- Transformers: Study the principles of operation, equivalent circuits, and efficiency calculations of transformers. Focus on topics like ideal and practical transformers, voltage regulation, and losses.
- DC Machines: Understand the working principles, characteristics, and performance analysis of DC generators and motors. Pay attention to topics like armature winding, commutation, and speed control methods.
- AC Machines: Study the construction, operation, and performance analysis of synchronous and induction machines. Key topics include slip, torque-slip characteristics, starting and speed control methods.


- Power Generation: Learn about different power plants, their working principles, and efficiency calculations. Focus on thermal power plants, hydroelectric power plants, and nuclear power plants.
- Transmission and Distribution: Understand the concepts of overhead and underground transmission lines, transmission line parameters, and power factor improvement techniques. Study distribution systems, including radial and ring main distribution systems.
- Power System Analysis: Master the analysis techniques for balanced and unbalanced fault conditions, load flow analysis, and economic dispatch. Pay attention to concepts like per unit system, symmetrical components, and power system stability.


- Control System Design: Study the principles of feedback control systems, transfer function representation, and block diagram reduction techniques. Focus on concepts like stability, Routh-Hurwitz criterion, and root locus analysis.
- Frequency Response Analysis: Understand Bode plots, Nyquist criterion, and gain and phase margins. Study topics like frequency response of control systems, compensator design, and lead-lag compensators.
- State Space Analysis: Learn about state variables, state space representation, and state transition matrix. Focus on concepts like controllability, observability, and stability analysis.


- Continuous-time Signals: Study the properties of continuous-time signals, Fourier series, and Fourier transforms. Focus on concepts like linearity, time shifting, time scaling, and frequency shifting.
- Discrete-time Signals: Understand the properties of discrete-time signals, Z-transform, and discrete Fourier transform. Pay attention to topics like sampling theorem, convolution, and correlation of discrete-time signals.
- Systems Analysis: Master the analysis techniques for linear time-invariant systems, impulse response, and frequency response. Focus on concepts like stability, causality, and system properties.


- Electrostatics and Magnetostatics: Study Coulomb's law, Gauss's law, and Ampere's law. Focus on topics like electric and magnetic fields, electromagnetic induction, and magnetic materials.
- Maxwell's Equations: Understand the four Maxwell's equations and their applications. Pay attention to topics like wave propagation, transmission lines, and waveguides.
- Antennas and Propagation: Learn about antenna types, radiation patterns, and antenna parameters. Focus on topics like Friis transmission formula, polarization, and radiation mechanisms.

Remember to practice previous year question papers and mock tests to improve your problem-solving skills and time management.