(Questions 3 through 7 rcfer to Ftg. 1t). 38 *Ee;2.5V F[. r! 3. What is the equivalent resistance portion of the of the circuit between' nodes D and E? '- (1) loe (4) r20e (2) (5) 2Oe Cafifd bdifttermined from the information (3) given. l00o 4. power How much is dissipated in resistor R2 in Fig. 18? (l) (3) 0.0625w o.lsv O.g/S w (4) Cannot given- be tletermined from the informarion tiZi power 5. What is the dissipated in resistor R5? (Choose you answers from the choices in 4). Question power 6. How much is being drawn from the voltage source in Fig. 18. (Choose your answers from the choices 4). !n Question 7. What is the equivaleirt resisan-ce by the volt4ge souroe in Fig. l8? "seen" (l) 204 (3) l20e (2) l00a 24oa @) (5) Cannot be determined given. from the information8. whal is the equivalent resistance of the ladder network in Fig. 19, as 39 seen by the voltage source? (l) 53 e 2?fe G) 2'o3e Q' 26re 6) 9. What is the value of the voltage source in Fig. 19? (l) l7v (3) 3lv 26V (4) Q) 53 V & R4 I120mA tb.t9 ,'l- 10. lvhat is the output vgltage at point B in the circpit shown in Fig. 20? (Assume no load). (l) s.l v ll.2v. *(3) ' (2) 7.6sV (4) 16.3V I l. You can substitute a rosistive T network for (l) another T network only. (2) either a n or T resistive network orrty. any three,terminal reeistive network. fli3) ft.20 i -:'l i ,^-;r&it--..40 Flg. 2l ..v*L 12. What is the resistance between terminals A and b of the T network shown in Fig.2l ? (l) 470 Q' (3) l000sl (2) 560a XXXXXXXXXX ; 13.What are the resistor values for a r network that is equivalent to the one in Fig. 2l ? (Using standard terminology: R4, Rs, . and Rg) = = (l) Ra 470Q, = Rs 560Q, Rc 1000Q. (2) = = RA lI70At Rs 1030.Q, 15604. Bc: (3) = = Ra S), = 230D Rs 1293 Q, 2751Q, -Rc ff I - -. -1 .i' i a-)' I I
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