The most common "use" of electromagnetic energy is as the force of construction of atoms and molecules. What could exist without the electromagnetic energy (force) that binds atoms and chemical compounds together? Setting this aside, however, let's look further. We generate electricity and use it by the truck load - and without thinking much about it. Modern society would be unrecognizable without the "magic" of electric power. Further, we use "advanced" applications of electromagnetic energy to entertain and inform us, as well as to communicate, which we do a lotof! We also use visible light without giving much thought to it. X-rays have obvious uses, and the gamma rays, the most energetic electromagnetic rays, can be used to sterilize things. There are a zillion uses and applications for electromagnetic energy and for different portions of the electromagnetic spectrum. Look anywhere and think it through and you'll discover one you hadn't noticed before. Check below for links to related articles and related questions.
Here are a few that I can think of right away:
An electrical field has many applications, ex. In circuitry, power production, magnets, automobiles, etc. There are many practical applications of an electrical field, it also depends on what you are planning to do.
There is many things surrounding us which is related to electromagnets or magnets just like fan which run by electromagnet. sound system mobile's speaker works by magnets.
Like.....computers,refrigerator,tv,oven...Its almost everything you use to live everyday
There are many practical applications of environmental geology. Some applications include studying changes in the Earth's surface and managing natural hazards.
An electric field can exist even without the presence of a magnetic field. An example of this is a stationary electric field.
Francium has not now practical applications; francium is used only for scientific studies.
application of Ballistic Galvanometer 1) measurements of electric charges
As far as the electric field is stationary then no magnetic field. But when electric field is moving at a uniform speed then a magnetic field will be produced. This is what we call Lorentz magnetic field.
An electrical field has many applications, ex. In circuitry, power production, magnets, automobiles, etc. There are many practical applications of an electrical field, it also depends on what you are planning to do.
uses of dipole materials
What are the practical applications of influence line diagram
An electric motor is used when an internal combustion engine is not practical. They are capable of being used in very tiny or large applications without producing any emissions.
what are the practical application of the center of pressure
There are many practical applications of environmental geology. Some applications include studying changes in the Earth's surface and managing natural hazards.
An Electric field stress depends on the mechanical strength of the materials and the stresses that are generated during their operation. During high voltage applications, the dielectric strength of insulating materials are developed when subjected to high voltages.
no
No practical applications. Francium is used only for scientific studies.
Bohrium has not practical applications.
Bohrium has not practical applications.
Bohrium has not practical applications.