When a circuit is broken, energy cannot flow through it in the traditional sense. However, energy can still be present in the form of electric fields or stored energy in components like capacitors or inductors. These components can release energy momentarily even when the circuit is not complete. Additionally, in certain conditions, alternate pathways may allow for some energy transfer, but generally, a complete circuit is necessary for sustained energy flow.
No
In a series circuit, all the current passes through the one circuit. Any break will totally remove power from all of the circuit.Parallel circuits have more than one branch where the current can flow. A broken wire will only affect one part, the rest of the circuit will still pass current.In a series circuit, all the current passes through the one circuit. Any break will totally remove power from all of the circuit.Parallel circuits have more than one branch where the current can flow. A broken wire will only affect one part, the rest of the circuit will still pass current.
parallel circuit: Providing that the breakage does not result in a short circuit the other bulbs will still light. series circuit: If the breakage results in a short circuit through the bulb the other bulbs will light more brightly. If the breakage results in a breakage of the connection through the bulb then the other bulbs will not light.
When a switch is closed the path through the circuit is continuous.
An electrical circuit can demonstrate energy flow even if it is missing a component due to its closed-loop structure. The energy source will push electrons through the circuit in the loop, and any missing component or gap will not stop this flow. This is because electric current flows in a closed loop, and the energy transfer can still be observed in the completed part of the circuit.
this is because the energy can still flow through the other branches.
Not necessarily. The two points with potential difference, will have to be connected via a conductor, for current to flow.Provided that a circuit exists, then current WILL flow.
If the bulb's filament is broken, the whole circuit becomes open. If the bulb is in a series circuit or is the only bulb, the electricity would no longer flow. If the bulb is in a parallel circuit, along with other bulbs, then only the blown bulb would go out, and the other bulbs would still work.
The battery is the power source of the circuit. It supplies current to the circuit and the circuit is simply a path for the current to follow. When you remove the current (battery), the path still exists but there is no current going through it.
They will continue to do what they were doing before the light bulb broke. If they were lit they will stay lit. If they were off they will stay off. This question could be improved by specifying that "the other light bulbs" are in that same circuit in which the broken light bulb was connected. Also, if the light bulb is broken in an inert atmosphere, it may well continue to burn.
The bulb will shine as long as it is still part of a complete circuit. You probably have a diagram for such a circuit. See if you can still trace a path through the battery and one of the bulbs without passing through the other bulb. For comparison, try the same thing with a diagram of a series circuit.
In a series circuit, components are connected in a single pathway, so the current flows through each component in sequence. If one component fails, the circuit is broken. In a parallel circuit, components are connected in multiple pathways, so the current splits and flows through each component separately. If one component fails, the others will still work.