docs.google.com/forms/d/e/1FAlpQLSdcYewpTEayZn-bdM_NJxj4iBQmvl :D An atom is placed in an external electric field Ej. The atom is polarized. At equilibrium the induced electric field vector E2, is such that: (a) ||E>|| = ||E"|| direction of Ez opposite to direction of E, (b)||E;|| < ||E-|| direction of E, opposite to direction of E, (c) ||E2| = ||E"|| direction of E, same as direction of E (d) ||E < ||E| direction of E, same as direction of E (e) ||E| > ||E| direction of E, opposite to direction of E () ||E2| > ||E:| direction of Ez same as direction of E¡ (a) (b) ..
docs.google.com/forms/d/e/1FAlpQLSdcYewpTEayZn-bdM_NJxj4iBQmvl :D An atom is placed in an external electric field Ej. The atom is polarized. At equilibrium the induced electric field vector E2, is such that: (a) ||E>|| = ||E"|| direction of Ez opposite to direction of E, (b)||E;|| < ||E-|| direction of E, opposite to direction of E, (c) ||E2| = ||E"|| direction of E, same as direction of E (d) ||E < ||E| direction of E, same as direction of E (e) ||E| > ||E| direction of E, opposite to direction of E () ||E2| > ||E:| direction of Ez same as direction of E¡ (a) (b) ..
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docs.google.com/forms/d/e/1FAlpQLSdcYewpTEayZn-bdM_NJxj4iBQmvl
:D
An atom is placed in an external electric field E. The atom is polarized. At equilibrium the induced
electric field vector E2, is such that:
(a) ||Ez| = ||E|| direction of E, opposite to direction of E
(b) ||E2|| < ||E|| direction of E opposite to direction of E,
(c) |E = ||E| direction of E same as direction of E
(d) ||E| < ||E'| direction of E, same as direction of E
(e) ||E| > ||E| direction of E, opposite to direction of E
() ||E| > ||E| direction of E, same as direction of E
(a)
(b)
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