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A Surface Is So Constructed That,at All Points on the Surface,the

Question 17

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A surface is so constructed that,at all points on the surface,the A surface is so constructed that,at all points on the surface,the vector points outward.Therefore,it can be said that A) the surface encloses a net positive charge. B) the surface encloses a net negative charge. C) the surface encloses no net charge. D) the surface vector \Delta S at all points on the surface is necessarily parallel to the electric field vector . E) the surface vector \Delta S at all points on the surface is necessarily perpendicular to the electric field vector . vector points outward.Therefore,it can be said that


A) the surface encloses a net positive charge.
B) the surface encloses a net negative charge.
C) the surface encloses no net charge.
D) the surface vector Δ\Delta S at all points on the surface is necessarily parallel to the electric field vector A surface is so constructed that,at all points on the surface,the vector points outward.Therefore,it can be said that A) the surface encloses a net positive charge. B) the surface encloses a net negative charge. C) the surface encloses no net charge. D) the surface vector \Delta S at all points on the surface is necessarily parallel to the electric field vector . E) the surface vector \Delta S at all points on the surface is necessarily perpendicular to the electric field vector . .
E) the surface vector Δ\Delta S at all points on the surface is necessarily perpendicular to the electric field vector A surface is so constructed that,at all points on the surface,the vector points outward.Therefore,it can be said that A) the surface encloses a net positive charge. B) the surface encloses a net negative charge. C) the surface encloses no net charge. D) the surface vector \Delta S at all points on the surface is necessarily parallel to the electric field vector . E) the surface vector \Delta S at all points on the surface is necessarily perpendicular to the electric field vector . .

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