A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.177 nm for a pair of +1.60 × 10-¹9 C charges. What is the magnitude p of the molecule's electric dipole moment? p= T= -29 2.832 x10 Find the magnitude of the torque that acts on the molecule when it is immersed in a uniform electric field of 5.95 × 10³ N/C with its electric dipole vector at an angle of 35.1° from the direction of the field. Tmax= Consider all possible angles between the electric field and the electric dipole vector. What is the greatest magnitude Tmax of torque that the electric field can exert on this molecule? C.m N.m N-m

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A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.177 nm for a pair of
+1.60 × 10-¹⁹ C charges. What is the magnitude p of the molecule's electric dipole moment?
p=
T=
2.832 x10
-29
Find the magnitude 7 of the torque that acts on the molecule when it is immersed in a uniform electric field of 5.95 × 105 N/C
with its electric dipole vector at an angle of 35.1° from the direction of the field.
Tmax=
C.m
N.m
Consider all possible angles between the electric field and the electric dipole vector. What is the greatest magnitude Tmax of
torque that the electric field can exert on this molecule?
N-m
Transcribed Image Text:A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.177 nm for a pair of +1.60 × 10-¹⁹ C charges. What is the magnitude p of the molecule's electric dipole moment? p= T= 2.832 x10 -29 Find the magnitude 7 of the torque that acts on the molecule when it is immersed in a uniform electric field of 5.95 × 105 N/C with its electric dipole vector at an angle of 35.1° from the direction of the field. Tmax= C.m N.m Consider all possible angles between the electric field and the electric dipole vector. What is the greatest magnitude Tmax of torque that the electric field can exert on this molecule? N-m
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