Parallel. Coz all the elements will get same voltages from the sources. in case of series connection, the voltage is divided between all elements.
on applying same power the one which glows brighter is the one connected in parallel connection.
There are four types of circuit: series, parallel, series-parallel, and complex.
A series circuit is actually in series, but a parallel circuit, is Parallel
A resistance 'network' consists of a number of resistors connected together in series, or in parallel, or in series-parallel, or as a complex circuit. A 'complex' circuit is one that is not series, parallel, or series-parallel.
Parallel, series, and series parallel
Parallel connections will draw more current than equivalent lights connected in series, so the parallel configuration will be brighter.
In parallel.
In parallel, each bulb will have full voltage applied across them. However, in series, the voltage across each bulb won't be the same as supply voltage. Thereby, bulbs connected in parallel will glow brighter.
Parallel circuit.
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.
In a parallel circuit, each light bulb would receive the full voltage of the power source, allowing them to burn brighter compared to a series circuit where the voltage is divided among the bulbs.
It will if the batteries are connected in series. If they are connected in parallel, the lamp will burn longer, but not brighter.
on applying same power the one which glows brighter is the one connected in parallel connection.
Remove a light bulb. If they all go out, it is series, if the all stay on, it is parallel.
Some advantages are that the more cells (Power sources) you add, the brighter the outcome, while in parallel the voltage is the same through out.
There are four types of circuit: series, parallel, series-parallel, and complex.
parallel circuit / series circuit / and a short circuit