series
They will both last for the same amount of time. In both situations all of the battery's power is being used, but in parallel, you can separately control the individual loads that you put on the circuit with switches. Hope that helps
The parts of an electric circuit are: 1.Source 2.Path 3.Load 4.Means of Control Part of caring:)
The fuses are held by spring metal clips , the clips are themselves being permanently connected to the circuit conductors.
The main advantage to wiring a circuit with multiple accessories and access points into a series is that one main switch can control them all. This can allow a single circuit breaker, fuse, or the operator to disable them all in one step.
They will both last for the same amount of time, assuming that the voltage across the individual bulbs is the same in each case. In both situations all of the battery's power Is being used, but In parallel, you can separately control the Individual loads that you put on the circuit with switches.
The same as in any other circuit - in the case of a parallel circuit, the switch will either allow or not allow current to pass through one particular branch.
Yes.
The main contact controls the load current to the motor, whereas the auxiliary contact is part of the control circuit -usually connected in parallel with the 'on' pushbutton switch to maintain the control circuit in the energised state, once the on pushbutton has been pressed.
Some different types of circuits are:openclosedparallelseriesThere are two types of basic circuits, series and parallel.In series, current stays constant and voltage is divided amongst the resistors.In parallel the voltage stays constant, Every branch of the circuit gets the same voltage from the power supplier, but there is different current in every branch but current doesn't get lost. Current entering a junction(branches) must equal to current out of the junction. Iin =Iout.The third type could be the Series-Parallel Combination, which has some components wired in series and other components in parallel. Solving these circuits requires more complex analysis techniques. See related link.Another AnswerElectrical circuits are generally classified as being: (1) series, (2) parallel, (3) series-parallel, and (4) complex. The term, 'complex' is a category into which any circuit that doesn't fall into the first three categories, is placed.
unlimited
Two receptacles on a branch circuit, each in parallel, both in series with the circuit breaker. The blower motor, ignition transformer, and oil solenoid on an oil burner, each in parallel, all in series with the acquastat (water temperature control switch).
A line. This represents either wire, solder or foil run on a circuit board. These can end and have a page or other notation meaning it is continued elsewhere on the page or on another page.
Yes, that's exactly what your light switches are doing at home.
They will both last for the same amount of time. In both situations all of the battery's power is being used, but in parallel, you can separately control the individual loads that you put on the circuit with switches. Hope that helps
A parallel circuit is different in many ways from a series circuit: 1. In parallel, the voltage across all the devices connected is the same. 2. If a fault occurs in any device connected in parallel combo, then it has no effect on the operation of the other device. 3. In series circuit the current flowing through all the devices is the same while in case of the parallel one the voltage across all the devices is same.
A motor is a mass of wires classified as a coil. Coils have a decency to generating reverse voltage when commutation the diode therefore is there for clipping this harmful back EMF
It depends upon the controller and what it's controlling, but if you're talking about a TV remote, it's a combination of series and parallel analog circuits as well as digital circuitry.