![Q2. [20] Find the equivalent impedance at 20 kHz of a 1.5-mH inductance, a 100-Ω resistance, and an 80-nF capacitance all con](http://img.homeworklib.com/questions/7cd3b210-3b9e-11eb-9f04-d333a626cbe0.png?x-oss-process=image/resize,w_560)
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need help with questions 2 and 3
Q2. [20] Find the equivalent impedance at 20 kHz...
Find the impedance of an RLC series circuit with inductance 41 mH, capacitance 29 µF, and...
Find the impedance of an RLC series circuit with inductance 41 mH, capacitance 29 µF, and resistance 110 Ω at a frequency of 60 Hz. Answer in units of Ω. Find the impedance at a frequency of 600 Hz. Answer in units of Ω.
I 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown...
How are the equivalent impedances obtained in the figure? Please
be clear and specific.
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown in the figure. The capacitor and the inductors are in parallel with each other. The equivalent impedance of these components is ε il Ω
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown...
Help A series RLC circuit has components with the following values: L = 16.0 mH. C...
Help
A series RLC circuit has components with the following values: L = 16.0 mH. C = 82.0 nF, R = 15.0 ohm, and Delta V_max = 100 V, with Delta v = Delta V_max sin omega t. Find the resonant frequency of the circuit. 4.3939e03 Resonance occurs when the impedance is at a minimum. kHz Find the amplitude of the current at the resonant frequency. 6.67 A Find the Q of the circuit. 2.68 How is the Q related...
Find the Thevenin equivalent circuit for the circuit shown below. Draw the equivalent circuit along with...
Find the Thevenin equivalent circuit for the circuit shown below. Draw the equivalent circuit along with the load impedance. V 10 /0° V, w 1000 rad/s. Calculate the current through and the voltage across the load resistor. (30 pts) L1 1 mH R1 L2 500 Q 1 mH V C1 RL 100 μF 1.5 kQ
Design a DC-DC boost converter, shown below, that converts an unregulated supply of 12.0 Vak into a load voltage of...
Design a DC-DC boost converter, shown below, that converts an unregulated supply of 12.0 Vak into a load voltage of 30.0 Ve and load current of 0.25 A. The switching frequency of the transistor is 100 kHz. The transistor has an on-resistance of 0.15 Ω and the diode drops 0.7 V when it is conducting. The voltage ripple (Av) is taken as 20 mVpp The circuit has 80% conversion efficiency. Find the DC input-current (Iden), duty-cycle (D), inductance (L), power-dissipation...
please help me to solve it. Predict/Calculate Problem 24.54 IP An ac voltmeter, which displays the...
please help me to solve it.
Predict/Calculate Problem 24.54 IP An ac voltmeter, which displays the rms voltage between the two points touched by its leads, is used to measure voltages in the circuit shown in the figure(Figure 1). In this circuit, the ac generator has an rms voltage of 6.00 V and a frequency of 60.0 kHz. The inductance in the circuit is 0.320 mH , the capacitance is 0.110 μF and the resistance is 7.40 Ω
Help with number 26 Holt Chapter 20 Practice problems? The diagram is above. Practice problems■mm mmm-29.For...
Help with number 26 Holt
Chapter 20 Practice problems? The diagram is above.
Practice problems■mm mmm-29.For thecircuit shown in Figure 20-39, determi 25. Find the equivalent resistance of the circuit shown e - a. the current in each resistor in Figure 20-36. (See Sample Problem 20C.) b. the potential difference across each resisto See Sample Problem 20D.) 30.0 V 6.0 Ω 18Ω 9.0 Ω 6.0Ω 9.0 Ω 12Ω Figure 20-36 12 V 3.0 Ω Figure 20-39 26. Find the equivalent...
Question-20 5 points Capacitors Cz, C2 and Cz are connected as shown in the circuit below....
Question-20 5 points Capacitors Cz, C2 and Cz are connected as shown in the circuit below. The equivalent capacitance between points A and B is: C1 a. 16 nF b. 11 nF C. 0.77 nF d. 0.1 nF 1nF C2 10nF C3 InF Question-21 5 points The impedance, Z of a 10 mH inductor at a frequency of f = 1000 Hz, expressed as a complex number is a. –j 62.83W b. +j 62.83W C. –j 10W d. +j 10w...
C1 = 4nF Problem 2: b a) For the circuit shown in the figure, find the...
C1 = 4nF Problem 2: b a) For the circuit shown in the figure, find the equivalent a capacitance between a and b. C2 = 15 nF C3 = 10 nF HAE b) The potential difference between a and bis 20 V. Find the Q1 = charge stored in each capacitor. Q2 Q3 =
Two resistors connected in series have an equivalent resistance of 580 Ω. When they are connected...
