Question 7 (8 points) (8 Marks) Given the following network: 1. RL 1 ΚΩ 40001 +...
Problem 4 a) Find the Norton equivalent circuit external to points “a” and “b” in figure below. b) Find the magnitude and polarity of the voltage across the 100 N2 resistor. 602 16 VO 100 22 80 Ω 8 A 40 Ω 8 V + b Problem 5 Find the Norton equivalent circuit for the network external to the 4.7 k2 resistor in figure below. 3.3 k92 1 k92 1.2 k92 ş 5 mA î 2.2 k92 ww 3.3 k92...
Question 8 answered A capacitor is fully charged to 22 V and then connected between points A and B in the figure with its positive plate located at A. What is the current (in mA) through the 1-kiloohm resistor immediately after the capacitor is connected 1 2 Worked out of 00 6V + 2 kg B Select one O a. 18 to the loft O b. 16 to the loft 0 O d. 16 to the right 0.18 to the...
Question 7 1 pts Compute the equivalent resistance in ohms of the bulb network attached to the battery in Fig. 4. The resistance of each bulb is 5 12. Figure 4 Question 7 1 pts Compute the equivalent resistance in ohms of the bulb network attached to the battery in Fig. 4. The resistance of each bulb is 5 12. 070 Figure 4 Question 8 1 pts Indicate the reasoning for arriving at your answer to problem 7. Include equations,...
3. Compute v, and i, in the following circuit 8 ΚΩ 2 ΚΩ M 5 kΩ V ) 10 ΚΩs Σ 4 ΚΩ
QUESTION 13 Calculate the voltage across RL in the series_parallel network below. Vs = 20 V, RL = 3.6 KN Enter your results in Volts - V. Do not type the unit. Tko 33.3kg TR2 SRL QUESTION 14 Calculate the current through RL in the series parallel network below. Vs = 18 V, RL = 2.8 KN Enter your results in mA. Do not type the unit. 1kg PR1 RL 33.3kg R2 QUESTION 15 Calculate the voltage measured by the...
Figure 1 shows an amplifier application using a JFET. Given that Vasq=-2.48 V. IDQ = 2.07 mA and you = 0.1 ms. 1) Determine the voltage gain at mid-range frequency, Awwid). ii) Determine fio, fic and fts for the network iii) Determine which value contributes to the low frequency response for the network. iv) Plot the asymptotes for low frequency response of the network. Use the semi-log graph paper given in APPENDIX II for your answer. v) Plot the actual...
Find the equivalent circuit with fewest elements of the
following network.
Question 2b. (15 marks) Find the equivalent circuit with the fewest elements of the following network. (15 marks) 6 mH 000 10 uF 14 mH 000 HC 000 35 mH 9 uF 90 uF T
The current through the resistor R. of the network given in the figure below approximates to? R1 3 k2 M R2 R4 7 k92 3 ΚΩ VT 24V W R3 7 ΚΩ R$ 3 ks2 R6 4 km2 W Select one: a. 1 mA о b. 4 mA C. 2 mA ОО d. 3 mA
7. Determine the quiescent levels of Ic and Vce for the network of Figure 25. 10 V 4.7 k92 250 k22 16 10 uF B = 90 OH 10 uF 1.2 ΚΩ Figure 25 8. A stage is a transistor and the passive components connected to it. Figure 26 shows a three-stage circuit using two-supply emitter bias. Vec +15 V RCI 10 ΚΩ Ro 10 ΚΩ Rc 10 k 2 Yout R1 RB3 w- RER 33 k22 33 k2 RE1...
can anyone help. the answer is not 2.33 mA. i believe im
suppose to use this formula but im not sure how.
4 of 5 Required information Problem 08.059 - RL circuit with delayed stepped voltage NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part Consider the circuit given below. Auf- 1) V 3 ΚΩ w nces Problem 08.059.d - RL circuit with delayed stepped voltage, find current at...