An LC circuit in an AM tuner (in a car stereo) uses a coil with an...
The resonant or tuner circuit of an AM radio is shown bellow. Given that L=1μH, what must be the range of C to have the resonant frequency adjustable from one end of the AM band to another? The frequency range for AM broadcasting is 540 to 1600 kHz. We consider the low and high ends of the band. Since the resonant circuit is a parallel type, find: a )what is the range of capacitor? b) if you have Qu...
Can you please show an image that shows what is happening with images The minimum capacitance of a variable capacitor in a radio is 4.18 pF. (a) What is the inductance of a coil connected to this capacitor if the oscillation frequency of the L-C circuit is 1600 times 103 Hz, corresponding to one end of the AM radio broadcast band, when the capacitor is set to its minimum capacitance? (b) The frequency at the other end of the broadcast...
A Radio Tuning Circuit A radio can be tuned into a particular station frequency by adjusting the capacitance in an L-C circuit. Suppose that the minimum capacitance of a variable capacitor in a radio is 4.13 pF. What is the inductance L of a coil connected to this capacitor if the oscillation frequency of the L. cretis 166 MHL corresponding to one end of the AM radio broadcast and when the capacitor is set to its minimum capacitance? Express your...
A radio can be tuned into a particular station frequency by adjusting the capacitance in an L-C circuit. Suppose that the minimum capacitance of a variable capacitor in a radio is 4.14 pF . What is the inductance L of a coil connected to this capacitor if the oscillation frequency of the L-C circuit is 1.60 MHz , corresponding to one end of the AM radio broadcast band, when the capacitor is set to its minimum capacitance? The frequency at...
A radio can be tuned into a particular station frequency by adjusting the capacitance in an L-C circuit. Suppose that the minimum capacitance of a variable capacitor in a radio is 4.12 pF . What is the inductance L of a coil connected to this capacitor if the oscillation frequency of the L-C circuit is 1.50 MHz , corresponding to one end of the AM radio broadcast band, when the capacitor is set to its minimum capacitance? Express your answer...
1) A 3300-pF capacitor is connected in series to a 43.0-μH coil of resistance 7.30 Ω . A)What is the resonant frequency of this circuit? 2) The variable capacitor in the tuner of an AM radio has a capacitance of 2200 pF when the radio is tuned to a station at 560 kHz . Part A What must be the capacitance for a station at 1700 kHz ? Part B What is the inductance (assumed constant)? 3) An LRC circuit...
A radio can be tuned into a particular station frequency byadjusting the capacitance in an L-C circuit. Suppose thatthe minimum capacitance of a variablecapacitor in a radio is4.14 .a) What is the inductance of a coil connected to this capacitor ifthe oscillation frequencyof the L-C circuit is 1.70 , corresponding to one end of the AM radio broadcast band,when the capacitor is set to itsminimum capacitance?b) The frequency at the other end of the broadcast band is0.538 . What is...
The variable capacitor in the tuner of an AM radio has a capacitance of 1950 pF when the radio is tuned to a station at 610 kHz . 1- What must be the capacitance for a station at 1300 kHz ? Express your answer to two significant figures and include the appropriate units. 2- What is the inductance (assumed constant)? Ignore resistance. Express your answer to two significant figures and include the appropriate units.
The resonant LC circuit inside your radio contains a coil with an inductance of L = 0.496 mH. By turning the radio knob you adjust the capacitor to C = 34.4 pF. What is the wavelength of the radio waves your radio is receiving? 2.462×102 m You are correct. Your receipt no. is 159-9737 Previous Tries What is the speed of the radio waves received by your radio? PLEASE HELP!!
4. We want to design a tuner (actually a band pass filter) for an AM radio station whose frequency isf 700 kHz. The tuner must be able to detect the AM sidebands which are located at ±5 kHz (695 kHz and 705 kHz) from the central frequency. An easy way to achieve the above is to use a series RLC circuit and take VR for the output voltage. The resonant frequency of this circuit is that of the radio station....