A parallel resonant circuit has low impedance, when non resonant; however the impedance rises sharply, as the circuit comes to resonance.
There are basically two types of circuits: parallel and series. In a series circuit, current flows in one continuous straight path. In a parallel circuit, the current has more than one path to follow.AnswerThere are four categories of circuit, not two. These are 'series', 'parallel', 'series-parallel', and 'complex'. A 'complex circuit' describes any circuit not falling into the first three categories.
There is a link below for the DOL starter circuit.
A circuit that has only a capacitor in it. Or the net reactance is below zero, making it capacitive. The current leads the voltage in a negative (capacitive) reactive circuit.
Yes you can as long as it is in the very low frequency band, below RF, up to 700 Hz. The higher the frequency the smaler the transformer for the same output power and smoothing is also easier.
Below are two DC sources in series. | | ___ __ | | ___ __ | |
Lots of mass (very low resonant frequency) Low stiffness (very high co-incident frequency) All materials have both a resonant and co-incident frequency, at which sound is transmitted more efficiently. Materials where these frequencies occur outside of the range of hearing (20 - 20,000 Hz) are better for sound proofing. With lead, the resonant frequency is below 20Hz and the co-incident frequency is about 20,000Hz.
RF (Radio Frequency Coil) is a coil, which is designed to resonate at a frequency some where in the radio spectrum frequency. See L C Circuit Link Below.
There are basically two types of circuits: parallel and series. In a series circuit, current flows in one continuous straight path. In a parallel circuit, the current has more than one path to follow.AnswerThere are four categories of circuit, not two. These are 'series', 'parallel', 'series-parallel', and 'complex'. A 'complex circuit' describes any circuit not falling into the first three categories.
since infrared (IR) is just below the visible spectrum of light in frequency and is radiated strongly by hot bodies......i think so
The series circuit described (if understood correctly) is a series tank circuit. It is a tuned circuit. The C and the L are capacitance and inductance, respectively, and they are said to be in series. What that translates into is that as an AC signal passes through them, they "ring" electronically (they oscillate) a certain amount depending on the frequency of the signal that is put in. Based on the C and the L, there will be one frequency that the circuit will like to run at, and this will be the resonant frequency (fo) of the series tank circuit. A maximum amount of oscillation can be expected at fo, and the tank is tuned for that frequency. But what if a signal is above or below fo? Signals above and below fo will not cause as much oscillation as the one right at fo. And the farther from fo they are, the less oscillation they will cause. If we graph the output (eo) of a stage (with frequency on the x-axis and gain on the y-axis) that has this kind of tuned circuit in it, we'll see a sharp peak at fo and a general falling off on either side. The farther from fo the input signal is, the less gain. This is true for signals both above and below fo. There is a slight difference in response as regards the slope of the flanks of that peak. The lower frequencies will fall off "forever" but the higher ones will fall of about the same as the lower ones to a point and then will not suffer much more attenuation. That's because at frequencies above fo, the circuit will have stronger capacitive characteristics, and the higher fequency signals will be coupled through. A graph of this circuit can be seen by using the link provided. There is also a link to the Wikipedia article on the RLC circuit from which this graph came. Lastly, the amount of R in the RLC circuit will determine the quality factor (Q) of the circuit. The quality determines how high and how wide the peak on our graph will be. Higher R means less quality. Lower R will result in higher Q. The higher Q circuit will have a higher and sharper peak. The lower Q circuit will have a lower but wider peak. The quality is a determinant in bandpass. Lower Q circuits will have higher (broader or wider) bandpass.
The equivalent resistance is the overall effect all of the resistances in a circuit has. Put another way, it is the value a single resistor in a circuit would have to be in order to have the same effect as all of the resistors resistors combined in a given circuit.
A series circuit is an electrical circuit that has all the components in one section> A Series Circuit>(Below)5A Parallel Circuit is an electrical circuit that has a main section, plus additional branches for components, so that the current can be dispersed. If the power is dispersed, than the components get a larger current of power, leading them to perform at a higher quality.(This is a parallel circuit... Except that a parallel circuit is connected.)5?5 I hope I answered your question!JSigned: Mihali8
parallel means they will never cross each other. take a example when a resistance connected in parallel then a current flowing through it(both resistance) is not same depended on the value of each resistance. while in the series circuit current values is same for both resistance. parallel lines are drawn below:- series lines:- -------
Sounds below human's lowest audible frequency of 20Hz are known as Infrasound.
it is the frequency at which the current amplification drops 3dB below its low frequency value.
Perth is below the 26th parallel. The 26th parallel is a circle of latitude that is 26° south of the equator. Examples of location are: Town of Kalbarri is south of the 26th parallel; and Town of Denham is north of the 26th parallel.
yes