GATE EE 1995 | Synchronous Machines Question 73 | Electrical Machines

Electrical Machines

Induction Machines

Marks 1 Marks 2

D.C Machines

Marks 1 Marks 2 Marks 5

Synchronous Machines

Marks 1 Marks 2 Marks 5

Transformers

Marks 1 Marks 2 Marks 5

GATE EE 1995

MCQ (Single Correct Answer)

-0.3

A synchronous motor on load draws a current at a leading power factor angle $$\phi$$. If the internal power factor angle – which is the phase angle between the excitation e.m.f. and the current in the time phasor diagram is $$\psi$$, then the air gap excitation m.m.f lags the armature m.m.f by

$$\psi$$

$$\frac{\mathrm\pi}2+\psi$$

$$\frac{\mathrm\pi}2-\psi$$

$$\psi+\phi$$

GATE EE 1992

MCQ (Single Correct Answer)

-0.3

The developed electromagnetic force and or torque in electro $$-$mechanical energy conversion systems act in a direction that tends

to increase the stored energy at constant $$mmf$$

to decrease the stored energy at constant flux

to decrease the co-energy at constant $$mmf$$

to decrease the stored energy at constant $$mmf$$

GATE EE 1992

MCQ (Single Correct Answer)

-0.3

The torque angle of a synchronous machine operating from a constant voltage bus, is usually defined as the space angle between

Rotor $$mmf$$ wave and stator $$mmf$$ wave

Rotor $$mmf$$ wave and resultant flux density wave

Stator $$mmf$$ wave and resultant flux density wave

Stator $$mmf$$ wave and resultant $$mmf$$ wave

GATE EE Subjects

Electromagnetic Fields

Signals and Systems

Engineering Mathematics

General Aptitude

Power Electronics

Power System Analysis

Analog Electronics

Control Systems

Digital Electronics

Electrical Machines

Electric Circuits

Electrical and Electronics Measurement