Consider the network above with V, = 3V, V, = 2V, and R = 1.5k2. Treat the op-amp as real, with B = 1.8 × 10°, R̟ = 3MQ, and R, = 402. a. What is the voltage v, across the input terminals? Vx b. What is the current i, through the input terminals? iz = II

Consider the network above with V, = 3V, V, = 2V, and R = 1.5k2. Treat the op-amp as real, with B = 1.8 × 10°, R̟ = 3MQ, and R, = 402. a. What is the voltage v, across the input terminals? Vx b. What is the current i, through the input terminals? iz = II

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter18: Resistive-inductive Parallel Circuits

Section: Chapter Questions

Problem 13PP: In an R-L parallel circuit, IT=1.25 amps, R=1.2k, and XL=1k. Find IR

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R
3R
Vị
Vout
V2
2R
Consider the network above with V, = 3V, V, = 2V, and R = 1.5KSQ.
Treat the op-amp as real, with B =1.8 × 10°, R, = 3M2, and R, = 402.
a. What is the voltage v, across the input terminals?
Vx
b. What is the current i, through the input terminals?
c. What is the "ideal" output voltage (treating the op-amp as ideal)?
Videal
d. What is the difference between the ideal and real output voltage?
V.
V:
real
ideal

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