1 kN +2V 1 ΚΩ 1 kN Ix C 1 kN D 1 kO E 1 kN +) 12 V 1 kN Figure 1.2 Circuit for problem 1b.
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Use nodal analysis method to calculate the current I0 in the circuit.
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- Find VR1, VR2, VR3 & IR1, IR2, IR3 must be in whole numbers. Voltage in Volts and Current in mA.The numerical values for the currents and voltages in the circuit inP1.29 are given in Table P1.29. Find the total power developed inthe circuit.b) Use the ALU 74181 in the figure below and the tables (one is enough; second maybe, need to check the new kit) to implement : A + B, A – B, A. B. (MSB) (LSB) 10 (MSB) F3 F2 F1 FO S3 Cn+4 16 s2 20 U14 15 S1 14 so A3 A2 A1 AO B3 B2 B1 B0 M Cn 24 23 22 21 28 27 T26 25 (LSB) (MSB) (LSB)(MSB) (LSB) And given that under M = 1 the circuit performs the following arithmetic and logic functions according to Table 11.1. Input selection S3 Output M-H S2 SI Cn=L. F3 F2 F1 FO A 1 -A В -B A&B AxB 1 A'B 1 Ax(-B) (-A)xB (-A)x(-B) 1 1 ACTIVE HIGH DATA M-L: ARITHMETIC OPERATIONS SELECTION M-H LOGIC s3 s2 s1 so Ino carry) (with carry) F-A PLUS 1 F- LA + B) PLUS 1 F- (A + BI PLUS 1 FUNCTIONS L L F-A F-A+B F-AB F-A H FA+B F-A+T F- MINUS 1 12s COMPL) F-A PLUS AB F- IA + BI PLUS AB L L L L F-0 F-ZERO F- AB F-A PLUS AB PLUS 1 F- (A + BI PLUS AB PLUS 1 L L L H L F-AOB F- AB L L F-A MINUS B MINUS 1 F-A MINUS B F- AB MINUS 1 F- A F-A PLUS AB PLUS1 F-A PLUS B PLUS 1 F- IA + B PLUS AB PLUS 1 L H L F-A PLUS AB…
- A. Pz P MM- www P3 -mu- AMB Py m In the electrical circuit shown above, the values p1 =0.915, p2=0.626, p3=0.762, p4= 0.820, p5 =0.927 are the probabilities that each of the components of the circuit, independently, will work. Determine the probability that the circuit operates between points A and B. Express your result as a number between zero and one, with four decimal places.Current Dividers 1.10 Current dividers play an important role in circuit design. Therefore it is important to develop a facility for dealing with current dividers in circuit analysis. Figure P1.10 shows a two-resistor current divider fed with an ideal current source I. Show that R2 I R, +R, R R, +R, and find the voltage V that develops across the current dividerSolve number 1. Plz show all work and tips to help for this practice problem. Thank you
- The elements in the circuit shown have the following values: R1 = 1937.97 Q. R2 = 8792.15 Q. Rz R3 = 1441.86 0. It V1 = 8.1 V. 11 = 0.0072 A R. Vo Determine the following: a.) The Thevenin Resistance is, Rth (in ohms): b.) The Thevenin Voltage is, Vth (in volts): c.) The I, output voltage Vo (in volts): Assume R3 to be the load.A Wheatstone bridge is used for measuriug the valuc of change of resistance of a strain gauge wnich forms one of the arms of the bridge. All tbe arms of the bridge including the strain gauge have a resistance of 100 N each. The maximum a!lowable power dissipation from the strain gauge is 250 mW. Determine the value of maximu:n permissible current through the strain gauge and maximum allowable value of bridge supply voltage. Suppose a source of 20 V is available, lind the value of series resistance to be connected between the source and the bridge to limit the input voltage of the bridge to permissible level.please solve step by step all options a b c d e f g h i and j..thank you
- Solve for: a. Id (atleast 4 decimal place) b. Vgs c. Vd (Atleast 3 decimal value) d. Vs a. Id-Blank 1 mA b. Vgs-Blank 2V c. Vd-Blank 3V d. Vs-Blank 4 V Blank 1 Add your answer Blank 2 Add your answer Blank 3 Add your answer Blank 4 Add your answer c). 1 MQ 1.5V. 12 V 1.210 Ing Vaso oss = 12 mA V₂ =-4VConsider the circuit shown in Figure P1.68. a. Which elements are in series?b. Which elements are in parallel? c. Apply Ohm’s and Kirchhoff’s laws to solve for R x.Q1b Determine Ia, Ib and Ic using elimination technique for the circuit in Figure Q1(b).