An immovable charge Q₁ = +2.0μC is placed in fixed location at the origin on an (x, y) coordinate system. Another charge, Q₂ = +4.0μC is allowed to move near the first charge. How much work does it take to move this charge from it's starting location of (-3cm, 4cm) to the following locations and if the time to make this change is 10 ms how much power was output during each process: (a) (-1.5cm, 2cm) (b) (-6cm,8cm) (c) (3cm, 4cm)
An immovable charge Q₁ = +2.0μC is placed in fixed location at the origin on an (x, y) coordinate system. Another charge, Q₂ = +4.0μC is allowed to move near the first charge. How much work does it take to move this charge from it's starting location of (-3cm, 4cm) to the following locations and if the time to make this change is 10 ms how much power was output during each process: (a) (-1.5cm, 2cm) (b) (-6cm,8cm) (c) (3cm, 4cm)
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![An immovable charge Q₁ = +2.0µC is placed in fixed location at the origin on an (x, y) coordinate
system. Another charge, Q₂ = +4.0μC is allowed to move near the first charge. How much work does it
take to move this charge from it's starting location of (-3cm, 4cm) to the following locations and if the
time to make this change is 10 ms how much power was output during each process:
(a) (-1.5cm, 2cm)
(b) (-6cm, 8cm)
(c) (3cm, 4cm)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fefc0e927-4815-4e2f-82d9-9b6b5f419d74%2Fd709078c-1d7c-4c6b-9409-a8ad0c71c747%2Febd475_processed.png&w=3840&q=75)
Transcribed Image Text:An immovable charge Q₁ = +2.0µC is placed in fixed location at the origin on an (x, y) coordinate
system. Another charge, Q₂ = +4.0μC is allowed to move near the first charge. How much work does it
take to move this charge from it's starting location of (-3cm, 4cm) to the following locations and if the
time to make this change is 10 ms how much power was output during each process:
(a) (-1.5cm, 2cm)
(b) (-6cm, 8cm)
(c) (3cm, 4cm)
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