1 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 2 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: π π‘ = 150C/15 x 60s = 1/6A P = VI 1Whr/15min = V x 1/6 V = 24V πΌ = Chapter 1: Basic Concepts 3 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 4 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 5 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: ππ ππ‘ = 10e-tmA Now, P = VI Thus V = 0.2e--tV is the voltage across the element. E = ∫ π(π‘)ππ‘ πΌ = 0.2 = ∫0 2π-tdt = 0.362 mJ Chapter 1: Basic Concepts 6 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: The charge passing through the circuit is q 102 = ∫99 π(π‘)ππ‘ 102 =∫99 (−3 + π‘)ππ‘ = (−3 × 102 + =292.5C Chapter 1: Basic Concepts 1022 2 ) − (− 3 × 99 + 992 2 ) 7 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 8 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 9 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 10 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 11 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: I= ππ ππ‘ I = 20e-2tmA Now E = ∫ ππΌππ‘ 20 = ∫0 2.4e-4tdt = 0.011 J Chapter 1: Basic Concepts 12 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 13 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 14 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: i(t) = ππ ππ‘ = -3t2 + 12t - 10 = -3 x 52 + 12 x 5 - 10 = -25A Chapter 1: Basic Concepts 15 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: a. i(0.25) = e-4x0.25 = 0.368A 0.25 b. Average value of current = ∫−0.25 π(π‘)ππ‘ = 0.632A c. Charge passed = Average current x Time = 0.318A Chapter 1: Basic Concepts 16 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 17 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 18 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 19 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 20 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 21 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: The charge through the element can be found by finding the area under the curve from 5 to 15 seconds. Thus charge flown = 5 x (10-5) + ½ x 5 x (15-10) = 37.5mC Chapter 1: Basic Concepts 22 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 23 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 24 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: P=VI = 57.5cos(-2π/3) = -28.75W Chapter 1: Basic Concepts 25 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Power supplied by 10V battery = 10V x -8A = -80W Power supplied by 6A current source = 6A x 5V = 30V Chapter 1: Basic Concepts 26 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 27 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 28 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: a. V(1ms) = 9.69V b. V(8ms) = -4.16V c. Work done = q x V = 4C x V(4ms) = -21.6J Chapter 1: Basic Concepts 29 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Power delivered Chapter 1: Basic Concepts =VxI = 5 x (0.8-2)2V x -5A = -34.68W 30 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 31 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 32 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 33 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 34 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 35 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 36 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 37 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: (See Next page) Chapter 1: Basic Concepts 38 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 39 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 40 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 41 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 42 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 43 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 44 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 45 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 46 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 47 Irwin, Engineering Circuit Analysis, 11e ISV Chapter 1: Basic Concepts 48 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 49 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 50 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 51 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts 52 Irwin, Engineering Circuit Analysis, 11e ISV SOLUTION: Chapter 1: Basic Concepts