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Answer should be: 84.29 mA
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Find IT
Answer should be: 84.29 mA
Given the following circuit: Find l_T.
Given: You have the circuit shown below 18 mA 120 V Find: The component of the...
Given: You have the circuit shown below 18 mA 120 V Find: The component of the voltage, V,, that is due to the 18-mA source
2.23 (A)* Find v in the circuit given in Figure P2.23. 5 k92 i= 10 mA...
2.23 (A)* Find v in the circuit given in Figure P2.23. 5 k92 i= 10 mA (1) 2 kN § 13 k22 3 v FIGURE P2.23 Circuit for Problem 2.23.
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
Answer should be Q=4.22 10.28 Find the quality factor for the circuit given in Fig. P10.21...
Answer should be Q=4.22
10.28 Find the quality factor for the circuit given in Fig. P10.21 given that the res- ad/s. onance frequency is e, = 6 10 r
Part A - Find the open-circuit voltage The circuit you should use to find the open-circuit...
Part A - Find the open-circuit voltage The circuit you should use to find the open-circuit voltage, Voc, is shown here. Note that the resistor to the right of terminals a and b has been removed to create the open circuit. Using any circuit analysis technique you like, find the open-circuit voltage 25 k22 20 k 2 30 k22 a 100 V 100 k2 18 mA 340 k 2 Voc h Express your answer with the appropriate units. View Available...
Find Ix in the following circuit: 2.mao $ 21. 0 - 2/3 mA 0 - 2...
Find Ix in the following circuit: 2.mao $ 21. 0 - 2/3 mA 0 - 2 mA o 2 mA 0 - 1 mA 2/3 mA
Find Io in the circuit in the figure below using nodal analysis. 4 mA 4 mA...
Find Io in the circuit in the figure below using nodal analysis. 4 mA 4 mA mA the tolerance is +/-29%
Find I, in the circuit Ix- 10 mA I, 2 mA 2. Determine Vo- & VI...
Find I, in the circuit Ix- 10 mA I, 2 mA 2. Determine Vo- & VI 12 kI
(25pts) 4. Find Vo in the circuit as below: 2 mA
(25pts) 4. Find Vo in the circuit as below: 2 mA
In the circuit given below, R 7 kQ. Find the mesh currents using MATLAB 8 k2...
In the circuit given below, R 7 kQ. Find the mesh currents using MATLAB 8 k2 I3) 8 kS.2 3 mA 4 k2 + 3k2 MA. The value of 11 in the circuit is he value of 12 in the circuit is The value of l3 in the circuit is The value of in the circuit is The value of l in the circuit is MA. mA. mA. MA.
Given: You have the circuit shown below 18 mA 120 V Find: The component of the voltage, V,, that is due to the 18-mA source
2.23 (A)* Find v in the circuit given in Figure P2.23. 5 k92 i= 10 mA (1) 2 kN § 13 k22 3 v FIGURE P2.23 Circuit for Problem 2.23.
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
Answer should be Q=4.22
10.28 Find the quality factor for the circuit given in Fig. P10.21 given that the res- ad/s. onance frequency is e, = 6 10 r
Part A - Find the open-circuit voltage The circuit you should use to find the open-circuit voltage, Voc, is shown here. Note that the resistor to the right of terminals a and b has been removed to create the open circuit. Using any circuit analysis technique you like, find the open-circuit voltage 25 k22 20 k 2 30 k22 a 100 V 100 k2 18 mA 340 k 2 Voc h Express your answer with the appropriate units. View Available...
Find Ix in the following circuit: 2.mao $ 21. 0 - 2/3 mA 0 - 2 mA o 2 mA 0 - 1 mA 2/3 mA
Find Io in the circuit in the figure below using nodal analysis. 4 mA 4 mA mA the tolerance is +/-29%
Find I, in the circuit Ix- 10 mA I, 2 mA 2. Determine Vo- & VI 12 kI
(25pts) 4. Find Vo in the circuit as below: 2 mA
In the circuit given below, R 7 kQ. Find the mesh currents using MATLAB 8 k2 I3) 8 kS.2 3 mA 4 k2 + 3k2 MA. The value of 11 in the circuit is he value of 12 in the circuit is The value of l3 in the circuit is The value of in the circuit is The value of l in the circuit is MA. mA. mA. MA.
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