When too much current flows through a conductor, it is called an overload. This can lead to overheating and may damage the conductor or the connected equipment if not addressed.
If no current flows through a load, then no energy is received by the load. Energy is transferred through the flow of current, so without any current, there is no energy transfer to the load.
This would not be a hypothesis, but an explanation. A fuse is a piece of wire with a low melting point which melts if too much current flows in the circuit. It is designed to break before the rest of the circuit is damaged.
When too much current flows through a wire, it can cause the wire to overheat, potentially leading to melting insulation, short circuits, and even fires. Excessive current can also damage the components connected to the wire and pose a safety hazard. It is important to ensure that the wire is properly sized for the amount of current it will carry to prevent these issues.
Copper is used in fuses because it has a low melting point, making it ideal for melting and breaking the circuit when there is an overload of current. This helps to protect the electrical system from damage caused by too much current flowing through it. Additionally, copper is a good conductor of electricity, ensuring efficient flow of current in the fuse.
50WATT
No current flows when the the voltage is zero.
electric current
A circuit breaker is a device used to open a circuit if too much current flows through it.
When too much current flows through a conductor, it is called an overload. This can lead to overheating and may damage the conductor or the connected equipment if not addressed.
It means scondry and primary coil how current flow in weldingp plant.
If no current flows through a load, then no energy is received by the load. Energy is transferred through the flow of current, so without any current, there is no energy transfer to the load.
same current flow in each bulb
Overcurrent, sometimes called shortcircuit.
Current in amperes is coulombs per second, so 2 coulombs per second is 2 amperes.
not 100% shaw but..... :) it depends when you charge it and for how long. :)
That depends on how much current (Amps) is flowing through the copper. The voltage you lose in the copper will always be (A) times (R). 'A' is the current (amps) in the copper. 'R' is the resistance of the copper. You can look that up in a product catalog, or measure it with a really good ohm-meter.