QUE STION FIVE ) For the drauit of Figure 8, determine thefollowing parameters Ig, Ip, Vos Vp, Vac and then state the mode in which the BJT is operating. Use either the graphical (using a graph paper) approach or the mathematical approach Vcc Given : Vcc = 20 V 'oss - 8 mA Ve %3! Vp =-4V Vss =-1 V B =100 R3 = 470 2 Vo Rc = 3.6 k2 %3D RG Rs=1 k2 RG = 2 M2 Vss Figure 8 3) A magnetic drcuit compri ses three parts in series, each of uniform cross-sectional area (c.s.a).

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QUE STION FIVE A) For the drauit of Figure 8, determine the following parameters Ig, Ip, Ves,VD. Vac and then state the mode in which the BJT is operating. Use either the graphical (using a graph paper) approach or the mathematical approach Vcc Given : Vcc = 20 V oss = 8mA %3D RB Vc V, =-4 V Vss =-1 V B =100 R3 = 470 2 Rc = 36 kn Rs=1 k2 VD RG RG = 2 M2 %3! Vss Figure 8 B) A magnetic drcuit comprises three parts in series, each of uniform cross-ectional area (c.s.a). They are: part (a) al ength of 80mm and c.s.a. 50mm, part (b) alength of 60mm and c.s.a. 90mm, pert (c) anairgap of length 0.5mm and c.s.a. 150mm. A coil of 4000 tums is wound on part (b), and the flux density in the airgap is 0.30 T. Assuming that all the flux passes through the given circuit, and that the relative permeability u, is 1300. i. Draw a well labdledmagnetic andequi valent electric circuit. Estimate the coil current to produce such a flux density. ii.