Maybe... Electricity flows from a high potential to a low potential. Depending on where you have your high and low points it could look like its going clockwise but it really is only going from a high potential to a lower potential (normally ground)
always current flow from the opposite direction of electron
The force on the electron would be perpendicular to both the direction of its motion and the current flow in the wire. This is described by the right-hand rule for magnetic fields, where the force would point in a specific direction based on the orientations of the current and the electron's motion.
In an AC circuit, the direction of current alternates back and forth periodically. This means that the current flows in one direction for a period of time and then reverses its direction, completing one cycle. This back-and-forth movement of current is what allows electrical devices to operate consistently and efficiently.
The direction of the current refers to the flow of electric charge. In a circuit, current flows from the positive terminal of the voltage source to the negative terminal, opposite to the direction of electron flow.
North Equatorial flow clockwise and southern counter-clockwise.
always current flow from the opposite direction of electron
In Figure 1, the direction of the induced current is clockwise.
The direction of the induced current in loop b is clockwise.
Convention current refers to the direction of electron flow in a circuit, from positive to negative terminals. This convention is used for the sake of consistency across circuit diagrams and calculations in physics and electrical engineering.
Circular,,,from the word circuit.
A circuit carrying current in one direction is called a direct current (DC) circuit. In a DC circuit, the flow of electric charge is constant and does not change direction. This is in contrast to an alternating current (AC) circuit, where the flow of electric charge changes direction periodically. DC circuits are commonly used in electronics and power transmission systems.
A unidirectional flow of electrons is known as direct current (DC). In a DC circuit, the electrons flow in a constant direction from the negative terminal to the positive terminal of the voltage source.
In a DC circuit, the direction of current flow is from the positive terminal of the voltage source to the negative terminal.
The traditional flow theory assumes that current flows from positive to negative, following the direction of conventional current. In contrast, the electron flow theory states that electrons actually move from negative to positive, which is the direction real current flows in a circuit. Both theories describe the movement of charge in a circuit, but they differ in which terminal they consider as the starting point.
Yes. Electrical current only flows in a closed circuit. If it were an open circuit, there would be no current.AnswerAn interesting question. The answer is.... not necessarily! I say this because a capacitor is an open circuit, yet it allows d.c. current to flow for a short period of time (while it charges), and it allows a.c. current to flow continuously.
on a three way switch.alternating current.
Circular,,,from the word circuit.