Basic Engineering Circuit Analysis
11th Edition
ISBN: 9781118539293
Author: J. David Irwin, R. Mark Nelms
Publisher: WILEY
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Chapter 7, Problem 54P
Use the step-by-step technique to find
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Using the step-by-step method, find the value of the output current, io(t), just before
the switch closes (at t=0-) for the network in Fig. P7.81. Given Is, 11 mA, R1 = 2 kQ,
R2 = 2 KQ, R3 = 10 kn, and R4 = 5 kQ.
t = 0
R1 ΚΩ R3 ΚΩ
i(t)
OFER
R2kN
2 mH
Is mA
{R4ΚΩ
2iA
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In the network in Fig P7.12, find i0(t) for t>0 using the differential equation approach.
Chapter 7 Solutions
Basic Engineering Circuit Analysis
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- Using the step-by-step method, find the value of the output current, io(t), just before the switch closes (at t=0-) for the network in Fig. P7.81. Given Is,= 18 mA, R1 = 9 kQ, R2 = 7 kQ, R3 = 10 kQ, and R4 = 7 ko. t = 0 R1 ΚΩ R3k M 2 i(t) Is mA ( R2k 2 mH R4kQ Figure P7.81 Notes on entering solution: • Enter your solution in milliAmps (mA) • Enter your solution to the nearest tenth of a mA • Do not include units in your answer .ex. 5mA is entered as 5.0 2iAarrow_forwardcircuit analysisIn the circuit shown below, v (t) voltage is given. Energy stored in iC (t), vR (t), vS (t) and CWhich of the following?arrow_forwardplease show the clear equationarrow_forward
- -Obtain v(t) in time domain for t>0 in the circuit below-What type of damping case does the circuit have?-Draw the the time reponse of the v(t) with the values indicatedon the volts and time axisarrow_forwardFor the circuit below a. what is the damping coefficient and the damping frequency? b. What kind of damping does this circuit represent? c. What is the differential equation that describes the current iL(t)?arrow_forwardPlease show the step-by-step result i need it ASAP pleasearrow_forward
- Identify the equation for time constant in a RL circuit. a. R/L b. R*L C. L/R d. None of thesearrow_forwardThe switch in the circuit in fig P7.4arrow_forwardSOLVE STEP BY STEP IN DIGITAL FORMAT DONT USE CHATGPT 4. A branch current is described by d²i(t) dt² di(t) +4- + 10i(t) = 0 dt Determine: a. The characteristic equation b. The type of damping exhibited by the circuit c. i(t) given that i(0)=1 and di(0)/dt = 2arrow_forward
- Use the differential equation approach to find vc(t) for t>0 in the circuit in Fig. P7.10.arrow_forwardPlease solve both with all the steps . Also show the truthtable and implemented circuit diagramarrow_forwardQuestion 6 Using the step-by-step method, find the value of the output current, io(t), just before the switch closes (at t=0-) for the network in Fig. P7.81. Given Is,= 18 mA, R1 = 3 kq, R2 = 7 k0, R3 = 4 k0, and R4 = 6 km. Is mA R1 ΚΩ Figure P7.81 R3 ΚΩ R2k 1=0 Lo (1) 2mH Notes on entering solution: • Enter your solution in milliAmps(mA) Enter your solution to the nearest tenth of a mA Do not include units in your answer .ex. 5mA is entered as 5.0 R4k 21Aarrow_forward
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