Consider the electric dipole shown in the figure. If the charges each have a magnitude of 31 nC, are separated by 6.79 mm, and the external electric field has magnitude E = 66 N/C, calculate the torque (in N.nm) on the dipole when 0 = -54°. Let "out of the screen" be the direction of positive torque. N.nm
Consider the electric dipole shown in the figure. If the charges each have a magnitude of 31 nC, are separated by 6.79 mm, and the external electric field has magnitude E = 66 N/C, calculate the torque (in N.nm) on the dipole when 0 = -54°. Let "out of the screen" be the direction of positive torque. N.nm
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N.nm
0
IQ
+ Q £ ✰ ✰ ↓ O
Consider the electric dipole shown in the figure. If the charges each
have a magnitude of 31 nC, are separated by 6.79 mm, and the
external electric field has magnitude E = 66 N/C, calculate the torque
(in N.nm) on the dipole when 0 = -54°. Let "out of the screen" be the
direction of positive torque.
7
BRG](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F047a7e6a-f025-4b5b-ab83-4ffe14f69253%2Ff5858af4-4b01-4780-b703-8aa7c4b0dabd%2Fat3uh2e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:+
N.nm
0
IQ
+ Q £ ✰ ✰ ↓ O
Consider the electric dipole shown in the figure. If the charges each
have a magnitude of 31 nC, are separated by 6.79 mm, and the
external electric field has magnitude E = 66 N/C, calculate the torque
(in N.nm) on the dipole when 0 = -54°. Let "out of the screen" be the
direction of positive torque.
7
BRG
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