The differential amplifier, shown in the figure, has a differential gain of Ad = 100 and common mode gain of Ac = 0.1. If V1 = 5.01 V and V2 = 5.00V, then V0, in volt (up to one decimal place) is ___________.Correct answer is between '1.4,1.6'. Can you explain this answer?

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The differential amplifier, shown in the figure, has a differential gain of A_d = 100 and common mode gain of A_c = 0.1. If V₁ = 5.01 V and V₂ = 5.00V, then V₀, in volt (up to one decimal place) is ___________.

Correct answer is between '1.4,1.6'. Can you explain this answer?

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The differential amplifier, shown in the figure, has a differential ga...

Given
A_c = 0.1; V₁ = 5.01V; V₂ = 5.00V; A_d = 100
V₀ = A_d V_d + A_c V_c

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The differential amplifier, shown in the figure, has a differential gain of Ad = 100 and common mode gain of Ac = 0.1. If V1 = 5.01 V and V2 = 5.00V, then V0, in volt (up to one decimal place) is ___________.Correct answer is between '1.4,1.6'. Can you explain this answer?

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The differential amplifier, shown in the figure, has a differential gain of Ad = 100 and common mode gain of Ac = 0.1. If V1 = 5.01 V and V2 = 5.00V, then V0, in volt (up to one decimal place) is ___________.Correct answer is between '1.4,1.6'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about The differential amplifier, shown in the figure, has a differential gain of Ad = 100 and common mode gain of Ac = 0.1. If V1 = 5.01 V and V2 = 5.00V, then V0, in volt (up to one decimal place) is ___________.Correct answer is between '1.4,1.6'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The differential amplifier, shown in the figure, has a differential gain of Ad = 100 and common mode gain of Ac = 0.1. If V1 = 5.01 V and V2 = 5.00V, then V0, in volt (up to one decimal place) is ___________.Correct answer is between '1.4,1.6'. Can you explain this answer?.

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