Two charged spheres on a frictionless horizontal surface are attached to opposite ends of a string & are in static equilibrium. The 45 kg red sphere has more charge than the 32 kg green sphere. The total charge magnitude on the spheres is 603 μC & they have the same polarity. As a result the tension is 2722.5 N & the centers of the spheres are 0.54 m apart. Determine the charge magnitude on each sphere. Qred (bigger charge) = Qgreen (smaller charge) =

Two charged spheres on a frictionless horizontal surface are attached to opposite ends of a string & are in static equilibrium. The 45 kg red sphere has more charge than the 32 kg green sphere. The total charge magnitude on the spheres is 603 μC & they have the same polarity. As a result the tension is 2722.5 N & the centers of the spheres are 0.54 m apart. Determine the charge magnitude on each sphere. Qred (bigger charge) = Qgreen (smaller charge) =

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Two charged spheres on a frictionless horizontal surface are attached to opposite ends of a string & are in static equilibrium. The 45 k g red sphere has more charge than the 3 2 k g green sphere. The total charge magnitude on the spheres is 6 0 3 μ C & they have the same polarity. As a result the tension is 2722.5 N & the centers of the spheres are 0.54 m apart. Determine the charge magnitude on each sphere. Q red (bigger charge) = Q green (smaller charge) =

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