Question

(MAS BR 1000 w 4000 w 30 Ri 40 R 2000 2000 (m) Figure Q4(a) Figure Q4(b) Calculate the average and the effective current is ) as indicated in Figure Q4 (a). (marks) (6) Based on the answer in Q4 (a), determine the effective current flows through Rs. (4 marks) Calculate the average power absorbed by Rs. (2 marks) If the input current is replaced with the sinusoidal wave having a peak-to-peak value of 160 mA and frequency of 1 kHz, calculate the new average power absorbed by R (5 marks)

Answer 1

60827 X 300 (4-2) average current Area under the curve Time Period 6082 + Area of a 4 30 4 120 +30 = 30.5 F 2 37.5 mA Effective current 60 9 60 -15 (t-2)+30 oçt La 2Lt cu 30 2 и Effective current = S* 3600dt + 5 * 4+15(+2)+30)}dt 4 + {"+ (-1st +601?dt 3600x2 4 7200 + S, “(225+? - 1800t +3600 )dt 225 (u?-2°) - 1800 (4224) 364 7200 t 3 4 7200 + 4200 - 10800 + 7200 u 44.158 mA 11 CS Scanned with CamScanner

lb ) R2 R₃ 11 Ry 100 400 (R311fu) R 200 1= I th R 400 200 R = noo 3 3 By Current divide current through R₂8 R₂ 11Ry is 200 x Irms 200 + 100+400 I 0.4615 44,158=20,3806 Ru Effective current through R₂ = Ru xI Rz tu uoo X 20, 3806 yoot200 13.587 mA (0) Average power = ( effecture ² XR₃ = 184,606 x 200 absorbed by R3 = 36,921.31 W (d) Similar to (b) Effective current through R3 Is effective x 200 - 400 400 4200 x Irma 200+ 100x you I uns - - x 80mA Izetbe 0.3076 x 56.56 = 17.40 mA Average Power = (Izeth ²x R₃ 60,573.417 W CS Scanned with CamScanner
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