The resonant frequency of 2 µH and 30 pF is 1 / 2 pi(LC)-0.5, or 20.5 MHz. The 4.7 K Ohm only affects Q Value, or ring time.
A parallel resonant circuit has at its heart an inductorand a capacitor. These are the two parallel components. They each react to voltage and current 180 degrees out of phase with each other. When we "hit" this circuit, called a parallel tank circuit, or just a tank, with voltage, one component is "putting energy into the circuit" while the other one is "storing it up" and then the two components switch roles. The result is that the tank will oscillate, and the frequency of oscillation will be determined by the value of the capacitor and the inductor.
15.92 Hz
John Henry Wuorinen has written: 'Delay line filters for frequency multipliers' -- subject(s): Delay lines, Frequency multipliers
A henry is the unit of electrical unductance, the inductance induced in a circuit by a rate of change of current of one ampere per second.
Joseph Henry Ryan has written: 'Writs of certiorari and the first United States circuit court of appeal'
Henry Rouse Reed has written: 'Ultra high frequency propagation [by] Henry R. Reed, Carl M. Russell' -- subject(s): Radio waves, Shortwave radio
Henry Dunbar has written: 'A complete concordance to the Odyssey and Hymns of Homer, to which is added a concordance to the parallel passages in the Iliad, Odyssey, and Hymns' -- subject(s): Concordances
Inductors can be measured in all three of the above:When an the value of an inductor is given in henrys you are being given its "capacity" to store energy in a magnetic field.Because the inductor is not made of a perfect conductor (one without resistance) it will inevitably has some associated resistance. This is the value that is being referred to if the value of ohms is given.If an inductor is part of an AC (alternating current) circuit it will have a changing "resistance" (resistance as seen by the source) that is directly related to the frequency of the circuit. This is where the reactance value would be given. It equation is given as: 2*pi*f*L. Where f is frequency in hertz and L is the inductance given in henrys..
bode plot is representation of a system graphicaly using frequency response and the unit of decibell.
Use the formula: reactance equals 2.pi times frequency times inductance.
Voltage=V in Volts Current=I in Amps Resistance=R in Ohms Inductance=F in Henry Capacitance=C in Farads
Voltage=V in Volts Current=I in Amps Resistance=R in Ohms Inductance=F in Henry Capacitance=C in Farads