Fall 2009
ECSE 210: Electric Circuit 2 Assignment #10
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Draw the Phase Bode Diagram for the transfer function (2) Draw the Phase Bode Diagram for t
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #9
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #9
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Sketch the correct and uncorrected Bode Gain Plot for (2) For a series RLC circuit, find ZR,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #8 Solutions
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book, th
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #8
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 14.10. (2) Problem 14.33. ; (3) Problem 14.34; only part a "Magnitude and Phase" (4)
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #7
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #7
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 13.27. (2) Problem 13.31. (3) Problem 13.34. (4) Problem 13.40. (5) Problem 13.41. R
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #6
Bhavin J. Shastri, Head TA, ([email protected]) (1) Problem 1. Using the definition of the Laplace transform, find the transform F(s) of the following time function: ) -6t f(t) = 2e u(t). Sol
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #6
Bhavin J. Shastri, Head TA, ([email protected]) (1) Problem 1. Using the definition of the Laplace transform, find the transform F(s) of the following time function: ) -6t f(t) = 2e u(t). (2) Problem 2.
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #5
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #5
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 10.6. (2) Problem 10.9. (3) Problem 10.19. (4) Problem 10.44. (5) Problem 10.45. (6)
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #4
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #4
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 9.13. (2) Problem 9.19. (3) Problem 9.29. (4) Problem 9.35. (5) Problem 10.6. Refere
Fall 2009
ECSE 210: Electric Circuit 2 Assignment # Solutions #3
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book,
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #3
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 8.13. (2) Problem 8.21. (3) Problem 8.31. (4) Problem 8.33. (5) Problem 8.40. (6) Pr
v1 (0) = 12 = K1 + K2 (0) = K1 = 12 We also know that v2 (0) = 0 and v2 is given by Eq. 6. Solving this gives K2 = 48. Hence v1 = 12e-2t + 48te-2t Also, from the figure, i =
2v1 4 ,
(9)
(10)
hence i = 6e-2t + 24te-2t A. (11)
(3) Problem 7.24.
Solution:
i
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #2
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 7.24. (2) Problem 7.25. (3) Problem 7.26. (4) Problem 7.32. (5) Problem 7.35. (6) P
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #1
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the problems are from [1]. (1) Problem 7.16. (2) Problem 7.18. (3) Problem 7.19. Reference
[1]. D. E. Johnson, J. R. John
Electrical & Computer Engineering Department ECSE Winter 2009 TA: Dahlia R. ElShafie Solution by Dahlia R. ElShafie and H. Sahambi
Solution of Assignment no.10
1H ( S ) = 100 ( S + 1) ( S + 10)( S + 100)
2- H ( S ) =
1 ( S + 1)(S + 20)
Constant: The phase
Fall 2009
ECSE 210: Electric Circuit 2 Assignment #1 Solutions
Bhavin J. Shastri, Head TA, ([email protected]) Unless otherwise mentioned, all the solved here problems are from [1]. Note that if the assignment contained some examples from the text book, t