That means that there is actually something - the electrons - flowing in the specified direction. On the other hand, the "conventional current" is defined as the equivalent flow of positive charge. In the case that the charge carriers are negative (such as electrons), the conventional current flows in the opposite direction to the actual movement of charges.
The electrons flows from negative to positive and then positive to negative.The pole of the flow of electron changes at a time interval.This is called alternating current (AC).
Conventional electrons flow is understood to be flowing from a positive force a less positive force.
There are two ways to look at current. Conventional current (measured in amps) flows from positive to negative. This model works for the vast majority of electrical engineering purposes. However, current is created by the movement of electrons. Electrons have a negative charge so electrons moving in one direction will give rise to conventional current in the opposite direction. Therefore, although current flows from positive to negative, electrons flow from negative to positive.
1A current produced when the charge of I coulomb flows in 1 second.The no. of electrons present in 1 coulomb is 1/1.6 x 10-19= .625 x 10-19 electrons.but no. of electrons cannot be in fractions. So, it is 6 x 1018 electrons.
The individual electrons will move back and forth, as they do when there is no current. You would have to do very careful statistics to notice that there are slightly more electrons moving in one direction than in the other: the drift velocity (average velocity due to current) of the electrons is typically a fraction of a millimeter per second.
CURRENT
The flow of electrons is called an electrical current. Current is measured in Amps and flows from a positive voltage towards a negative voltage. The electrons themselves have a negative charge so they move or flow in the opposite direction to the flow of current.
Conventional current flow is the flow of positive charges, or the equivalent flow of positive charges. That is, if what flows is really negative charges (for example, an electron), which flow in one direction, the "conventional current" flows in the opposite direction.
because current flows in the opposite direction of the flow of electron.since electrons are negatively charged particle they moves towards the positive and hence current flows in the opposite direction to the flow of electrons (that is from positive to negative)
Current. The flow of electrons is the flow of a moving charge. The rate of flow is current (the amount of charge that flows in a set time). The equation is: I = Qt Hope this helps.
It IS NOT equal. The electron current represents something that really flows. The conventional current is a fictitious current that represents the flow of a POSITIVE charge (electrons have a negative charge), and flows in the opposite direction. Only the magnitude of the current is the same.
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
When electric current flows from negative to positive, it means the conventional current is moving in the opposite direction of the flow of electrons. When the current flow meets, it continues throughout the circuit or device, completing the electrical circuit and allowing energy to be transferred and work to be done.
Electrons flow from the negative terminal to the positive. Conventional current or simply current, behaves as if positive charge carriers cause current flow. Conventional current flows from the positive terminal to the negative
The electrons flows from negative to positive and then positive to negative.The pole of the flow of electron changes at a time interval.This is called alternating current (AC).
The direction of current flow is defined as the direction positive charge carriers would flow, which is opposite to the actual movement of electrons (negative charge carriers) in a wire. Electrons flow from the negative terminal of a power source to the positive terminal, while conventional current flows from the positive terminal to the negative terminal.