Three point charges are placed as shown in the figure. If a = 0.4 m and the net electric force on Q₂ is zero, then the value of Quand the work needed to remove the charge Q₂ and place it at infinity are: y+ Q-10μC 2a (20 pc, 4.5 J) (20 μc, 3.38 J) (20 μc, 4.5×10^5 J) none of these (15 μc, 3.5 J) Q3=-5μC - a→>>
Three point charges are placed as shown in the figure. If a = 0.4 m and the net electric force on Q₂ is zero, then the value of Quand the work needed to remove the charge Q₂ and place it at infinity are: y+ Q-10μC 2a (20 pc, 4.5 J) (20 μc, 3.38 J) (20 μc, 4.5×10^5 J) none of these (15 μc, 3.5 J) Q3=-5μC - a→>>
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![Three point charges are placed as shown in the figure. If a = 0.4 m and the
net electric force on Q₂ is zero, then the value of Quand the work needed
to remove the charge Q₂ and place it at infinity are:
y+
Q-10μC
2a
(20 pc, 4.5 J)
(20 μc, 3.38 J)
(20 μc, 4.5×10^5 J)
none of these
(15 μc, 3.5 J)
Q3=-5μC
-
a→>>](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3fd0c321-c238-4110-a6b0-e9f4422a4e9e%2F3a8e5885-81f9-4076-9b6f-6ca52e36995a%2F84irnhe_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Three point charges are placed as shown in the figure. If a = 0.4 m and the
net electric force on Q₂ is zero, then the value of Quand the work needed
to remove the charge Q₂ and place it at infinity are:
y+
Q-10μC
2a
(20 pc, 4.5 J)
(20 μc, 3.38 J)
(20 μc, 4.5×10^5 J)
none of these
(15 μc, 3.5 J)
Q3=-5μC
-
a→>>
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