What is the principle of electrical engineering?
Ohm’s Law. Ohm’s Law gives the correlation between electric current (I), Voltage (V), and resistance (R) in a conductor. These are the fundamental principles of electrical engineering which student who want to pursue electrical engineering should be aware.
Why should you study fundamentals of electrical engineering?
Electrical engineers make an integral part of the workforce in all manufacturing and processing industries. Their knowledge and command over signal processing, design, communication, as well and computer skills make them an essential and indispensable part of the organization.
What are the main disciplines of electrical engineering?
Electrical engineering has now subdivided into a wide range of subfields including electronics, digital computers, computer engineering, power engineering, telecommunications, control systems, robotics, radio-frequency engineering, signal processing, instrumentation, and microelectronics.
What are engineering principles?
“What are Engineering Principles?” By engineering principles we mean the ideas, rules, or concepts that need to be kept in mind when solving an engineering problem. For example, one often-noted principle in engineering design is “keep it simple” or “KISS (keep it simple stupid)”.
What are the 3 branches of electrical engineering?
Branches of electrical engineering
- Power engineering.
- Control engineering.
- Electronic engineering.
- Microelectronics.
- Signal processing.
- Telecommunications engineering.
- Instrumentation engineering.
- Computer engineering.
What are the types of electrical?
Types of Electricity – Modern Methods. There are two types of Electricity, Static Electricity and Current Electricity. Static Electricity is made by rubbing together two or more objects and making friction while Current electricity is the flow of electric charge across an electrical field.
What is the syllabus for EEE?
B.E. EEE: Syllabus
| Semester I | Semester II |
|---|---|
| Analog Electronics-I | Analog Electronics-II |
| Circuits & Systems | Power System – I |
| Electrical Engineering Materials | Control Engineering – I |
| ElectroMechanical Energy Conversion – I | Electromagnetic Field Theory |