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1. At a frequency of 60 Hertz (Hz), what are the reactance and impedance of each? a. 30 milli-Henry inductor b. 30 micro-Farad capacitor
1. At a frequency of 60 Hertz (Hz), what are the reactance and impedance of each? a. 30 milli-Henry inductor b. 30 micro-Farad capacitor 2. Convert m = 3+j5 to polar form and convert n3 = 100-16 to rectangular form. 3. At a frequency of 60 Hz, find the current flow through the elements in polar/phasor form (this includes magnitude and angle). Consider the source voltage as 100/30 V. 65 mH m 1592 4. For the parallel RC circuit shown below, determine: 120 V 60 Hz a. Current flow through the resistor in polar/phasor form b. Current flow through the capacitor in polar/phasor form c. Total source current in polar/phasor form www 100F R 102 Xc 2002 Note: Capacitor value is already expressed in terms of reactance. You will need to convert it into an impedance value. 1. At a frequency of 60 Hertz (Hz), what are the reactance and impedance of each? a. 30 milli-Henry inductor b. 30 micro-Farad capacitor 2. Convert m = 3+j5 to polar form and convert n3 = 100-16 to rectangular form. 3. At a frequency of 60 Hz, find the current flow through the elements in polar/phasor form (this includes magnitude and angle). Consider the source voltage as 100/30 V. 65 mH m 1592 4. For the parallel RC circuit shown below, determine: 120 V 60 Hz a. Current flow through the resistor in polar/phasor form b. Current flow through the capacitor in polar/phasor form c. Total source current in polar/phasor form www 100F R 102 Xc 2002 Note: Capacitor value is already expressed in terms of reactance. You will need to convert it into an impedance value. 1. At a frequency of 60 Hertz (Hz), what are the reactance and impedance of each? a. 30 milli-Henry inductor b. 30 micro-Farad capacitor 2. Convert m = 3+j5 to polar form and convert n3 = 100-16 to rectangular form. 3. At a frequency of 60 Hz, find the current flow through the elements in polar/phasor form (this includes magnitude and angle). Consider the source voltage as 100/30 V. 65 mH m 1592 4. For the parallel RC circuit shown below, determine: 120 V 60 Hz a. Current flow through the resistor in polar/phasor form b. Current flow through the capacitor in polar/phasor form c. Total source current in polar/phasor form www 100F R 102 Xc 2002 Note: Capacitor value is already expressed in terms of reactance. You will need to convert it into an impedance value.
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Physics
Authors: David Young, Shane Stadler
10th edition
1118486897, 978-1118836873, 1118836871, 978-1118899205, 1118899202, 978-1118486894
