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Consider the circuit shown in the figure, with C1 = 5.72 μF and C2 = 7.84 μF (a) Find the equivalent capacitance (in μF) of the system. μF (b) Find the charge (in μC) on each capacitor. 5.72 μF capacitor μC 6.00 μF capacitor μC 7.84 μF capacitor μC 2.00 μF capacitor μC (c) Find the potential difference (in V) on each capacitor. 5.72 μF capacitor V 6.00 μF capacitor V 7.84 μF capacitor V 2.00 μF capacitor V (d) Find the total energy (in mJ) stored by the group. mJ

Consider the circuit shown in the figure, with C1 = 5.72 μF and C2 = 7.84 μF (a) Find the equivalent capacitance (in μF) of the system. μF (b) Find the charge (in μC) on each capacitor. 5.72 μF capacitor μC 6.00 μF capacitor μC 7.84 μF capacitor μC 2.00 μF capacitor μC (c) Find the potential difference (in V) on each capacitor. 5.72 μF capacitor V 6.00 μF capacitor V 7.84 μF capacitor V 2.00 μF capacitor V (d) Find the total energy (in mJ) stored by the group. mJ

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Consider the circuit shown in the figure, with C 1 = 5.72 μ F and C 2 = 7.84 μ F (i) (a) Find the equivalent capacitance (in μ F ) of the system. μ F (b) Find the charge (in μ C ) on each capacitor. 5.72 μ F capacitor μ C 6.00 μ F capacitor μ C 7.84 μ F capacitor μ C 2.00 μ F capacitor μ C (c) Find the potential difference (in V) on each capacitor. 5.72 μ F capacitor V 6.00 μ F capacitor V 7.84 μ F capacitor V 2.00 μ F capacitor V (d) Find the total energy (in mJ) stored by the group. mJ

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