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An ac generator with Em = 229 V and operating at 392 Hz causes oscillations in a series RLC circuit having R = 226 Ω, L = 145 mH, and C = 23.8 μF. Find (a) the capacitive reactance XC, (b) the impedance Z, and (c) the current amplitude I. A second capacitor of the same capacitance is then connected in series with the other components. Determine whether the values of (d) XC, (e) Z, and (f) I increase, decrease, or remain the same. (a) Number Units (b) Number Units (c) Number (d) (e) (f)

An ac generator with Em = 229 V and operating at 392 Hz causes oscillations in a series RLC circuit having R = 226 Ω, L = 145 mH, and C = 23.8 μF. Find (a) the capacitive reactance XC, (b) the impedance Z, and (c) the current amplitude I. A second capacitor of the same capacitance is then connected in series with the other components. Determine whether the values of (d) XC, (e) Z, and (f) I increase, decrease, or remain the same. (a) Number Units (b) Number Units (c) Number (d) (e) (f)

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An ac generator with E m = 229 V and operating at 392 Hz causes oscillations in a series R L C circuit having R = 226 Ω , L = 145 mH , and C = 23.8 μ F . Find (a) the capacitive reactance X C , (b) the impedance Z , and (c) the current amplitude I . A second capacitor of the same capacitance is then connected in series with the other components. Determine whether the values of (d) X C , (e) Z , and ( f ) I increase, decrease, or remain the same. (a) Number i Units (b) Number Units (c) Number i (d) (e) (f)

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