Journals

  • LIPI Books on Electrical Engineering

    LIPI Books focuses the essential topics in Electrical Engineering include:

    1. Circuit Theory: Understanding the fundamentals of electrical circuits, including Ohm's Law, Kirchhoff's laws, and circuit analysis techniques.

    2. Electromagnetism: Study of electric and magnetic fields, Maxwell's equations, and their applications in electrical systems.

    3. Signal Processing: Techniques for analyzing and manipulating signals, including Fourier transforms and digital signal processing.

    4. Control Systems: Principles of feedback and control, including stability analysis and control design.

    5. Power Systems: Generation, transmission, and distribution of electrical power, including renewable energy sources.

    6. Electronics: Study of semiconductor devices, amplifiers, and digital circuits.

    7. Microcontrollers and Embedded Systems: Design and programming of microcontrollers for various applications.

    8. Communication Systems: Principles of analog and digital communication, modulation techniques, and network protocols.

    9. Electromechanical Systems: Understanding motors, generators, and their applications in various systems.

    10. Instrumentation and Measurement: Techniques for measuring electrical quantities and the use of sensors.

    These topics provide a solid foundation for understanding and working in the field of Electrical Engineering.

  • LIPI Books on Mechanical Engineering

    LIPI Books on Mechanical Engineering encompass a wide range of topics, including:

    1. Thermodynamics: Study of energy, heat transfer, and the laws governing these processes.
    2. Fluid Mechanics: Analysis of fluid behavior and its applications in engineering systems.
    3. Mechanics of Materials: Examination of material properties and how they respond to forces and stresses.
    4. Dynamics: Study of forces and motion in mechanical systems.
    5. Kinematics: Analysis of motion without considering forces.
    6. Machine Design: Principles and practices for designing mechanical systems and components.
    7. Manufacturing Processes: Techniques and methods for producing mechanical components.
    8. Heat Transfer: Study of thermal energy transfer through conduction, convection, and radiation.
    9. Control Systems: Analysis and design of systems that manage and control dynamic behavior.
    10. Robotics: Design and application of robots and automated systems.
    11. Materials Science: Study of material properties and their applications in engineering.
    12. Vibration Analysis: Study of oscillatory systems and their behavior under dynamic loads.

    These topics form the foundation of Mechanical Engineering and are essential for understanding and solving engineering problems.