not flow
In a parallel circuit (with more than one branch), the current will still flow in the other circuit(s) even if there is a break in one circuit. This is not so with a series circuit, since it does not have branches: if there is a break in the circuit, there is a break in the circuit.
The typical answer is current is zero when there is a break in the circuit. It depends on the complexity of the circuit, there may be other paths for the current to flow, such that if there is a break in one part of the circuit, the rest of the circuit still has current flow (but a different value than designed). If you are reading voltage, and there is a break then that will change, also depending on the complexity. If it is a single loop, and you're reading voltage before the break, your voltmeter will read the same voltage as the voltage source, since there is no current flowing between any resistors between the meter and the source. If you're reading voltage after the break then the meter will read zero (0) volts.
break - The break statement is used to jump out of loop. After the break statement control passes to the immediate statement after the loop.continue - Using continue we can go to the next iteration in loop.exit - it is used to exit the execution of program.note: break and continue are statements, exit is function.
to disconnect the circuit when faults occursAnswerA 'disconnector switch' is another term for an 'isolating switch' or 'isolator'. It is a manually-operated switch used to provide a visible break between a de-energised part of a circuit and the energised part of a circuit so that work can be carried out safely on the de-energised part. A disconnector switch is not intended to break a load current, and most certainly not designed to break a fault current -that is the function of a circuit breaker.
A break in the wires of an electric current will break or cut the circuit and stop the current from flowing.
An ammeter reads the current that is flowing through a branch of a circuit. If there is a break within that same branch of the circuit, current will not be able to flow through that branch of the circuit as it forms an incomplete loop, so the ammeter will read 0 A of current. If there is a break in a circuit in a branch that is not connected to the ammeter however, the ammeter will give a higher reading of the current. This is assuming that the break in the other branch does not short out the branch with the ammeter attached, and that the circuit can still form a complete loop without that branch.
tell him the truth...
Yes . I've witnessed it, but it did not break from water current so wooden oars are safe to paddle with
No, they have not at this current time.
Zero. No current is flowing in an open circuit. The ammeter will display an amount of 0 amps because there is no longer any current once the circuit has been broken. An ammeter measures current.
When there is a break in the wire, it is often referred to as an open circuit. This means that the pathway for electrical current flow is interrupted, preventing the current from completing its circuit.
It does what is says, breaks the circuit. The actual term for this is creating an Open. Current can only flow through a complete circuit, so if there is an open(break) in the circuit, current will not continue to run.
not flow
The fusing current of a wire is the current that will cause the wire to overheat and melt, which will break the circuit, acting like a fuse.
In a parallel circuit (with more than one branch), the current will still flow in the other circuit(s) even if there is a break in one circuit. This is not so with a series circuit, since it does not have branches: if there is a break in the circuit, there is a break in the circuit.
The typical answer is current is zero when there is a break in the circuit. It depends on the complexity of the circuit, there may be other paths for the current to flow, such that if there is a break in one part of the circuit, the rest of the circuit still has current flow (but a different value than designed). If you are reading voltage, and there is a break then that will change, also depending on the complexity. If it is a single loop, and you're reading voltage before the break, your voltmeter will read the same voltage as the voltage source, since there is no current flowing between any resistors between the meter and the source. If you're reading voltage after the break then the meter will read zero (0) volts.