Find the power in each component of this circuit 25 R1 + +j 100 L1 20V...
Find the VTh and the Thevenin equivalent circuit
L1 R1 M 100 20:20H V1 50Vpk 0.159Hz 309 + C1 =0.10F R2 5TQ Vth
Find Zab in the circuit below at w=10000 rad/s. (25point) L1 1 mH 10xit am R1 100 C1 } R2 100 F b
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...
For the circuit shown, use the node method to find the power in the 20V source.
The average power at the source IS EQUAL TO WHAT WITH
DEMONSTRATION,?
R1 L1 10 1H 10 cos(500t-60°) C1 =1uF
Question 2: For the circuit below: 11 L1 R1 12 11+ 로 c1 Given that: V1 = 8V, L1=4H, C1=0.5F and R1=200 a. V1(s) and the Impedances ZR1, ZL1, Zc1 in the s domain b. Perform Mesh Analysis and give the equations for 11 and 12?
Consider the circuit shown in the figure where
R1 = R2 = 225 Ω ,
L1 = 25 mH , L2
= 50 mH , C = 1.25
μF ,V0 = 85 V ,
and ω = 60 s−1 . (Figure 1)
1. Find the power dissipated by R1.
2. Find the power dissipated by R2.
3. At what frequency or frequencies will both resistors
dissipate the same power?
If you need to enter more than one answer, enter them in
ascending order, separated by commas....
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.
Vin across the left port, Vout across the right port.
R1 L1 C1 Find the phase difference (in radians) between an input sine wave at Vin and the output wave at Vout for the circuit in the above problem, as a function of frequency.
In the circuit, R1=50 Ohm, R2 = 36 Ohm, the reactance of the
inductor L1 is XL1=15 Ohm, the absolute value of the capacitor C1
reactance, XC1=98.8 Ohm.
The voltage source VS amplitude and phase are VSm=20 V and VSph=0.8
rad.
L1C1 om R2 VSm ZVSph ~ R13 R2 In the circuit, R1=50 Ohm, R2 = 36 Ohm, the reactance of the inductor Li is XL1=15 Ohm, the absolute value of the capacitor C1 reactance, XC1=98.8 Ohm. The voltage source...