You have two identical conducting spheres, each of mass m and charge q, charged with oppositely charges. They are separated by a distance 'd. What should be the charge on each sphere so the force of attraction between the spheres will be equal to the weight of each sphere ? Take Coulomb constant as simply 'k'. O d/ (mg/k) O md / (mg/k) O dy (mg/2k) O dy (mg/k)/2
You have two identical conducting spheres, each of mass m and charge q, charged with oppositely charges. They are separated by a distance 'd. What should be the charge on each sphere so the force of attraction between the spheres will be equal to the weight of each sphere ? Take Coulomb constant as simply 'k'. O d/ (mg/k) O md / (mg/k) O dy (mg/2k) O dy (mg/k)/2
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Transcribed Image Text:You have two identical conducting spheres, each of mass m and charge q,
charged with oppositely charges. They are separated by a distance 'd. What
should be the charge on each sphere so the force of attraction between the
spheres will be equal to the weight of each sphere ? Take Coulomb constant as
simply 'k.
O d/ (mg/k)
O md / (mg/k)
O d/ (mg/2k)
O dy (mg/k)/2
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