elelctric current
Electrons move in electron current flow.
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.
A circuit must be closed in order for a current to flow because it helps keep a current flow pass. When the switch is closed on a circuit there is a constant flow. When the switches open the flow is disturbed around the circuit.
Current flow
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.
is the equation for flow velocity
A Counter-current flow has more advantages as comapared to a co-current flow.
A current flow restrictor is a diode.
They do not follow the linear Ohm's Law equation relating current flow and voltage, like normal conductors do.
Reverse current.
No it is not possible to flow current wireless.
The higher the resistance the lower the current flow. It restricts the flow of electrical current. The resistance will not depend upon the current. The current flow will depend on the resistance.
elelctric current
Electron flow is from negative to positive. Conventional current flow is from positive to negative.
Conventional current flow is current flowing from positive to negative as opposed to electron flow where current flow is from negative to positive. See Related Links
First thing voltage does not flow current does. Voltage is the potential or pressure needed to make the current flow. Current is directly proportional to the applied voltage and inversely proportional to the resistance of the circuit. To make the current flow you have to adjust the resistance of the circuit and that would be the water in this case. Salt added to water will make the water conductive so the resistance can be adjusted thereby making the current rise or fall depending on the water solution's resistive properties. The equation that you should consider using is Amps = Volts/Resistance.