Series circuit gives higher resistance compared to parallel circuit.
The remaining bulb will be brighter than it was when both bulbs were working - due to the increased voltage.
The question is ambiguous, however one possibility is a parallel circuit, which would permit one light bulb to remain lit while the other light bulb was switched off. By contrast, if the light bulbs were connected in a series circuit, switching one light bulb off would cause both lights to go off.
Brighter in parallel. In series the voltage is divided between the two bulbs, thus the current will only be half so that the power of each bulb will only be one quarter (of 5 watts) in the series set-up.
All the light bulbs in your house are in parallel across the power line.All the devices plugged into a power strip are in parallel.Everything in your car that gets power from the 12V battery is in parallel.etc.
nothing
The other bulb remain to glow with same intensity.
Yes, light bulbs can be powered by a parallel circuit.
When more bulbs are added to a parallel circuit, the total current in the circuit increases because each bulb provides an additional path for current to flow. This is because in a parallel circuit, the current is divided amongst the branches, so adding more branches (bulbs) will increase the total current.
Total power consumption increases with each bulb. The remaining bulbs continue to operate unchanged.
parallel
Parallel.
Parallel
Parallel circuit
Voltage remains constant; current increases.
The total current provided by the battery increases as more bulbs are added to a parallel circuit. This is because each branch in a parallel circuit receives the full voltage of the battery, leading to more current flowing through each branch as more loads (bulbs) are added.
Do nothing. But in a parallel circuit, all the bulbs will get dimmer.