A series circuit comprises an inductor, of resistance 10 Q and inductance 159 pH, and a variable capacitor connected to a 50 mV sinusoidal supply of frequency 1 MHz. What value of capacitance will result in resonant conditions and what will then be the current? For what values of capacitance will the current at this frequency be reduced to 10 per cent of its value at resonance?
A series circuit comprises an inductor, of resistance 10 Q and inductance 159 pH, and a variable capacitor connected to a 50 mV sinusoidal supply of frequency 1 MHz. What value of capacitance will result in resonant conditions and what will then be the current? For what values of capacitance will the current at this frequency be reduced to 10 per cent of its value at resonance?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Q4. A series circuit comprises an inductor, of resistance 10 Q and inductance 159 pH, and a variable capacitor connected to a 50 mV sinusoidal supply of frequency 1 MHz. What value of capacitance will result in resonant conditions and what will then be the current? For what values of capacitance will the current at this frequency be reduced to 10 per cent of its value at resonance?
Transcribed Image Text:Q4. A series circuit comprises an inductor, of resistance 10 Q and inductance
159 µH, and a variable capacitor connected to a 50 mV sinusoidal supply of
frequency 1 MHz. What value of capacitance will result in resonant
conditions and what will then be the current? For what values of capacitance
will the current at this frequency be reduced to 10 per cent of its value at
resonance?
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Hello I am really confused how you have simplified down the Z value down to the C= 176.931 I would like the clear steps please as it just shows the equation and jumps to the answer. Thank you.
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