![The phasor current is in the circuit shown is 25 2(0°) [mA] a) Find phasors I, and I. b) If o=1500 [rad/s], write expressions](http://img.homeworklib.com/questions/e3013ab0-df71-11ea-b219-a9573603aa66.png?x-oss-process=image/resize,w_560)
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The phasor current is in the circuit shown is 25 2(0°) [mA] a) Find phasors I,...
The phasor current lb in the circuit shown in figure below is 25 <0 mA. Find...
The phasor current lb in the circuit shown in figure below is 25 <0 mA. Find la /e, and I a, c, 8- 1000 ? )250 (2 -/1000 (2 500 ? 2000 ?
2) For the circuit shown, draw the phasor equivalent circuit for the described circuit, and answer...
2) For the circuit shown, draw the phasor equivalent circuit for the described circuit, and answer the questions below. then find the voltage across the current source (v(t)). Note for questions b and c you need to determine the instantaneous power associated with the source using values for P and Q(P and Q are determined from the phasor analysis results for V and Ig) and then use the trig identity Acos(x)Bsin(x) = V42 + B2 cos(x-Tan(B/A to convert Pcos(x) -...
The phasors are the following phasor 1 150 mA at 0 degree and phasor 2- 400...
The phasors are the following phasor 1 150 mA at 0 degree and phasor 2- 400 mA at -20 degree What would be the result of adding the phasors? Give your answer in unit vector form and polar form. X: Tries 0/99 Submit Answer y: Tries 0/99 Submit Answer resultant Submit Answer Tries 0/99 direction: Tries 0/99 Submit Answer
Find the phasors for the current and for the voltages of the circuit shown below. Construct...
Find the phasors for the current and for the voltages of the circuit shown below. Construct a phasor diagram showing VS, I, VR, and V.. What is the phase relationship between Vs and I? (7 pts) 10022 AN v (t) = 10 cos(5000)
Question #01 (30 points) Consider the following circuit. Let us define the phasors in terms of...
Question #01 (30 points) Consider the following circuit. Let us define the phasors in terms of the Sine function. 0.25 F 12 H 222 1H = 0.5 F {52 8 sin (2t + 30°) V Zeq + 1. Draw phasor domain circuit. (4 points) 2. Find Zee for the circuit as seen from input voltage source. (6 points) 3. Draw Zeq phasor. (2 points) 4. Find resistance and reactance for Zeq. Is the reactance capacitive or inductive? (3 points) 5....
Hi, please can anyone explain to me how they obtained the phasor angle, seems like I...
Hi, please can anyone explain to me how they obtained the phasor
angle, seems like I missed the basic. Thanks
Q #2 (50 pts) Phasors Given: V, = 100 L-900 Vnns a) Calculate phasors I,, I2, and I. b) Draw a phasor diagram for this circuit including all of the voltages and currents that are labeled. -j 14.14 -j 14.14 32 12 V Vs Vi ID 2 25 V. 7 0), 노 iw.ry
Problem 4. Consider the circuit shown below. Assume the current is given by i(t)cos(2T100 +30°) A...
Problem 4. Consider the circuit shown below. Assume the current is given by i(t)cos(2T100 +30°) A a. Find an expression in rectangular coordinates for phasors I, VR,VL, and V b. Sketch a phasor diagram showing the phasors I, VR,andV c. Sketch a phasor diagram showing the vector sumV-VR+ V, which should match your result in a. Hint: The phasor diagram for part c is shown below to help you check your work 5 0 4.5 5 Real 0.5 -2
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...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V,...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V, Rp = 60 kN, Rc = 2 k. The input signal is a sinusoidal voltage given by Vin(t) = 0.2 sin(2000 ) V. The input and output characteristics of the transistor are provided on Page 2. (1) Find Ig, Ic and Vce. (30 points) Hint: Use the load line method. (Vor.) and (Vce: 1c) are the operating points of the transistor in the input...
