An Electro Motive Force "EMF".
This question is incorrect. Electricity is defined as the accumulation/ movement of electrons. The reason that electrons move is the same reason gravity exisits. They are just natural phenomena. There is no electric force that makes electrons move. It is the attractive/ repulsive forces between the protons and electrons. There is no such defined force you are asking about. The closest unit to answer this question is the Coloumb.
The force that causes electrons to move in an electric current is measured in volts, which is the unit of electrical potential difference. The flow of electrons is driven by this voltage, creating the current in the circuit.
The force that causes electrons to move in an electrical circuit is an electric field. When a voltage difference is applied across a conductor, the electric field exerts a force on the electrons, causing them to flow through the circuit.
Electrons move through a conductor in one direction due to the presence of an electric field created by a voltage difference. This field exerts a force on the electrons, causing them to flow in the direction of lower potential. Additionally, the structure of the conductor, such as in a diode or semiconductor material, can allow electrons to move more freely in one direction than the other.
To cause electrons to move through a conductor, an electric field is required. This field creates a force that pushes the electrons along the conductor. The strength of the force is determined by the voltage applied across the conductor.
This question is incorrect. Electricity is defined as the accumulation/ movement of electrons. The reason that electrons move is the same reason gravity exisits. They are just natural phenomena. There is no electric force that makes electrons move. It is the attractive/ repulsive forces between the protons and electrons. There is no such defined force you are asking about. The closest unit to answer this question is the Coloumb.
The force that causes electrons to move in an electric current is measured in volts, which is the unit of electrical potential difference. The flow of electrons is driven by this voltage, creating the current in the circuit.
When a force makes an object move, work is done.
The natural force wind makes the leaves plants move.
The force that causes electrons to move in an electrical circuit is an electric field. When a voltage difference is applied across a conductor, the electric field exerts a force on the electrons, causing them to flow through the circuit.
Coils of wire and a magnet. When magnetic lines of force move across a wire, it causes electrons in the wire to move. Those moving electrons are electrical current. In a generator, either the magnet or the coils of wire spin.
Friction makes it harder to move things.
The force that makes electrons move is a voltage, or potential difference and both are measured in Volts. When electrons move, the rate of movement is current, measured in Amps. The amount of current is dependant on both the resistance in a circuit and the voltage. The higher the resistance, the lower the current. The higher the voltage, the greater the current. The symbol for voltage is "V" and confusingly, the symbol for current is "I". The unit of resistance is the Ohm with the symbol "R" or the Greek symbol for omega.
electromotive force
Electrons move through a conductor in one direction due to the presence of an electric field created by a voltage difference. This field exerts a force on the electrons, causing them to flow in the direction of lower potential. Additionally, the structure of the conductor, such as in a diode or semiconductor material, can allow electrons to move more freely in one direction than the other.
To cause electrons to move through a conductor, an electric field is required. This field creates a force that pushes the electrons along the conductor. The strength of the force is determined by the voltage applied across the conductor.
Any force can be used to make something move. It is kind of the nature of forces.