What is the difference between electrical engineering and electronic engineering?
Electrical engineering is the study of electrical power and the devices that use it. Electronic engineering is the study of electronic devices and circuits.
What is the basic difference between electrical engineering and electronics engineering?
Electrical engineering is the broader field that deals with the generation, transmission, and use of electrical power. Electronics engineering is a specialization of electrical engineering that deals with the design and application of electronic circuits, devices, and systems.
What is the scope of electrical engineering?
Some of the topics that electrical engineers typically study include circuit theory, electromagnetism, microelectronics, signal processing, and power engineering.
What is the scope of electronic engineering?
The scope of electronic engineering is the design and development of electronic systems and devices.
What are the basic concepts of electrical engineering?
The basic concepts of electrical engineering are voltage, current, resistance, and power.
What are the basic concepts of electronic engineering?
Some of the basic concepts of electronic engineering include electrical engineering, digital logic, microprocessors, and circuits.
What are the applications of electrical engineering?
Some applications of electrical engineering include the design and development of electrical equipment, the generation, transmission, and distribution of electricity, and the study of electrical phenomena.
What are the applications of electronic engineering?
Some applications of electronic engineering include the design and development of computers, communication systems, digital devices, and electrical circuits.
What are the specialisations in electrical engineering?
The main specialisations in electrical engineering are: power engineering, electronics engineering, telecommunications engineering, control engineering, signal processing, and microelectronics.
What are the specialisations in electronic engineering?
There are many different specialisations in electronic engineering, including:
What are the career opportunities in electrical engineering?
There are a wide range of career opportunities in electrical engineering. Some of the most common positions include electrical engineer, electrical engineering technician, control systems engineer, and electrical design engineer.
What are the career opportunities in electronic engineering?
There are a large number of career opportunities in electronic engineering. Some of these include:
– Design engineer
– Applications engineer
– Field service engineer
– Research and development engineer
– Manufacturing engineer
– Test engineer
– Quality engineer
– Marketing engineer
– Technical support engineer
– Sales engineer
– System engineer
– Network engineer
What are the entrance exams for electrical engineering?
There are many entrance exams for electrical engineering, but some of the most common ones include the SAT, ACT, and the GRE.
What are the entrance exams for electronic engineering?
There is no one specific entrance exam for electronic engineering. Instead, most universities require students to take the General Certificate of Education (GCE) Advanced Level exams in physics, mathematics, and chemistry. Some universities also require the GCE A-Level exam in computer science.
What are the colleges offering electrical engineering?
There are many colleges that offer electrical engineering courses. Some of these colleges are: University of California-Berkeley, Purdue University, and Georgia Institute of Technology.
What are the colleges offering electronic engineering?
There are many colleges that offer electronic engineering. Some examples include the University of California – Berkeley, the University of Texas at Austin, and the Georgia Institute of Technology.
What is the salary range for electrical engineers?
The salary range for electrical engineers can vary based on experience, education, and location. As of May 2017, the median annual salary for electrical engineers was $96,640.
What is the salary range for electronic engineers?
The salary range for electronic engineers may vary depending on the level of experience, the type of company, and the location. Typically, entry-level electronic engineers may earn between $50,000 and $60,000 per year, while more experienced engineers may earn upwards of $100,000 per year.
What are the pros and cons of electrical engineering?
The pros of electrical engineering are that it is a very versatile field that can be used in a variety of industries. It is also a field that is constantly evolving, which means that there are always new opportunities to learn and grow. The cons of electrical engineering are that it can be a challenging field to learn, and it can be difficult to find a job in this field if you do not have the proper skills.
What are the pros and cons of electronic engineering?
The pros of electronic engineering are that it allows for the creation of electronic devices and systems that can transmit and receive information. This can include telecommunications systems, computers, and other electronic equipment. Electronic engineering can also allow for the creation of devices that can control and monitor other devices. Additionally, electronic engineering can be used to create devices that can generate, store, and manipulate electrical energy.
The cons of electronic engineering are that it can be expensive to create and maintain electronic devices and systems. Additionally, electronic devices and systems can be susceptible to damage or failure from electrical or electronic faults.
How to become an electrical engineer?
There is no specific route to becoming an electrical engineer, but most likely it will involve completing an undergraduate or graduate degree in electrical engineering. Some electrical engineers may also become certified in their field.
How to become an electronic engineer?
There is no one specific path to becoming an electronic engineer. However, many electronic engineers have degrees in electrical engineering, computer engineering, or a related field. Some may also have vocational training in electronics or electrical engineering.
What are the basic electrical engineering formulas?
V = I * R
I = V / R
R = V / I
Kirchoff’s Current Law:
Sum of the currents entering and leaving a node is zero.
Kirchoff’s Voltage Law:
The sum of the voltages around a closed loop is zero.
What are the basic electronic engineering formulas?
There are many electronic engineering formulas, but some of the most basic include Ohm’s law, voltage divider rule, and Kirchhoff’s current law.
What are some famous electrical engineers?
Some famous electrical engineers include Nikola Tesla, Thomas Edison, and Benjamin Franklin.
What are some famous electronic engineers?
Some famous electronic engineers are:
1. Nikola Tesla- inventor of the Tesla coil and alternating current
2. Lee DeForest- inventor of the triode vacuum tube
3. John Atanasoff- co-inventor of the first electronic digital computer
4. Alan Turing- father of modern computing
What is the future of electrical engineering?
The future of electrical engineering is very bright. With the continued advancement of technology, there will be many new and exciting opportunities for electrical engineers.
What is the future of electronic engineering?
The future of electronic engineering is very bright. There are many new and innovative applications of electronic engineering that are being developed every day. These applications include advances in communication, computing, and healthcare.
What are some good electrical engineering projects?
Some good electrical engineering projects include the development of alternative energy sources, such as solar or wind power, the design of more energy-efficient electrical systems, and the creation of new technologies for electrical power transmission and distribution.
What are some good electronic engineering projects?
Some good electronic engineering projects are:
1. Designing and building an amplifier
2. Designing and building a power supply
3. Designing and building a robot
4. Designing and building a computer
5. Designing and building a digital circuit