In a very predictable way. It follows Ohms law. Electrons do not flow instead they transfer their charge down a conductor to where they do work. Usually heating or lighting. They can excite a magnetic field and make a motor go. As a magnetic field is crossed by a conductor a current is generated.
The concept of electric current was first scientifically explored by Italian scientist Alessandro Volta in the late 18th century. He created the voltaic pile, the first true battery, which produced a steady flow of electricity. However, the phenomenon of current itself had been observed earlier in experiments with static electricity, notably by Benjamin Franklin. Ultimately, it was Volta's work that laid the groundwork for understanding and harnessing electric current.
The wizard of electricity is often attributed to Nikola Tesla, a Serbian-American inventor and electrical engineer. He made significant contributions to the development of alternating current (AC) electrical systems and numerous other inventions and discoveries related to electricity.
hmm in a circuit diodes are used to allow current in only one direction,resistors are put to prevent too much current to pass, hmm there are also fuses which prevents current's overflow!there are various things to limit and control current!
Electricity is a very common (actually universal) natural phenomena. It commonly appears in nature as static electricity and static electric discharges, lightning bolts being a very powerful form of static electric discharge. It also appears as electric currents: one natural electric current flows through the outer liquid core of earth forming the earth's magnetic field. Humans have also figured out how to control and "domesticate" electricity for his own purposes, electric current from batteries, generators, and alternators being the most useful form.
because electrons are the only particles that can move in an atom. so when current flows through a circuit it is really electrons moving
Insulators behave the way they do because they have high resistance to the flow of electricity, which prevents the passage of electric current through them. This high resistance is due to the structure of insulator materials, which restrict the movement of electrons and impede the flow of electricity.
Static electricity is the buildup of electric charge on an object's surface, which can cause sparks or shocks when discharged. Current electricity, on the other hand, involves the flow of electric charge through a conductor, typically in a closed loop circuit. Both types of electricity involve the movement of electrons, but static electricity remains stationary while current electricity flows in a continuous loop.
The two basic types of electricity are static electricity and current electricity. Static electricity involves the build-up of charge on an object, while current electricity is the flow of electric charge through a conductor.
AC specifies alternating current and DC means direct current.
It is current. Because current electricity has moving charges while static electricity has stationary charges.
The three types of electricity are static electricity, current electricity (also known as electric current), and alternating current (AC) electricity. Static electricity refers to the build-up of electric charge on the surface of objects. Current electricity is the flow of electric charge through a conductor, while alternating current (AC) electricity is a type of current where the flow periodically reverses direction.
Metal conduct electricity and flow of electricity is the current.
a current
they made inventions to prove that current electricity is there.
it is an example of current electricity
Flowing electricity is called electric current.
Current or "electrical current" (to distinguish it from current in a river) is the flow of electrons in a wire which can perform useful work. The current can be generated by a battery or a generator, or by other means. Current electricity is not a commonly used term. "Current electricity" is the science of electric currents, and it means the same thing as Electrodynamics. Example: the Electrical Sciences can be divided into two parts: Static Electricity or Electrostatics, and Current Electricity or Electrodynamics.