You might use a pen and paper. Or use a specialized design program.
yes but in ac ckts complex form is used
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.
It makes no difference whether the circuit is parallel, series or complex. The number of electrons travelling (or oscillating back and forth for AC) is determined by the current (amps). 1 amp = 1 coulomb/second. 1 coulomb = the charge represented by 6.24150962915265 x 1018 electrons. The current in each leg of a parallel circuit has to be worked out separately.
Chemistry is the basis of electronic component design. Transistors, resistors, capacitors, inductors all require to be made out of some sort of chemical. The best (cheapest, easiest, fastest) design of these and more complex systems built out of them require understanding chemistry.
it is complex carbohydrate.
In a complex circuit with various elements (resistors, capacitors etc.) and one battery, the various circut elements contribute to draw a certain amount of current "I"from the battery at some terminal voltage "V". The "equivalent" resistance of the various circuit elements is that resistance "R" which will draw the same current , at the same terminal voltage, as the complex circuit. So to find "R" you simply imagine replacing the complex circuit with "R" by attaching "R" across the terminals of the battery and use Ohms law to find "R" , demanding "I" and "V" are the same. So then R = V/I.
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.
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.
monolithic integrated circuit
Complex circuit
In order to calculate the complex power of a circuit, the conjugate of current is used. The Vrms of the circuit is multiplied by the complex conjugate of the total circuit current.
I am assuming you are referring to an IC in the electronics sense (Integrated circuit). If so, an IC works by utilizing a large array of resistors printed onto many layers of silicon. By using these resistors an IC can perform many functions that would normally require a large amount of components. A simple IC may have only 2 or 3 resistors on it, whereas a complex one can contain up to 10,000 (and yes more are possible)
The term, 'complex circuit', is misleading, as they are not necessarily (but often are) complicated. A 'complex circuit' is simply a category used to describe any circuit that isn't a 'series', 'parallel', or 'series-parallel' circuit. This usually means that special theorems (e.g. Kirchhoff's, Norton's, Thevenin's, etc.) must be used to solve complex circuits.
complex circuit
Series and parallelImproved AnswerThere are four categories of circuit: series, parallel, series-parallel, and complex. 'Complex' is a 'catch-all', used to describe circuits that are not series, parallel, or series-parallel. An example of a 'complex' circuit is a Wheatstone Bridge circuit.
parallel circuit / series circuit / and a short circuit
Computer chips are built on a slice of silicon. Silicon forms the basis of transistors which make up a complete circuit. The circuit is photo etched onto the silcon forming complex circuits containg transistors, resistors, capacitors and diodes. The silicon is grown as a single crystal. The crystal is then sliced into thin wafers, onto which the circuit is etched. These resemble a sliced potato or CHIP.