COSMOS: Complete Online Solutions Manual Organization System Chapter 10, Problem 1. Determine i in the circuit of Fig. 10.50. Figure 10.50 For Prob. 10.1. Fundamentals of Electric Circuits, 3/e, Charles Alexander, Matthew Sadiku © 2007 The McGraw-Hill Companies. COSMOS: Complete Online Solutions Manual Organization System Chapter 10, Problem 19. Obtain V o in Fig. 10.68 using nodal analysis. Figure 10.68 For Prob. 10.19. Fundamentals of Electric Circuits, 3/e, Charles Alexander, Matthew Sadiku © 2007 The McGraw-Hill Companies. COSMOS: Complete Online Solutions Manual Organization System Chapter 10, Problem 25. Solve for io in Fig. 10.73 using mesh analysis. Figure 10.73 For Prob. 10.25. Fundamentals of Electric Circuits, 3/e, Charles Alexander, Matthew Sadiku © 2007 The McGraw-Hill Companies. COSMOS: Complete Online Solutions Manual Organization System Chapter 10, Problem 41. Find v o for the circuit in Fig. 10.86, assuming that v s = 6 cos 2t + 4 sin 4t V. Figure 10.86 For Prob. 10.41. Fundamentals of Electric Circuits, 3/e, Charles Alexander, Matthew Sadiku © 2007 The McGraw-Hill Companies. COSMOS: Complete Online Solutions Manual Organization System Chapter 10, Problem 57. Find the Thevenin and Norton equivalent circuits for the circuit shown in Fig. 10.100. Figure 10.100 For Prob. 10.57. Fundamentals of Electric Circuits, 3/e, Charles Alexander, Matthew Sadiku © 2007 The McGraw-Hill Companies. Supplementary Problems on Generalized Impedance Functions: 8.33. For the circuit of problem 8.33: a. Find the impedance function Z(s) as seen by the 4-A source. b. Find the characteristic equation of the transient response of the circuit using Z(s) above. Write the general form of the transient response for the voltage v(t ) for t > 0 . (No need to find values of A1 and A2.) 8.49. For the circuit of problem 8.49. a. Find the impedance function Z(s) as seen by the current source . b. Find the characteristic equation of the transient response of the circuit using Z(s) above. Write the general form of the transient response for the current i (t ) for t > 0 . (No need to find values of A1 and A2.) Bonus 8.56 In the circuit shown, find i (t ) for t > 0 by following the steps below. a. Find the impedance function Z(s) as seen by the voltage source. b. Find the characteristic equation of the transient response of the circuit using Z(s) above. Write the general form of the transient response for the current i (t ) for t > 0. c. Find the steady-state value of the current i (t ) . d. Apply initial conditions to the total current response i (t ) to find all unknown constants.