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when two bulb are connected in series their will not be any change
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What other bulbs? This question doesn't make sense.
Perhaps you are thinking of this: with two bulbs in series, each bulb only gets 1/2 of the energy (or voltage) that a battery makes available, so each bulb is much dimmer than just one bulb attached to the battery would be.
Yes. Most flashlights have a series circuit involving a battery, a switch, and a bulb. More complex variants might have two bulbs in parallel, two or more bulbs on two switches, etc. but the basic principle is a series circuit - turn the switch on and the bulb illuminates.
The brightness of an incandescent light bulb depends on the voltage applied across its terminals. Connecting one, two, or five light bulbs of the same rating to a battery in parallel will provide the same brightness from each bulb.
The two largest selling types of memory integrated circuits are DRAMs and SRAMs.
If you connect bulbs in parallel across a given voltage supply (eg household mains supply) then they will all draw their rated current and will glow at their rated brightness. If you connect the same bulbs in series then they will glow very much less brightly. This is because the resistance of a bulb's element is also related to the power dissipated in the element. A bulb's element is rated for operation at a particular voltage. You can certainly connect two 6v motorcycle bulbs in series, and connect them to a car battery at 12v, and the two bulbs will be just as bright as they were when individually operated from the motorcycle 6v batttery. However if you connect two 6v bulbs in parallel and then wire them to a 12v car battery they will only glow brighter for a fraction of a second and then ... pop. You will have overheated the elements beyond their designed power handling capability.
The greatest resistance is two bulbs in series. The equivalent resistance is series is R1+R2 while in parallel the resistance is R1R2/(R1 +R2). R1 +R2 is greater than R1R2/(R1+R2); e.g. if R1=R2 = R the series resistance is 2R and the parallel resistance is R/2.
Plug the bulbs in, one by one, and check to see if they have the correct brightness.
When your circuit is in SERIES, each individual bulb will receive one fraction of the voltage of the battery, allowing the full chain of bulbs to draw less current, but to be dimmer in the same respect. When your circuit is in PARALLEL, each bulb will receive the same voltage, however more current will be drawn, so it depends on your situation on which you should use.
Series circuit gives higher resistance compared to parallel circuit.
As a series circuit, as asked, all bulbs will go off because of that just one bulb.
Yes, one cell in a series circuit can light up two bulbs. However, the brightness of each bulb may be reduced compared to if only one bulb were connected due to the voltage being split between the bulbs.
Yes, there may be a difference in bulb brightness depending on factors like the voltage applied, resistance in the circuit, and the type of bulb used. These factors can affect the current flowing through the bulb, ultimately impacting its brightness.
They are two seperate circuits. Check the fuses and the bulbs.
The headlights could have bad bulbs or a bad fuse; the two sets of lights are on different circuits.
That depends on whether the bulbs are wired in series or in parallel.
A 3-way lamp socket works by having two separate circuits inside the socket that can be turned on individually or together. Each circuit has a different wattage bulb, allowing for different levels of brightness when both circuits are turned on together.
Whether or not they're in series is an irrelevant detail. If the two bulbs are equally bright, it means that they're dissipating energy at the same rate. They can dissipate energy at the same or at different rates whether they're in series or parallel circuits. It only depends on the characteristics of the bulbs.
Bulbs can be dimmer than others due to differences in wattage, age, or type of bulb. Lower wattage bulbs will produce less light output, while older bulbs may lose brightness over time. Different types of bulbs, such as incandescent, LED, or CFL, also have varying levels of brightness.