It is called a short circuit when more current flows than what the load demands.
When current flows in opposite directions in a conductor, a potential difference is created between the entry and exit points of the body. This potential difference causes an electric shock when the body comes into contact with a conductive material, leading to current passing through the body and potentially causing harm.
The charged particle that flows through circuits is an electron.
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.
Oesterd discovered that when an electric current flows through a conductor a magnetic field develops around the conductor. So when you switch on the electromagnet a current passes through a solenoid generating a magnetic field which can be controlled by either forming more or less loops or increasing/decreasing the amount of current passing through the solenoid.
Yes, electricity can create a magnetic effect through the interaction of moving electric charges. When electric current flows through a conductor, it generates a magnetic field around the conductor, as described by Ampere's law. This principle is utilized in electromagnets and devices such as motors and transformers.
Overcurrent, sometimes called shortcircuit.
A magnetic field is formed around the conductor when an electric current flows through it. The strength of the magnetic field is directly proportional to the magnitude of the current flowing through the conductor.
Magnetic fields currently flows through a conductor is determined by multiplying the number of turns of wire by the current flow. This is what causes electricity.
This proves that a magnetic field is developed around the conductor wen current flows through it...
When an electrical current flows through a conductor, it creates a magnetic field around the conductor. This phenomenon is known as electromagnetism. The strength of the magnetic field is directly proportional to the current flowing through the conductor.
pogi current flow in the armature conductor
It is not true that when electric current flows through a long conductor each electron moves through a relative short distance because electric current is the continues flow of electrons.
When current flows in a two-conductor system, it typically goes in opposite directions in each conductor, creating a circuit loop. The current enters one conductor, flows along it in one direction, then exits and returns in the other conductor in the opposite direction. This setup allows for the flow of electric current through the two conductors.
The three factors are: the material of the conductor (resistivity), the current flowing through the conductor, and the time duration for which the current flows.
Yes, except that the correct term is 'line' conductor, not a 'phase' conductor.
When current flows in opposite directions in a conductor, a potential difference is created between the entry and exit points of the body. This potential difference causes an electric shock when the body comes into contact with a conductive material, leading to current passing through the body and potentially causing harm.
-- A current flowing through a conductor creates a magnetic field around the conductor. -- Moving a conductor through a constant magnetic field creates a current in the conductor. -- If there's a conductor sitting motionless in a magnetic field, a current flows in the conductor whenever the strength or direction of the magnetic field changes.