From B to C c) From E to C d) From D toC e) From B toE
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