The flow of electrons "looks different" from application to application. If we look inside a cathode ray tube, the electrons look like water coming out a hose nozzle set on "direct stream" or the like. In a conductor, like a piece of wire, it's a whole other story. In that case, the electrons in the conductor support current flow by "moving over one" when one electron enters one end of a wire. An electron at each "atomic interval" or so in the wire moves over and an electron emerges from the other end of the wire. Note that the electrons ''already in the wire'' are the ones supporting current flow by moving over a "place" each time an electron enters. There are many electrons in a little bit of current, but there are many more in a given conductor like copper wire. An electron that goes in one end may not emerge from the other end for hours or days or weeks (or longer), depending on the variables involved.
a flow in an Isenotropic manner.
the electrons goes from the anode to a wire making the anode positive then goes to the cathode making the cathode making it negative SO WHY DO U CARE IS THE WORLD GONNA ENDI WOULD PERFER ENGLISH PLEASE DO U
You can't see a flow of electrons, which is what a current is.
a historian would describe your life by you telling him all about you and your family.
describe cubist ideology?
The term used to describe a path for electrons to flow is a "circuit." A circuit is a closed loop that allows the flow of electricity from a power source through components and back to the source.
ATP produced by noncyclic flow electrons in thylakoid membrane.
The term used to describe the flow of electrons or ions in a system, especially in electrical circuits, is called "electric current."
a flow in an Isenotropic manner.
Current measured in amperes. Coulombs of electrons.
In a simple flashlight circuit, electrons flow from the negative terminal of the battery, through the circuit (which typically includes a switch and light bulb), and return to the positive terminal of the battery. This flow of electrons creates a current that powers the light bulb and produces light.
Current that flows in a wire is consists of electrons. The electrons bear negative charges.
I assume you mean Voltage, Current and Resistance. Voltage (E)or electromagnetic force is the electrical pressure or force that forces the electrons through any given circuit Current (I)is the flow of those electrons through any given circuit Resistance (R) is anything within the circuit that would restrict the flow of electrons
When a positively charged object is grounded, electrons from the ground are free to move onto the object. These electrons neutralize the positive charge by transferring to the positively charged object, allowing the excess electrons on the object to flow into the ground. This flow of electrons equalizes the charge between the object and the ground.
It is a flow of electrons.
It allows the free flow of electrons.
Electrons flow easily through metals due to the presence of free electrons in the metal lattice. These free electrons are not bound to any particular atom and can move freely throughout the metal, allowing for efficient conduction of electricity.