A series circuit of two pure elements has the following applied voltages and resulting currents of 282.843 sin (314.159t + 30°) volts and 7.071 sin (314.159t - 23.13°) amperes respectively. What is the magnitude of the reactance of the circuit in ohms? -Two electrical loads are in operation: Load 1 consumes 10 kW at 0.8 pf lagging and Load 2 has an apparent power of 25 kVA at 0.6 pf lagging. What is the reactive power of load 1 in kVAR? -A series circuit of two pure elements has the following applied voltages and resulting currents of 282.843 sin (314.159t + 30°) volts and 7.071 sin (314.159t - 23.13°) amperes respectively. What is the magnitude of the voltage in polar form?
-A series circuit of two pure elements has the following applied voltages and resulting currents of 282.843 sin (314.159t + 30°) volts and 7.071 sin (314.159t - 23.13°) amperes respectively. What is the magnitude of the reactance of the circuit in ohms?
-Two electrical loads are in operation: Load 1 consumes 10 kW at 0.8 pf lagging and Load 2 has an apparent power of 25 kVA at 0.6 pf lagging. What is the reactive power of load 1 in kVAR?
-A series circuit of two pure elements has the following applied voltages and resulting currents of 282.843 sin (314.159t + 30°) volts and 7.071 sin (314.159t - 23.13°) amperes respectively. What is the magnitude of the voltage in polar form?
-A impedance of Z = 15∠ 35° ohms is connected across a source with a voltage of 207.846 sin (157.08t) volts. For the circuit, what is the frequency in hz?
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