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Basic Engineering Circuit Analysis
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- https://docs.goog X p tabs together, right-click a tab z5bCAq361TACoM7x7Q/formResponse R= 3 Ohm Vs- 12 v O Got it Remind me later Q6: For the following circuit, find the total resistance between points A,B (Reg) and the total current from point B to A if the applied voltage VAB equal 30 v ww 152 22 102 G F 20 2 10 2 40 S2 30 2 ww Reg 6 Ohm It= 5 AO Reg =4.5 Ohm It= 6.66 A Reg 3 Ohm It= 10 A Reg -6 Ohm It= -5 AO none of the mentioned ABE wwwarrow_forward2. SHOW ALL youR SOLUTIONS STEP DY STEP : AR A2 RDG - 3A Al rdg= 200 mA A1 A3 RL 226 v/60 H2/o Deg a. TURN RATIO oF tHE THANS FORMER b. PLCAVE) C:A zrdg d. Vrdg C. RLarrow_forwardQ1/ Find VCE, VBE, and VCB in the circuit shown below: RB www 3.9 k + B Rc 180 Q Bpc = 50 Vcc 15 V 3arrow_forward
- Refer to the circuit below. The value of the nodal voltage V1 is given by: R1 R 120 1 1A E 24 V #ov) O A. 6 V O B. 20 V O C. 24 V O D. None of the given answers O E. 30 V O F. 12 Varrow_forwardLayout Help ProjectWise PDF-XChange The Diagram below shows a D.C. source supplying a network of resistors with the following values: References a. b. Review Mailings E1 = 54V R1 = 20 R2 = 60 R3 = 50 R4 = 120 R5 = 30 R6 = 40 R₁ = 120 =1 31 0 E1 fs* View f6 * R2 R1 19 R₁ (Load) R4 R6 Using appropriate circuit theorems, determine the power transferred to the load, R₁. Calculate what value the load needs to be in order to achieve maximum power transfer, and suggest how the circuit could be changed to accomplish this without removing the resistor RL. f7 W hp f8 R3 fo R5 fo f1 Focus 80 12arrow_forwardQ2. Find the values of R and V, that makes lo = 10 mA. The coefficients of a,b and c can be found by the method given in the previous question (Derive the coefficients a, b, c according to your student number as format is given as follows: 1c04120ba ) a=8 b=1 c=7 R 1.5k 0 *a*R 3kn *b*R 20 + aV: 5k*c*R 150 n+Rarrow_forward
- The network N₁ shown below in Figure 3(a) contains a VCVS and is driven by an in- dependent current source. Using the values shown on the schematic, obtain the Nor- ton's equivalent network at terminals A-B of N₁ as shown in Figure 3(b). Label each component of the equivalent with its correct value. Show your work and explain in detail all assumptions you make. Jg₁ 20mA N₁ JN R3 R₁. 5KQ R₂ www 6ΚΩ + 3ΚΩ R4 7KQ V₂ (a) GN (b) μV4 B Figure 3 (a) Resistive network N₁ (b) Norton equivalent network (μ = 4V/V) Barrow_forwardQI// Analysis the circuit shown in figure below. SET J2 Q2 CLK K2 X RESET SET J1 Q1 CLK K1 RESET CLK •arrow_forwardAccording to the circuit and parameters given in the figure, make your calculations and write the table. wmww w n ww bbn m w w w w Please fill in. www ww w +12V +12V M1 M2 2kN 10kN K ImA/V² 0.5mA/V² VTH 2V 1.5V 22kN M2 MODE 33k2 M1 Ip 1kN VGS Vps K1=lmA/V² Vth1=2V; M2: K2=0.5mA/V² VTH2=1.5Varrow_forward
- Q4 For the network of figure shown below, determine the currents Ig and Ig and the voltages VCE and VCB for the common-base configuration with ß = 60. %3D RE 1.2 k2 Rc 2.4 k2 + VEE 4 V Vcc 10 Varrow_forwardQ1: Determine Vcc for the network of figure if Ay= -160 B=120,then find Aj, Zo, Zi and Vo 3.3 kohm 82k ohm 10 HF 750 ohm HH 10K Ohim mA 300 onm 5.6 Kone 700 Ohm 20arrow_forward3.11 A Wheatstone bridge has a single strain gauge in one arm and the other arms are resistors with each having the same resistance as the unstrained gauge. Show that the output voltage from the bridge is given by - V, Gɛ, where V, is the supply 4 voltage to the bridge, G the gauge factor of the strain gauge and ɛ the strain acting on it.arrow_forward
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