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1609) Refer to Figure 1609 with an ideal opamp. R1=2.9k ohms, R2=1.8k ohms, Power supply input...
280) See Fig. 280. R1=6.2k Ohms, R2=1.8k Ohms, R3=1k Ohms, and V_A=1.7 V. Find the collector current (mA) assuming the base current is negligable. Find the collector current (mA) and base current (mA) if beta= 51. The opamp power-supply voltages (not shown) are +-15 volts. 3 Answers! Ideal Op Amp R2 E Figure 280
Please explain Refer to Figure 590. R1=3 Ohms R2=1/1 Ohms and C=4 Fd. Find the transfer function V2(s)/V1(s) = A/(s^2+Bs+D). Answers: A,B,D. ans:3 Active Low-Pass Butterworth Filter R1 R1 V1 (t) V2 (t) R1 R2 Figure 590
R1= 24.8 ohms R2= 13.9 ohms R3= 25.5 ohms V1= 5 volts V2= 11.9 volts V3= 9.1 volts What is the current through the 13.9 ohm resistor? R1 V1 V2 R2 V3 R3
Exercise1 R1 R3 Vi vo R4 u2 In the figure above the opamp is ideal. Please answer the following questions: Question 1 1 pts Exercise 1 Part 1/3: Assuming R1-500Ω and R3-3kQ, what is the value of R4 so that vo-3V when v1-0V and V2-5V None of the options are correct 500Ω 2500 12k0 Question 2 1 pts Exercise 1 Part 2/3: Assuming R3=800Ω and R4:500Ω what is the value of R1 so that a de input current offset equal...
(13 points) The resistor R2 = 3.86364 ohms is absorbing the maximum power that can be extracted out of the rest of the circuit. What is the value of the resistor R1, in ohms, and what is the mentioned maximum power in R2, in watts. R3 = 5 ohms, V1 = 20 volts, V2 = 9 volts. Figure: 1 TVVVV
For the following circuit, assume that R1 = 1 ohm, R2 = 2 ohms, R3 = 8 ohms, and R4 = 4 ohms. Also assume that V1 = 50 volts and V2 = 100 volts. Find the current through each of the resistors and the power dissipated through all of the resistors. (Hint: You’ll need to use Kirchoff’s Loop and Junction Rule) Vi R2 R3 R4 NV
In Figure 7, VBE(ON)-.7v, Vee(SAT)-.lu, β-100 and the Op-Amp is ideal. Find VO V2 R2 R1 1k 100k U2 V1 Q1 Q2 Vo 16V 10k R5 OPAMP .5k 20k Figure 9
598) Refer to Figure 592. [R1,C1,S1,P1 ]- [16,13,0,1 [R2,C2,S2,P2]1 7, 8,1,0]. Determine ans:6 A,B,C, D, E,F. Figure 592 Z2 Z1 V1 (s) V2(s) R R1 I R2 or not present V2(s) DsEsF V1 (s) DsEsV2(s) V1 (s) AsBs C As +BsC A zero or one B& C- one [R1,C1,S1,P1]-[ohms, farads, series, parallel for Z1 R2,C2,S2,P2]-[ohms, farads, series, parallel] for Z2 zero means NO or NOT PRESENT or DOES NOT APPLY series or parallel- one means series or parallel combination if...
Refer to Figure 71. Assume all values are in Ohms. Given R1= 5, R2= 9, R3=14, R4=10, R5=16, R6=13, & R7= 3. Determine the equivalent Resistance (Req). Answer only. . R1 R2 +---/\/\/\-----/\/\/\---+ | | | R3 R4 | +---/\/\/\--+--/\/\/\---+ | | | | | R5 | | +--/\/\/\---+ | | | --|-- | | | | |R6 | | |___| | R7 | +--------/\/\/\---------+ | | | | +----x y------|
The circuit shown in the figure below contains three resistors (R1, R2, and R3) and three batteries (VA. Vg, and V). The resistor values are: R1=2 Ohms, Ry=R3=8 Ohms, and the battery voltages are VA=25 V, Vo=15 V, and Vc=20 V. When the circuit is connected, what will be the power dissipated by R3? Vc RA VA VB R2 R3