if one bulb burn out the other do not goes out
They move from the positive to the negative. There are more specific answers to this question so I recommend that you read several of the answers that are offered.
Connecting dry cells in series-parallel increases both voltage and capacity. By connecting cells in series, voltage is increased, while connecting cells in parallel increases capacity without changing voltage. This arrangement provides a balance between voltage and capacity for various applications.
A parallel circuit is a type of circuit where loads are connected side by side. In a parallel circuit, each load has its own path to the power source, allowing them to operate independently of each other. If one load in a parallel circuit fails, the others will continue to function.
Of each individual dry cell, not at all. If you connect them together in series then their voltages add.
Two or more dry cells coming together form a battery. When connected in series, their voltages add up, increasing the overall voltage output. If connected in parallel, they provide the same voltage but can increase the current capacity and extend the battery's life. This configuration allows for greater versatility and efficiency in powering devices.
If dry cells are connected in parallel, they will supply more current to the bulb, which will cause it to glow for a longer period of time, but at the same brightness as if only a single cell were used. When the cells are connected in series, the voltage is increased, which will cause the bulb to burn more brightly. If the voltage is increased past the safe point for the bulb, its life will be shortened and it may burn out rapidly. In series, the voltages add. In parallel, you essentially have a larger cell of the same type (cell as in battery of one).
The voltage will be double that of one dry cell. The current will be that of one dry cell.
Sereies, with each cell about 2.2volts
When connecting cells in parallel, it is important that they are all of the same type. The total e.m.f. of cells connected in parallel is equal the the e.m.f. of an individual cell. So, if each cell has an e.m.f. of, say, 1.5 V, then it doesn't matter whether you have one cell or a hundred cells, the e.m.f. of the resulting battery will also be 1.5 V.
as the given cells have the same current flowing in through them (current flowing through the cells connected in series is equal to the current flowing when connected in parallel ) equate the formula's of cells connected in series and cells connected in parallel.thus by equating we get the value of the internal resistor as 2 ohms.
Resistance is connected in parallel with voltmeter or say, voltmeter is connected in parallel with resistance.
Voltmeters are connected in parallel in a circuit.
All home appliances are connected in parallel.
Home devices are connected in parallel and not in series.
when the wire is disconnected from the dry cell you feel not hot
In principle, it is infinite. I have not connected a parallel circuit in ages.
A voltmeter is connected in parallel in an electrical circuit.