Measurement of Component and Circuit Impedance Z 1. Verify that the resistor phasor is along the real axis and its Phase is zero. 2. Verify that the capacitor phasor is along the negative imaginary axis and its Phase is 270 or -90 degrees. 3. The default measurement frequency is 1000 Hz. When the frequency has decreased, explain the change on the value of reactance ( increase or decrease). Explain your answer using equation of reactance. 4. Calculate value of Impedance then compare it with Experimental value and find the error. 5. Calculate phase degree then compare it with Experimental value and find the error. 6. The measurement frequency has been changed from 100, to 500, to 1000, to 1500 Hz. Explain the phasor change. 7. The frequency has been changed until the magnitude of the reactance Xcl equals the magnitude of the resistor, R. At this special frequency, the phasor phase reads 315 or -45 degrees. Calculate this frequency and compare it with Experimental value then find the error. Measurement of Component and Circuit Impedance Z 1. Verify that the resistor phasor is along the real axis and its Phase is zero. 2. Verify that the capacitor phasor is along the negative imaginary axis and its Phase is 270 or -90 degrees. 3. The default measurement frequency is 1000 Hz. When the frequency has decreased, explain the change on the value of reactance ( increase or decrease). Explain your answer using equation of reactance. 4. Calculate value of Impedance then compare it with Experimental value and find the error. 5. Calculate phase degree then compare it with Experimental value and find the error. 6. The measurement frequency has been changed from 100, to 500, to 1000, to 1500 Hz. Explain the phasor change. 7. The frequency has been changed until the magnitude of the reactance Xcl equals the magnitude of the resistor, R. At this special frequency, the phasor phase reads 315 or -45 degrees. Calculate this frequency and compare it with Experimental value then find the error