Two resistors connected in series have an equivalent resistance
of 580 Ω. When they are connected in parallel, their equivalent
resistance is 123 Ω. Find the resistance of each resistor.
Ω (small resistance)
Ω (large resistance)
Please answer all parts correctly!!!! Thank you so much in
advance!
Safari File Edit View History Bookmarks Window Help 46% DERI Mon 3:20:28 PM 6Ω 5 2 4Ω 8Ω 8. -10 points SerCP11 18.3.P.009 My Notes Ask Your Teacher Two resistors connected in series...
How are the equivalent impedances obtained in the figure? Please
be clear and specific.
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown in the figure. The capacitor and the inductors are in parallel with each other. The equivalent impedance of these components is ε il Ω
i 2Ω WM 12.5 mF rad 20 50 mH 2Ω The equivalent impedances in this circuit at ω=20 rad/s are shown...
Help
A series RLC circuit has components with the following values: L = 16.0 mH. C = 82.0 nF, R = 15.0 ohm, and Delta V_max = 100 V, with Delta v = Delta V_max sin omega t. Find the resonant frequency of the circuit. 4.3939e03 Resonance occurs when the impedance is at a minimum. kHz Find the amplitude of the current at the resonant frequency. 6.67 A Find the Q of the circuit. 2.68 How is the Q related...
Find the Thevenin equivalent circuit for the circuit shown below. Draw the equivalent circuit along with the load impedance. V 10 /0° V, w 1000 rad/s. Calculate the current through and the voltage across the load resistor. (30 pts) L1 1 mH R1 L2 500 Q 1 mH V C1 RL 100 μF 1.5 kQ
Design a DC-DC boost converter, shown below, that converts an unregulated supply of 12.0 Vak into a load voltage of 30.0 Ve and load current of 0.25 A. The switching frequency of the transistor is 100 kHz. The transistor has an on-resistance of 0.15 Ω and the diode drops 0.7 V when it is conducting. The voltage ripple (Av) is taken as 20 mVpp The circuit has 80% conversion efficiency. Find the DC input-current (Iden), duty-cycle (D), inductance (L), power-dissipation...
please help me to solve it.
Predict/Calculate Problem 24.54 IP An ac voltmeter, which displays the rms voltage between the two points touched by its leads, is used to measure voltages in the circuit shown in the figure(Figure 1). In this circuit, the ac generator has an rms voltage of 6.00 V and a frequency of 60.0 kHz. The inductance in the circuit is 0.320 mH , the capacitance is 0.110 μF and the resistance is 7.40 Ω
Help with number 26 Holt
Chapter 20 Practice problems? The diagram is above.
Practice problems■mm mmm-29.For thecircuit shown in Figure 20-39, determi 25. Find the equivalent resistance of the circuit shown e - a. the current in each resistor in Figure 20-36. (See Sample Problem 20C.) b. the potential difference across each resisto See Sample Problem 20D.) 30.0 V 6.0 Ω 18Ω 9.0 Ω 6.0Ω 9.0 Ω 12Ω Figure 20-36 12 V 3.0 Ω Figure 20-39 26. Find the equivalent...
Question-20 5 points Capacitors Cz, C2 and Cz are connected as shown in the circuit below. The equivalent capacitance between points A and B is: C1 a. 16 nF b. 11 nF C. 0.77 nF d. 0.1 nF 1nF C2 10nF C3 InF Question-21 5 points The impedance, Z of a 10 mH inductor at a frequency of f = 1000 Hz, expressed as a complex number is a. –j 62.83W b. +j 62.83W C. –j 10W d. +j 10w...
C1 = 4nF Problem 2: b a) For the circuit shown in the figure, find the equivalent a capacitance between a and b. C2 = 15 nF C3 = 10 nF HAE b) The potential difference between a and bis 20 V. Find the Q1 = charge stored in each capacitor. Q2 Q3 =
Two resistors connected in series have an equivalent resistance
of 580 Ω. When they are connected in parallel, their equivalent
resistance is 123 Ω. Find the resistance of each resistor.
Ω (small resistance)
Ω (large resistance)
Please answer all parts correctly!!!! Thank you so much in
advance!
Safari File Edit View History Bookmarks Window Help 46% DERI Mon 3:20:28 PM 6Ω 5 2 4Ω 8Ω 8. -10 points SerCP11 18.3.P.009 My Notes Ask Your Teacher Two resistors connected in series...
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