IRWIN 9e 13_17 - Irwin Basic Engineering Circuit Analysis...

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Unformatted text preview: Irwin, Basic Engineering Circuit Analysis, 9/E 1 13.11 If Figs) = [3 + 1121;: + 3112;“ + 2111:; + 4). [1an my. SOLUTION: PCS) = (s +r)1(s+3)°' M '(s+;)(§+H) ., «WWMwfimn-muw~w»w.WWw~m—m PCS): SH+933+2251+2V$+Q ' W” sl+6s+2 L 25+Z sl+6s+8 SH+331+22SL+2q3+q AWW~ 233 + [951+2HS 253 +1281+I6$ +9 7,372+ 5757‘ ‘1 13L +Izs+ )6 445— 7 HS): g1+25+2 ' (45+? §+Z)(§1LD ch): g1+2312+A +..L 3+; 9+9 1333;, : -__,....A 1 8 (Humv) 5+2 3271 -4qs+7):: A(§+H)+B(&ha Chapter 13: The Laplace Transform Problem 13.17 2 lwvin, Basic Engineering Circuit Analysis, 9/E Let S: "1 (wwwv) : B(*H+2) -2g_: G! g: “(3/2 1A: l A: (/7. FR): 321'2s+2+ V2 7‘ ‘q/1 8+1 51H F(t) = [wag + mat) +230) +5; Cut—ge'qu’c obtL out Problem 13.17 Chapter 13: The Laplace Transform ...
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This note was uploaded on 10/04/2010 for the course ECE ECE212 taught by Professor Micahstickel during the Fall '10 term at University of Toronto.

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IRWIN 9e 13_17 - Irwin Basic Engineering Circuit Analysis...

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