What is the magnitude of the total current in the circuit, in A? » View Available Hint(s) ? Submit Part D - Voltage across the resistor Find the amplitude of the voltage across the resistor, in V. • View Available Hint(s) ? Submit • Part E - Changing the frequency Repeat the above calculations assuming the frequency of the source is 25.0 Hz. What is the voltage amplitude across the resistor, in V, in this case? ? Learning Goal: To see how an R-C circuit with an AC voltage source can be used as a high-pass filter. A 10.0-0 resistor and a 100-pF capacitor are connected in series with an AC voltage source with frequency 1000 Hz and maximum voltage 100 V. Part A - Complex impedance Find the complex impedance for this circuit, in 0. Format: Since Z = R+ Xị, your answer consists of two values: the resistive part Rand the reactance X. Enter them separated by a comma: R, X > View Available Hint(s) ? Your submission doesn't have the correct number of answers. Answers should be separated with a comma. No credit lost. Try again. Previous Answers Submit Part B - Complex impedance in polar form If the impedance Z is written in polar form (Zel), what are Z (in a) and o (in degrees)? Format: Enter them separated by a comma: Z. o • View Available Hint(s) ? Submit
What is the magnitude of the total current in the circuit, in A? » View Available Hint(s) ? Submit Part D - Voltage across the resistor Find the amplitude of the voltage across the resistor, in V. • View Available Hint(s) ? Submit • Part E - Changing the frequency Repeat the above calculations assuming the frequency of the source is 25.0 Hz. What is the voltage amplitude across the resistor, in V, in this case? ? Learning Goal: To see how an R-C circuit with an AC voltage source can be used as a high-pass filter. A 10.0-0 resistor and a 100-pF capacitor are connected in series with an AC voltage source with frequency 1000 Hz and maximum voltage 100 V. Part A - Complex impedance Find the complex impedance for this circuit, in 0. Format: Since Z = R+ Xị, your answer consists of two values: the resistive part Rand the reactance X. Enter them separated by a comma: R, X > View Available Hint(s) ? Your submission doesn't have the correct number of answers. Answers should be separated with a comma. No credit lost. Try again. Previous Answers Submit Part B - Complex impedance in polar form If the impedance Z is written in polar form (Zel), what are Z (in a) and o (in degrees)? Format: Enter them separated by a comma: Z. o • View Available Hint(s) ? Submit
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Transcribed Image Text:What is the magnitude of the total current in the circuit, in A?
» View Available Hint(s)
?
Submit
Part D - Voltage across the resistor
Find the amplitude of the voltage across the resistor, in V.
• View Available Hint(s)
?
Submit
• Part E - Changing the frequency
Repeat the above calculations assuming the frequency of the source is 25.0 Hz. What is the voltage amplitude across the resistor, in V, in this case?
?
Transcribed Image Text:Learning Goal:
To see how an R-C circuit with an AC voltage source can be used as a high-pass filter.
A 10.0-0 resistor and a 100-pF capacitor are connected in series with an AC voltage source with frequency 1000 Hz and maximum voltage 100 V.
Part A - Complex impedance
Find the complex impedance for this circuit, in 0.
Format: Since Z = R+ Xị, your answer consists of two values: the resistive part Rand the reactance X. Enter them separated by a comma: R, X
> View Available Hint(s)
?
Your submission doesn't have the correct number of answers. Answers should be separated with a comma.
No credit lost. Try again.
Previous Answers
Submit
Part B - Complex impedance in polar form
If the impedance Z is written in polar form (Zel), what are Z (in a) and o (in degrees)?
Format: Enter them separated by a comma: Z. o
• View Available Hint(s)
?
Submit
Expert Solution
Concept and Principle:
The given circuit is an RC circuit. It has a resistor and a capacitor connected to an AC source. Thus the total impudence will depend on the frequency of the AC signal and is given by,
Here R is the resistance of the resistor, XC is the impedance of the capacitor.
The magnitude of the total impedance will be,
Now impedance of the capacitor is given by,
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