A burned out light bulb has high resistance - it is open - so, in a series circuit, it will have full supply voltage across it while the other bulbs in the circuit have zero volts. In a parallel circuit, just look and see which bulb is not lit.If you are talking about Christmas tree lights, however, they are generally designed to short out when they burn out, so that bulb goes dark while the others stay lit, even in a series circuit. The down side of that design is that the remaining bulbs will get brighter and hotter, and they will tend to burn out faster.
Efficiency isn't the question. They just do different things. For example, if you look at a typical lighting circuit in a house, all the bulbs on a circuit are in parallel. They each have the same voltage across the bulbs. If you rewired this so that the bulbs were in series then the voltage would be divided across each bulb and if one bulb burned out the others in series would get no current and would not light. If you had two 60Watt bulbs in parallel in your house, each would draw 1/2 Amp. Add another bulb and it would draw 1/2 amp as well, for a total of three 60W bulbs drawing 1.5 amps from the power source. If the same three bulbs were in series there would be 40 Volts across each one with a current of 1/6 amps per bulb. Hence each bulb would be about 1/3 as bright as in the parallel circuit.
A common sign of a short circuit is a blown fuse or a tripped breaker. Also visually seeing a burned wire and of course the smell of burned insulation all give an indication of a short circuit.
The zinc coating which is using for galvanizing emits toxic gas when burned.
In something like a lighting circuit, there are a couple of disadvantages to a series circuit. The first and most important is that all of the devices in the circuit must work. If you've ever dealt with Christmas tree lights you've seen the ones where one burned-out bulb kills the whole string. Second, the more bulbs in the circuit, the dimmer each one gets. But I think the worst one would be: you can't turn off any of the lights. If you turned one off, they'd all go out UNLESS you used a double-throw switch and a whole lot more wire so you could bypass any bulb you wanted to turn off. And when you did it, the lights that were still on would get brighter.One of the disadvantage of a series circuit is in trouble shooting, you have to check ALL the loads of the circuit. Christmas light is the best example.No advantage it is just a different What_are_the_disadvantages_in_using_a_series_circuitabove sample is lame because it will take as much time to find to open circuit in a parallel circuit.In a series circuit, all components receive current in a row, and if the circuit through one is broken then none of the others can receive it.In a series circuit any discontinuity of current flow will interrupt the rest of the circuit to operate.*the more components the circuit has, the greater its resistance is.*if just one component doesn't work, it opens the whole circuit.i lay on the groudn and pretend im a carrot sometimes.
it could be contaminated or the heating circuit is burned out. replace it.
Because motherboards are volume manufactured printed circuit boards, a short circuit will probably be immediately noticable as physical damage and/or a burned component.
The heating element probably burned out causing the open circuit. The element needs to be submerged in coolant completely, all the time that it is plugged in.
The light probably burned out. Buy another one and replace it.
It depends on the circuit. If it is a constant-current circuit, any light bulbs connected in parallel with it will become brighter. If it is a constant-voltage circuit like a typical household circuit, nothing will happen. Any connected in series with it will go out.
In a series circuit, the components are connected end-to-end, so the current flows through each component one after the other. In a parallel circuit, the components are connected across each other, so the current has multiple paths it can take. This means that in a parallel circuit, if one component fails, the rest will still receive current.
Depending which circuit burned out, yes.
There could be lots of reasons. Here are a few I can recall at the moment: * A "blown" fuse [usually caused by a "short circuit]. * A short circuit. * A disconnected ground. * An "open" circuit [cut or broken wire, or a connector which has come apart]. * A defective horn switch [broken or burned out]. * A defective horn [out of adjustment or burned out]. There probably are a few more that I have overlooked.
in a series circuit current flows through each resistor or light bulb and if one item burns out the complete circuit goes dead such were the old fashioned xmas tree lights. They were wire in series and if one light burned out you had to test each light bulb til you found the one burned out to get the whole string to work again. In a parallel circuit each resistor, motor, light bulb has its own ground so if you lost one light in a circuit the rest of them continue to burn.
If one lamp in a parallel circuit burns out, the other lamps are unaffected because current still flows through them. Total current in the system is reduced by the loss of the burned out lamp, which will raise voltage ever so slightly. That will have the effect of brightening the other lamps, but that effect is inconsequential unless there is significant impedance in the source or in the path to the lamps.
It is probably a burned thermal switch. I had the same thing on my car and had to replace the thermal switch
Probably the blower subwire is melted and burned can be replaced 16$ from the dealer. First check the Fuse for the Blower circuit.