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(1) (i) Determine the apparent power. Hence, therefore apparent power (ii) Determine the reactive power. Hence, therefore apparent power (iii) Determine the current following in the circuit. The power dissipated is 375 W across the 10 ohm resistor is Hence, therefore current following through circuit is
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(iv) Determine the value of the impedance Z. Hence, therefore the value of impedance Therefore, the following circuit states that lagging inductive load. (2) The following give data has shown in below, Determine the old reactive power. Determine the new reactive power.
Determine capacitive reactive power. Determine the value of the capacitance placed in parallel with load to achieve 90% lagging power factor. Hence, therefore the capacitance value is (3) The following data has shown below, The following RLC circuit has maximum current at resonance (R=Z). Determine the value of resistance. Determine the value of inductance.
Determine the value of capacitance. Hence, the component value of the circuit (4) The following single phase transformer data is given below, (a) Determine the secondary turns. Transformer turns ration
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Hence, the secondary number of turns is (b) Determine the rated primary and secondary currents. Calculate the primary current. Calculate secondary current. Hence, the transformer primary and secondary current are (c) Determine the maximum flux. The single phase transformer has EMF equation is
Hence, the maximum flux of the transformer is (d) Determine the cross-sectional area of the transformer core. Hence, the area of cross section of transformer is (5) The following AC VOLTAGE data is given below, (i) Calculate for expression for voltage waveform. Fundamental voltage Fundamental frequency The 3rdharmonic voltage is 20 % of fundamental voltage The 3rdharmonic frequency is 3f.
The 5th harmonic voltage is 10 % of fundamental voltage The 5th harmonic frequency is 5f. The following voltage wave form expression can write as (ii) The following wave form of the harmonics component has shown in figure 1-a. (iii) Determine the voltage at 20ms.
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