Problem 6.16 7 of 23 Review Constants An uncharged 0.2 μ capacitor is driven by a triangular current pulse. The current pulse is described by: t0s; O, 5000t A 10.2-50001 A, The vollage is described b...
Problem 6.16 7 of 23 Review Constants An uncharged 0.2 μ capacitor is driven by a triangular current pulse. The current pulse is described by: t0s; O, 5000t A 10.2-50001 A, The vollage is described by: r(t) = 12.5 × 10,2 v 20 μ.<1<40pcs; t40 ps. 0, 0 s; 0st 20 us; 20 MS t-40 μ8; t40 s. - (loft-12.5 x 10":2-10) V, 10 V The power is described by: tS0s 0. p(t)-62.5 x 1012tt w 1>, 40μ. 0. The energy Is described by: t0s 15.625 × 10'70 J (15.625 x 101214-2.5 × 10a1.0.125 x 10:12-21 + 10-5) J, or(1)- 1 < 40 ps, 20 μ 1240 ,48, 10 p where t is in seconds. The expressions for voltage, power, and energy derived above involved both integration and manipulation of algebraic expressions. As an engineer, you cannot accept such results on faith alone. That is, you should develop the habit of asking yourselE, "Do these results make sense in terms of the known behavior of the circuit they purport to describe?" With these thoughts in mind, test the expressions above by performing the following checks PartA Check the expressions to see whether the voltage is continuous In passing from one tlime Interval to the next. Express your answers using three significant figures separated by comnas,
Problem 6.16 7 of 23 Review Constants An uncharged 0.2 μ capacitor is driven by a triangular current pulse. The current pulse is described by: t0s; O, 5000t A 10.2-50001 A, The vollage is described by: r(t) = 12.5 × 10,2 v 20 μ.