There is no "force of electricity". Voltage is sort of like a "force" that makes electricity flow, but it doesn't have the units of force.
The potential difference in electricity is the Electromagnetic Force, in Volts, measured across the two wires that make the circuit.
I believe it is measured in watts. Static electricity is measured in volts. Most static electricity discharges are measured in Kilovolts. Lightning is measures in Megavolts.
It was measured in volts.
It is measured in Kilowatt hours.
Force is measured by taking MASS time ACCELERATION.
The potential difference in electricity is the Electromagnetic Force, in Volts, measured across the two wires that make the circuit.
The electricity in afan is measured by wats.
electro-motive force (emf), often measured in volts of "potential"
I believe it is measured in watts. Static electricity is measured in volts. Most static electricity discharges are measured in Kilovolts. Lightning is measures in Megavolts.
Force is measured in Newtons. Weight is a force, therefore it is also measured in Newtons.Force is measured in Newtons. Weight is a force, therefore it is also measured in Newtons.Force is measured in Newtons. Weight is a force, therefore it is also measured in Newtons.Force is measured in Newtons. Weight is a force, therefore it is also measured in Newtons.
There is no limit to the number of times electricity could be measured.
It was measured in volts.
In the SI, force is measured in newtons.In the SI, force is measured in newtons.In the SI, force is measured in newtons.In the SI, force is measured in newtons.
flow of electricity is measured by an instrument galvanometer
It is measured in Kilowatt hours.
Force is measured by taking MASS time ACCELERATION.
The force that pushes electricity through a wire or anything else is called electromotive force. This is the same as potential difference and is measured in volts. A volt is the potential difference that causes a power dissipation of 1 watt when the current is 1 amp.