Related MCQs

• A load of three impedances each (6 + j9) is supplied through a line having an impedance of (1 + j2) Ω. The supply voltage is 400 V at 50 Hz. Determine input and output powers respectively when the load is star connected.
• In balanced three-phase star-connected sources, the angle are \(\angle \left( {\overline V_a,\overline V_{ab}} \right)\), \(\angle \left( {\overline V_b,\overline V_{bc}} \right)\), \(\angle \left( {\overline V_c,\overline V_{ca}} \right)\)
• For a star-connected three-phase AC circuit, the:
• Line current of 3 phase delta connection
• In a balanced three-phase star connected system, if the line current is 30 A, then its phase current is:
• \({\overline V _a}\) = 1∠0°, \({\overline V _b}\) = 1∠120°, \({\overline V _c}\) = 1∠240° constitute a balanced set of three phase voltages. The magnitude and angle of voltage \(\overline V_{bc}\) are
• If a system is connected in delta connection, how can be the total power output expressed as?
• In a three-phase system, the relation IL = √3Iph is applicable to a:
• In star connection, if the phase voltage is 1732 V then what will be the line voltage?
• A balanced star connected a load of (8 + j6) Ω per phase is connected to a balanced 3-phase 400 V supply. Find the power factor