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The charge configuration shown was created by performing 60.66 mJ of work to bring charges Q and q from an infinite separation to a separation of 3.64 m. Both charges are positive, and their sum is 10.73 μC, but their individual values are initially unknown. Let Q have the greater charge, i. e. Q > q. Part (a) How much charge, in microcoulombs, is on the charge with the greater amount? Q = μC Part (b) How much charge, in microcoulombs, is on the charge with the lesser amount?

The charge configuration shown was created by performing 60.66 mJ of work to bring charges Q and q from an infinite separation to a separation of 3.64 m. Both charges are positive, and their sum is 10.73 μC, but their individual values are initially unknown. Let Q have the greater charge, i. e. Q > q. Part (a) How much charge, in microcoulombs, is on the charge with the greater amount? Q = μC Part (b) How much charge, in microcoulombs, is on the charge with the lesser amount?

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( 1 7 % ) Problem 2: The charge configuration shown was created by performing 60.66 m J of work to bring charges Q and q from an infinite separation to a separation of 3.64 m . Both charges are positive, and their sum is 10.73 μ C , but their individual values are initially unknown. Let Q have the greater charge, i.e. Q > q . 5 0 % Part (a) How much charge, in microcoulombs, is on the charge with the greater amount? Q = μ C 5 0 % Part (b) How much charge, in microcoulombs, is on the charge with the lesser amount?

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