Answer the following with all steps, thanks For the circuit shown, ig= 50 cos 20,000t mA...
Answer the following with all steps, thanks
For the circuit shown, ig= 50 cos 20,000t
mA
1. Find the inductive and capacitive reactances
2. Construct the phasor domain equivalent circuit
3. Find the individual branch impedances
4. Find the current I through the capacitive branch if
ig = 50 cos 20,000t mA
5. Find the steady-state expression for voltage
vo
3500 2pF 210mH 10000
The phasor current lb in the circuit shown in figure below is 25 <0 mA. Find la /e, and I a, c, 8- 1000 ? )250 (2 -/1000 (2 500 ? 2000 ?
2) For the circuit shown, draw the phasor equivalent circuit for the described circuit, and answer the questions below. then find the voltage across the current source (v(t)). Note for questions b and c you need to determine the instantaneous power associated with the source using values for P and Q(P and Q are determined from the phasor analysis results for V and Ig) and then use the trig identity Acos(x)Bsin(x) = V42 + B2 cos(x-Tan(B/A to convert Pcos(x) -...
The phasors are the following phasor 1 150 mA at 0 degree and phasor 2- 400 mA at -20 degree What would be the result of adding the phasors? Give your answer in unit vector form and polar form. X: Tries 0/99 Submit Answer y: Tries 0/99 Submit Answer resultant Submit Answer Tries 0/99 direction: Tries 0/99 Submit Answer
Find the phasors for the current and for the voltages of the circuit shown below. Construct a phasor diagram showing VS, I, VR, and V.. What is the phase relationship between Vs and I? (7 pts) 10022 AN v (t) = 10 cos(5000)
Question #01 (30 points) Consider the following circuit. Let us define the phasors in terms of the Sine function. 0.25 F 12 H 222 1H = 0.5 F {52 8 sin (2t + 30°) V Zeq + 1. Draw phasor domain circuit. (4 points) 2. Find Zee for the circuit as seen from input voltage source. (6 points) 3. Draw Zeq phasor. (2 points) 4. Find resistance and reactance for Zeq. Is the reactance capacitive or inductive? (3 points) 5....
Hi, please can anyone explain to me how they obtained the phasor
angle, seems like I missed the basic. Thanks
Q #2 (50 pts) Phasors Given: V, = 100 L-900 Vnns a) Calculate phasors I,, I2, and I. b) Draw a phasor diagram for this circuit including all of the voltages and currents that are labeled. -j 14.14 -j 14.14 32 12 V Vs Vi ID 2 25 V. 7 0), 노 iw.ry
Problem 4. Consider the circuit shown below. Assume the current is given by i(t)cos(2T100 +30°) A a. Find an expression in rectangular coordinates for phasors I, VR,VL, and V b. Sketch a phasor diagram showing the phasors I, VR,andV c. Sketch a phasor diagram showing the vector sumV-VR+ V, which should match your result in a. Hint: The phasor diagram for part c is shown below to help you check your work 5 0 4.5 5 Real 0.5 -2
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...
Problem: In the circuit shown in Figure 1, Vee = 1.2 V, Vcc = 20 V, Rp = 60 kN, Rc = 2 k. The input signal is a sinusoidal voltage given by Vin(t) = 0.2 sin(2000 ) V. The input and output characteristics of the transistor are provided on Page 2. (1) Find Ig, Ic and Vce. (30 points) Hint: Use the load line method. (Vor.) and (Vce: 1c) are the operating points of the transistor in the input...
Answer the following with all steps, thanks
For the circuit shown, ig= 50 cos 20,000t
mA
1. Find the inductive and capacitive reactances
2. Construct the phasor domain equivalent circuit
3. Find the individual branch impedances
4. Find the current I through the capacitive branch if
ig = 50 cos 20,000t mA
5. Find the steady-state expression for voltage
vo
3500 2pF 210mH 10000
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