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ECE 231 Circuit Analysis II --Question 3: Calculate the voltage across inductor V Le for the...
QUESTION 13 ECE 231 Circuit Analysis II --Question 3: Calculate the voltage across inductor V, for...
QUESTION 13 ECE 231 Circuit Analysis II --Question 3: Calculate the voltage across inductor V, for the circuit shown in the figure below if the total impedance Z = 1.8kQ2 + j1.4kQ2 = 2.28kQ2Z37.87° R = 1.8K22 XL = 2 kN Xc = 0.6 k 2 000 16 + + UR + 01 + VC E = 4.242260° V 1 OVL - 3.72 V 2112.13 OVL - 7.32 V 2-112.13 OVL - 2.73 V 2112.13 OVL - 3.72 V 2112.13
Exercise 31.13 - Enhanced - with Feedback You have a resistor of resistance 1902, an inductor...
Exercise 31.13 - Enhanced - with Feedback You have a resistor of resistance 1902, an inductor of inductance 0.450 H, a capacitor of capacitance 6.40 pF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 300 rad/s. The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. Part A What is the impedance of the circuit? Express your answer in ohms. VOI ΑΣΦ FR ? Z= 12...
Procedure Table 1 Voltage Generated, v Voltage across R, VR (V) Current IR, (A) 1 V...
Procedure Table 1 Voltage Generated, v Voltage across R, VR (V) Current IR, (A) 1 V 0.194 0.021 2 V 0.393 0.041 3 V 0.593 0.061 4 V 0.794 0.081 5 V 0.995 0.101 Average 0.593 0.061 Procedure 2 Setup Procedure Procedure 2 Setup Procedure Table 2 Voltage Generated, v Voltage across R, VRC (V) Voltage across C, Vc (V) 1V 0.161 0.526 2 V 0.322 1.052 3 V 0.489 1.586 4 V 0.651 2.109 5 V 0.816 2.647 Average...
1 ) A series circuit consisted of R= 10 KΩ, L= 42 mH , C= 2.1...
1 ) A series circuit consisted of R= 10 KΩ, L= 42 mH , C= 2.1 µF
is connected to an alternative voltage with maximum voltage of
Vm = 24 V and frequency of 300.0 Hz.
Find the following:
Show the formula for each question. Show your
Calculations – put result in a box with its unit. Please write your
answer under each question
a)Find the value of angular frequency ω .
b) Inductive Reactance ( XL)
c)Capacitive Reactance (...
For the circuit shown in Figure 3. С + HC If Z 1.8 nF 1.8 nF...
For the circuit shown in Figure 3. С + HC If Z 1.8 nF 1.8 nF 1.8 nF + I = 4 mA 20° 0 R 2.2 k.12 R2 2.2 k 12 R3 2.2 kΩ V, R f = 40 kHz Figure 3 a. Find the total impedance ZT b. Find the voltage across the resistor R3
Part A You have a resistor of resistance 230 S2 , an inductor of inductance 0.440...
Part A You have a resistor of resistance 230 S2 , an inductor of inductance 0.440 H , a capacitor of capacitance 6.50 uF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 280 rad/s. The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. What is the impedance of the circuit? IVO AO ] ? Z = 12 Submit Request Answer Part B What is the...
Find the voltage across the inductor in the circuit shown in the figure below using nodal...
Find the voltage across the inductor in the circuit shown in the figure below using nodal analysis. V 12 V2 HE 13/30 v 603 jo 21, Enter (a) the amplitude and (b) the phase angle. The phase angle must be in the interval (-180°, 180°). (a) (b) degrees
please answer as soon as possible 8. Find (1) Impedance (Z) of circuit and (ii) maximum...
please answer as soon as possible
8. Find (1) Impedance (Z) of circuit and (ii) maximum voltage across capacitor and (ii) rms voltage across inductor. ( 2+2+2). 1 ka 1H V = 140 sin (500 t) HH 1 uF
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find th...
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
Using nodal analysis, calculate voltage across all the resistors as shown below. This circuit analysis will...
Using nodal analysis, calculate voltage across all the resistors as shown below. This circuit analysis will be used in lab #2 6. 330 470 220 V 100 V
QUESTION 13 ECE 231 Circuit Analysis II --Question 3: Calculate the voltage across inductor V, for the circuit shown in the figure below if the total impedance Z = 1.8kQ2 + j1.4kQ2 = 2.28kQ2Z37.87° R = 1.8K22 XL = 2 kN Xc = 0.6 k 2 000 16 + + UR + 01 + VC E = 4.242260° V 1 OVL - 3.72 V 2112.13 OVL - 7.32 V 2-112.13 OVL - 2.73 V 2112.13 OVL - 3.72 V 2112.13
Exercise 31.13 - Enhanced - with Feedback You have a resistor of resistance 1902, an inductor of inductance 0.450 H, a capacitor of capacitance 6.40 pF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 300 rad/s. The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. Part A What is the impedance of the circuit? Express your answer in ohms. VOI ΑΣΦ FR ? Z= 12...
Procedure Table 1 Voltage Generated, v Voltage across R, VR (V) Current IR, (A) 1 V 0.194 0.021 2 V 0.393 0.041 3 V 0.593 0.061 4 V 0.794 0.081 5 V 0.995 0.101 Average 0.593 0.061 Procedure 2 Setup Procedure Procedure 2 Setup Procedure Table 2 Voltage Generated, v Voltage across R, VRC (V) Voltage across C, Vc (V) 1V 0.161 0.526 2 V 0.322 1.052 3 V 0.489 1.586 4 V 0.651 2.109 5 V 0.816 2.647 Average...
1 ) A series circuit consisted of R= 10 KΩ, L= 42 mH , C= 2.1 µF
is connected to an alternative voltage with maximum voltage of
Vm = 24 V and frequency of 300.0 Hz.
Find the following:
Show the formula for each question. Show your
Calculations – put result in a box with its unit. Please write your
answer under each question
a)Find the value of angular frequency ω .
b) Inductive Reactance ( XL)
c)Capacitive Reactance (...
For the circuit shown in Figure 3. С + HC If Z 1.8 nF 1.8 nF 1.8 nF + I = 4 mA 20° 0 R 2.2 k.12 R2 2.2 k 12 R3 2.2 kΩ V, R f = 40 kHz Figure 3 a. Find the total impedance ZT b. Find the voltage across the resistor R3
Part A You have a resistor of resistance 230 S2 , an inductor of inductance 0.440 H , a capacitor of capacitance 6.50 uF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 280 rad/s. The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. What is the impedance of the circuit? IVO AO ] ? Z = 12 Submit Request Answer Part B What is the...
Find the voltage across the inductor in the circuit shown in the figure below using nodal analysis. V 12 V2 HE 13/30 v 603 jo 21, Enter (a) the amplitude and (b) the phase angle. The phase angle must be in the interval (-180°, 180°). (a) (b) degrees
please answer as soon as possible
8. Find (1) Impedance (Z) of circuit and (ii) maximum voltage across capacitor and (ii) rms voltage across inductor. ( 2+2+2). 1 ka 1H V = 140 sin (500 t) HH 1 uF
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
Using nodal analysis, calculate voltage across all the resistors as shown below. This circuit analysis will be used in lab #2 6. 330 470 220 V 100 V
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