Can you differentiate Electronic vs Electrical?

Certainly! While "electronic" and "electrical" are related terms, they refer to different aspects of the broader field of electrical engineering. Here's a simple differentiation:

Electrical:

  • Focus: Deals with the study and application of electricity, electrical systems, and the flow of electrical charge.
  • Examples: Electrical engineering involves the study and application of power generation, transmission, distribution, and the design of electrical systems like power grids.
  • Components: Typically deals with components such as resistors, capacitors, inductors, and power sources like batteries and generators.
  • Applications: Found in power systems, electric machines, control systems, and related areas.

Electronic:

  • Focus: Focuses on the study and application of electronic devices and systems that use active components to control the flow of electrical currents.
  • Examples: Electronic engineering involves designing and working with devices like transistors, integrated circuits, microcontrollers, and amplifiers.
  • Components: Primarily deals with active components such as transistors, diodes, and integrated circuits.
  • Applications: Found in areas like digital electronics, telecommunications, signal processing, and the design of electronic circuits.

Summary:

  • Electrical engineering deals with the broader study of electricity and electrical systems, including power generation and distribution.
  • Electronic engineering is a subset of electrical engineering that focuses specifically on electronic devices and systems, dealing with components that control the flow of electrical currents.

In a nutshell, all electronics is electrical, but not all electrical engineering is electronic. Electrical engineering encompasses a wider range of applications, including power systems, while electronic engineering specifically deals with electronic components and their applications.