12. A generator produces 9 Vrms as a cosine at 500 Hz , is connected to...
F. A generator produces 9 Vrms as a cosine at 500 Hz , is connected to a capacitor that has 70 2 reactance at that frequency, in series with a coil that has 60 2 inductive reactance and 10 resistance. Determine: a) angular frequency b) capacitor's capacitance c) coil's inductance d) coil's impedance e) the total impedance f) current thru the capacitor g) voltage across the capacitor
A generator produces 9 Vrms as a cosine at 500 Hz , is connected to a capacitor that has 70 Ω reactance at that frequency, in series with a coil that has 60 inductive reactance and 10 resistance. Determine: a) angular frequency ____________ b) capacitor’s capacitance _________ c) coil’s inductance _________ d) coil’s impedance _________ e) the total impedance _________ f) current thru the capacitor ________ g) voltage across the capacitor ________
4. An AM radio antenna has 3000 loops with diameter 0.20 m; a radio station makes its 2 nt magnetic field oscillate at 1400 kHz pointing left, then right. a) which coil orientation is best for the antenna's reception? { ABC} b) calculate the voltage from the antenna Rho 5. We might power a Crooke's tube using a Tesla coil transformer with 20 turns on the primary; 10,000 turns on the secondary, using 2.0 A from a 6 VAC 60...
QUESTION 9 Connect a 50 0 Resistor in series with a 22 pF Capacitor, driven by a (cosine) generator, pushing 12 VRMs at 60 Hz. [a) compute the generator's angular frequency.) [b) determine the capacitor's reactance at this generator frequency.] c) determine the total impedance connected to the generator [d) determine the current from the generator.) [e) determine the Capacitor's RMS voltage.] [f) determine the capacitor's RMS voltage if the generator frequency doubles, but its voltage stays the same.] O...
QUESTION 10 Connect a 50 Q Resistor in series with a 22 pF Capacitor, driven by a (cosine) generator, pushing 12 VRMs at 60 Hz (a) compute the generator's angular frequency.) [b) determine the capacitor's reactance at this generator frequency] (c) determine the total impedance connected to the generator] [d) determine the current from the generator] e) determine the Capacitor's RMS voltage. [e) determine the capacitor's RMS voltage if the generator frequency doubles, but generator voltage stays the same] O...
QUESTION 8 Connect a 50 Q Resistor in series with a 22 uF Capacitor, driven by a (cosine) generator, pushing 12 VRMs at 60 Hz (a) compute the generator's angular frequency] b) determine the capacitor's reactance at this generator frequency [c) determine the total reactance connected to the generator] (d) determine the current from the generator.) [e) determine the Capacitor's RMS voltage.] [f) determine the capacitor's RMS voltage if the generator frequency doubles, but its voltage stays the same] 0.7576...
QUESTION 11 Connect a 0.47 uF Capacitor to a 5 mH Inductor, driven by a cosine) generator, pushing 24 VRMs at 6,000 Hz. [a) compute the generator's angular frequency.] [b1) determine the capacitor's reactance at this generator frequency) [b2) determine the inductor's reactance at this generator frequency) c) determine the total impedance connected to the generator [d) determine the current from the generator.] (e) determine the inductor's RMS voltage.] It) determine the generator's current if the generator frequency halves, but...
#1A 41.2-µF capacitor is connected across a 55.8-Hz generator. An inductor is then connected in parallel with the capacitor. What is the value of the inductance if the rms currents in the inductor and capacitor are equal? _____ mH #2 A 39.0-mH inductor has a reactance of 1.90 kΩ. What is the capacitance of a capacitor that has the same reactance at this frequency? ___F please help me and show me how to do the work correctly
2. An AC power source with V 220 V and f60.0 Hz is connected in a series RLC circuit. The resistance, R. inductance, L, and capacitance. C. of this circuit are, respectively. 46.0 12, 0.150 H. and 0.035 mF. Find each of the following quantities, (a) the inductive reactance, the capacitive reactance, (c) the impedance of the circuit (d) the maximum current through the circuit (based on the frequency given above) (e) the maximum potential difference across each circuit element...
An ac circuit with a 60 μF capacitor in series with a coil of resistance 18Ω and inductance 180mH is connected to a 100V, 100 Hz supply is shown below. Calculate inductive reactance capacitive reactance circuit impedance and phase angle θ circuit current I phasor voltages VR, VL, VC and VS resonance circuit frequency construct a fully labeled voltage phasor diagram