Nanotechnology is the study of controlling matter at atomic level so it is no-where related to electrical and electronics.
technology is a study of how to put scientific knowlege to practical use and engeniering has to deal with design of electrical machinery of power plants for producing electric energy from steam,water er other power, and of wire networks for distributing this energy efficiently to costumers
circuits go round
in every single appliance electronics is used so from this u can understand that how important electronics is after becoming an electronic engineer u can find job in various companies u will have various job opportunities i hope that's enough to answer your question
Electrical introduction typically refers to the foundational concepts and principles of electricity and electronics. It encompasses topics such as voltage, current, resistance, circuit theory, and the behavior of electrical components like resistors, capacitors, and inductors. This introduction is essential for understanding how electrical systems work and is a prerequisite for more advanced studies in electrical engineering and related fields. It often serves as a basis for practical applications in various technologies.
In electronics it simply means a way to control either voltage and/or current there are mechanical regulators not related to electronics
Electronics: The hardware of some thing electrical Electrical: To have electronics
is nanotechnology better than electronics
You must start with electrical. Furthermore you can move to electronics. Electrical is the basis, electronics is the complement.
Electrical-Electronics: 1.Electronics came out of electricals 2.Electricals: base & Electronics: Speciality Electronics-Instrumentation: Specialities based on Electrical Electronics i a part of physical study of electrons emission. Instrumentation is a fiels of specialty related to monitor,calibrate electronics components.
mork
Institute of Electrical and Electronics Engineers (IEEE)
Scientific knowledge provides the foundational understanding of materials, processes, and interactions at the atomic and molecular levels, which is essential for developing nanotechnology. Nanotechnology involves manipulating matter at the nanoscale (1 to 100 nanometers), where unique physical and chemical properties emerge. Advances in scientific research drive innovations in nanotechnology, enabling applications across various fields such as medicine, electronics, and materials science. Thus, the interplay between scientific knowledge and nanotechnology fosters new discoveries and technological advancements.
Nanotechnology is present in various real-world applications, including medicine, electronics, and materials science. In medicine, it is used for targeted drug delivery systems and advanced imaging techniques. In electronics, nanomaterials enhance the performance of semiconductors and batteries. Additionally, nanotechnology contributes to the development of stronger, lighter materials for use in construction, automotive, and aerospace industries.
An electrical overload can cause electrical fires and damage your expensive electronics if not protected.
A: ELECTRICAL is the study of electron flow ELECTRONICS is the study of electrons emission
Nanotechnology is beneficial for various fields, including medicine, electronics, energy, and materials science. In medicine, it enables targeted drug delivery and the development of advanced diagnostic tools. In electronics, it allows for smaller, faster, and more efficient devices. Additionally, nanotechnology contributes to renewable energy solutions and enhances materials with improved strength, lightweight properties, and resistance to wear and corrosion.
automatic missile guidence systemi want some mini projects on electrical engineering