The same voltage is applied between the plates of two different capacitors. When used with capacitor A, this voltage causes the capacitor to store 17 μC of charge and 4.3 x 10-5 J of energy. When used with capacitor B, which has a capacitance of 6.6 µF, this voltage causes the capacitor to store a charge that has a magnitude of qB. Determine 9B.
The same voltage is applied between the plates of two different capacitors. When used with capacitor A, this voltage causes the capacitor to store 17 μC of charge and 4.3 x 10-5 J of energy. When used with capacitor B, which has a capacitance of 6.6 µF, this voltage causes the capacitor to store a charge that has a magnitude of qB. Determine 9B.
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Transcribed Image Text:The same voltage is applied between the plates of two different capacitors. When used with capacitor A, this voltage causes the
capacitor to store 17 μC of charge and 4.3 x 10-5 J of energy. When used with capacitor B, which has a capacitance of 6.6 µF, this
voltage causes the capacitor to store a charge that has a magnitude of qß. Determine qß.
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