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Question 2: For the circuit below: 11 L1 R1 12 11+ 로 c1 Given that: V1...
Question 2: For the circuit below: 0.5 F C1 120 R1 2H m L1 V HC...
Question 2: For the circuit below: 0.5 F C1 120 R1 2H m L1 V HC R2 R3 V1+ 10V 120 100 a. Find V1(s), ZR1(s), ZR2(s), ZR3(), ZL1(s), ZC1(s) b. Redraw the circuit in the S-Domain Perform Nodal Analysis and give the equation for the voltage at node V C.
Question 3: For the circuit below: L1 2H R1 150 A B mm V2+ V1+ C1...
Question 3: For the circuit below: L1 2H R1 150 A B mm V2+ V1+ C1 0.25 F SV 10V 12 11 a. Re-Draw in the s domain b. Perform Mesh Analysis and give the equations for 11 and 12? 4s For the following function: F(s) = $ (632+55) C. Calculate the Voltage's final value f(6) d. Calculate the Voltage's Initial value f(0)
Question 1 : For the circuit below if Vs = 220cos(100t) v L1 2 mH Vs...
Question 1 : For the circuit below if Vs = 220cos(100t) v L1 2 mH Vs C1 R1 15002 0.25 mF a. Find: The Impedances ZR1 ,ZL1, Zci in phasors b. Calculate the input impedance Zin(jw) Calculate the input current in phasor and time domain expressions c. d. Calculate the current of the inductor Ili in phasor and time domain expressions?
(20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions should...
(20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t) Volts, R1 = 11, R2 = 512, L1 = 2H, L2 = 4H, C1 = 0.5F, C2 = 0.25F R1 C L2 + E(1) i2 C2 R2
1. (20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions...
1. (20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t)Volts, R1 = 112, R2 = 52, L1 = 2H, L2 = 4H, C1 = 0.5F, C2 = 0.25F R1 C1 L2 E(t) :C2 } R2
Question #1 C1 R1 L1 mm 0.1H V2 100 120Vrms 60Hz 0° v1 125UF = 12V...
Question #1 C1 R1 L1 mm 0.1H V2 100 120Vrms 60Hz 0° v1 125UF = 12V For the circuit shown in the above figure: 1) Calculate the current in the voltage source Vi. 2) Calculate the power dissipated in the resistor R1. 3) What is the voltage at the node between R1 and L1? Write the instantaneouse voltage at this node. 4) The current in C1 is Zero Ampere. Is this a true statement? If yes, explain why the current...
R1 C1 HH The V1 R2 11 R3 circuit shown is a simplified representation of a...
R1 C1 HH The V1 R2 11 R3 circuit shown is a simplified representation of a small signal transistor amplifier circuit. The AC input voltage is V1, with angular frequency w. The current through R2, is It. The dependent current source, 11, has value 100 IV. Let R1 = 500, and R2 = 1000. The load resistor, R3 has a value that is selectable by a design engineer. Let C1 = 10 pF, and L1 = 1 uH. (For reference,...
2) RLC series circuits R1 1m 2 1E-6 V1 C1 1E-12 TR = Ở TF 0...
2) RLC series circuits R1 1m 2 1E-6 V1 C1 1E-12 TR = Ở TF 0 PW = 1 PER = 2 In the above circuit, the voltage source is 5V for t<0 and 10V for t>0 2.1: Draw the s-domain equivalent circuit. Include the intial conditions in your s-domain circuit. Label your component values using symbolic notation (eg. sL1). 2.2: Using impedances, determine the transfer function for the voltage across C1. Use symbolic numbers in your expression. 2.3: Using...
1. Determine the differential equations for the given electrical circuit shown below. Equa- tions should be...
1. Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t)Volts, R2 = 11, R2 = 512, L1 = 2H, L2 = 4H, C= 0.5F, C2 = 0.25F C R1 w mm foto E(0)
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a...
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a capacitor and long time before -0, the switch is i inductor, a switch is moved to pole position positio a two-pole switch. For a n pole position B (Cl discon position A at-O. The following questions apply to this cir C1 is disconnected and uncharged). The position A, what is the c urrent in resistor, RI.(6) (a) Before the switch is moved to pole...
Question 2: For the circuit below: 0.5 F C1 120 R1 2H m L1 V HC R2 R3 V1+ 10V 120 100 a. Find V1(s), ZR1(s), ZR2(s), ZR3(), ZL1(s), ZC1(s) b. Redraw the circuit in the S-Domain Perform Nodal Analysis and give the equation for the voltage at node V C.
Question 3: For the circuit below: L1 2H R1 150 A B mm V2+ V1+ C1 0.25 F SV 10V 12 11 a. Re-Draw in the s domain b. Perform Mesh Analysis and give the equations for 11 and 12? 4s For the following function: F(s) = $ (632+55) C. Calculate the Voltage's final value f(6) d. Calculate the Voltage's Initial value f(0)
Question 1 : For the circuit below if Vs = 220cos(100t) v L1 2 mH Vs C1 R1 15002 0.25 mF a. Find: The Impedances ZR1 ,ZL1, Zci in phasors b. Calculate the input impedance Zin(jw) Calculate the input current in phasor and time domain expressions c. d. Calculate the current of the inductor Ili in phasor and time domain expressions?
(20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t) Volts, R1 = 11, R2 = 512, L1 = 2H, L2 = 4H, C1 = 0.5F, C2 = 0.25F R1 C L2 + E(1) i2 C2 R2
1. (20 points) Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t)Volts, R1 = 112, R2 = 52, L1 = 2H, L2 = 4H, C1 = 0.5F, C2 = 0.25F R1 C1 L2 E(t) :C2 } R2
Question #1 C1 R1 L1 mm 0.1H V2 100 120Vrms 60Hz 0° v1 125UF = 12V For the circuit shown in the above figure: 1) Calculate the current in the voltage source Vi. 2) Calculate the power dissipated in the resistor R1. 3) What is the voltage at the node between R1 and L1? Write the instantaneouse voltage at this node. 4) The current in C1 is Zero Ampere. Is this a true statement? If yes, explain why the current...
R1 C1 HH The V1 R2 11 R3 circuit shown is a simplified representation of a small signal transistor amplifier circuit. The AC input voltage is V1, with angular frequency w. The current through R2, is It. The dependent current source, 11, has value 100 IV. Let R1 = 500, and R2 = 1000. The load resistor, R3 has a value that is selectable by a design engineer. Let C1 = 10 pF, and L1 = 1 uH. (For reference,...
2) RLC series circuits R1 1m 2 1E-6 V1 C1 1E-12 TR = Ở TF 0 PW = 1 PER = 2 In the above circuit, the voltage source is 5V for t<0 and 10V for t>0 2.1: Draw the s-domain equivalent circuit. Include the intial conditions in your s-domain circuit. Label your component values using symbolic notation (eg. sL1). 2.2: Using impedances, determine the transfer function for the voltage across C1. Use symbolic numbers in your expression. 2.3: Using...
1. Determine the differential equations for the given electrical circuit shown below. Equa- tions should be purely in the form of in, and in and their derivatives (no integral terms). Simplify to the simplest form. Assume: E(t) = 2sin(t)Volts, R2 = 11, R2 = 512, L1 = 2H, L2 = 4H, C= 0.5F, C2 = 0.25F C R1 w mm foto E(0)
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a capacitor and long time before -0, the switch is i inductor, a switch is moved to pole position positio a two-pole switch. For a n pole position B (Cl discon position A at-O. The following questions apply to this cir C1 is disconnected and uncharged). The position A, what is the c urrent in resistor, RI.(6) (a) Before the switch is moved to pole...
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