From anode to cathode.
It depends on the electronic theory you use. In most conventional applications, we use electron-flow theory in which case the electricity flows from the negative side of the cell to the positive side. In some applications such as nuclear energy, we use hole-flow theory in which the electricity goes from positive to negative.
For most purposes the first answer is correct, but either way you go, the lightbulb will still light up.
from anode(oxidation) to cathode(reduction).
In a galvanic cell, electrons flow from the anode to the cathode. The flow is stopped if the cell lacks a path for the ions to flow between the solutions in the cell.
Electrons flow from the negative battery terminal to the positive battery terminal.
The direction is from negative to positive.
From negative to positive.
elelctric current
Conventional current is the flow of positive charge (or the equivalent flow of negative charge in the opposite direction; e.g., if electrons move to the left, the conventional current is to the right).Conventional current is the flow of positive charge (or the equivalent flow of negative charge in the opposite direction; e.g., if electrons move to the left, the conventional current is to the right).Conventional current is the flow of positive charge (or the equivalent flow of negative charge in the opposite direction; e.g., if electrons move to the left, the conventional current is to the right).Conventional current is the flow of positive charge (or the equivalent flow of negative charge in the opposite direction; e.g., if electrons move to the left, the conventional current is to the right).
the electrons flow from the region of low potential to region of high potential. the electric current also flow in this direction but for convention we took it as the flow of positive charge from region of low to high region potential.
electrons can flow through circuits.
A conductor has a large number of free electrons which under sufficient voltage(electrical push) will flow in unison speed and direction. Thus creating a electrical current.
Electrons don't have electricity they only posses energy, Electricity is defined as the flow of electrons! In conductors the flow of valence electrons are called Electricity! therefore inducing a current in it! generally the direction of flow the current is the opposite of the direction of flow of electrons(D.C)!
The direction of current, according to convention, is the direction opposite the direction of electron flow. Remember that the anode is where oxidation occurs, so electrons are lost by the anode. These electrons then move from the anode, to the cathode by a wire that usually connects the two compartments. To reiterate, the electrons flow from the anode (site of oxidation) to the cathode (site of reduction). Because electrons flow from anode to cathode, by convention the direction of current is from cathode to anode (the direction opposite the flow of electrons). Hope this helps!
When electrons always flow in the same direction in the wire it is known a DC (direct current).
From anode to cathode.
Difference Between Alternators and MagnetosAn alternator puts out alternating current [AC]. That means that part of the time electrons flow in one direction in the wiring, and part of the time the electrons flow in the opposite direction. The number of times the direction of current flow changes direction is referred to as "cycles."Even though the output of a magneto may be in pulses, the direction of flow of electrons is always in the same direction and is Direct Current [DC].
To allow electrons flow in one direction ONLY
The term "conventional flow" is usually used specifically for electricity, not for any kind of energy. If the current consists of electrons, then, if the electrons move in one direction, the conventional flow (a ficticious flow of positive charge) flows in the opposite direction. If the electric flow consists of positive charges, then the conventional flow and the physical, or real, flow, are in the same direction. An electron current is the most common case, though.
Their are two types of ways electricity passes through wires. DC, which stands for direct current, means that the electrons flow in one direction. AC, which stands for alternating current, means that the electrons flow in one direction, then they switch and flow in the opposite direction.
yes
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.
No, the electrons just starts flowing across the closed circuit, in the direction opposite to the flow of currentIt is confusing to say that 'electrons flow in the opposite direction to current' because, in metal conductors, current is a flow of electrons! 'Conventional flow', which is being referred to, here, is simply a convention and doesn't represent real current flow. Considering how long we have known about electrons, it's really about time we abandoned 'conventional flow'.
Electrons flow in the opposite direction.