5 mv. 1 KHz sinusoidal signal is applied to e input of op-amp integrator having R = 100
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- Please AsApAn alternating source with a variable frequency, a capacitor with capacitance C, and a resistor with resistance Rare connected in series. The figure gives the impedance Z of the circuit versus the driving angular frequency Wa; the curve reaches an asymptote of 635 Q, and the horizontal scale is set by wds = 348 rad/s. The figure also gives the reactance Xc for the capacitor versus wd. What are (a) R and (b) C? Assume Z, - 508 Q. w (rad/s) (a) Number i Units (b) Number i Units (73) 'x ZAn alternating source with a variable frequency, a capacitor with capacitance C, and a resistor with resistance R are connected in series. The figure gives the impedance Z of the circuit versus the driving angular frequency wd; the curve reaches an asymptote of 535 Q2, and the horizontal scale is set by Wds = 326 rad/s. The figure also gives the reactance Xc for the capacitor versus wd. What are (a) R and (b) C? Assume Z, = 428 Q. (a) Number i (b) Number i Z, Xc (S2) Z₂ 0 Z Xc wa (rad/s) Units Units @ds
- A sinusoidal voltage Av = 35.0 sin(100t), where Av is in volts and t is in seconds, is applied to a series RLC circuit with L = 170 mH, C = 99.0 µF, and R = 64.0 2. (a) What is the impedance (in 2) of the circuit? Q (b) What is the maximum current (in A)? A (c) Determine the numerical value for w (in rad/s) in the equation i = Imax sin(wt - p). rad/sNeeds Complete typed solution with 100 % accuracy.What is the capacitive reactance Xc of a 50.0 µF capacitor placed in an ac circuit driven at a frequency of f = 571 kHz? Xc =