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2. Referring to Fig. 6, develop a formula that will give the voltage gain, V.V₁ in terms of F and the feedback resistance, R₁. Assume the voltage difference between pins 2 and 3 to be zero, and the current flowing into these pins also to be zero. V₁ +15v 7 D 741 3 + 4 -15v 6 R₁ =25k Vo Figure 6. Non-Inverting Amplifier

2. Referring to Fig. 6, develop a formula that will give the voltage gain, V.V₁ in terms of F and the feedback resistance, R₁. Assume the voltage difference between pins 2 and 3 to be zero, and the current flowing into these pins also to be zero. V₁ +15v 7 D 741 3 + 4 -15v 6 R₁ =25k Vo Figure 6. Non-Inverting Amplifier

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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2. Referring to Fig. 6, develop a formula that will give the voltage gain, VV₁ in terms of F and the feedback resistance, R₁. Assume the voltage difference between pins 2 and 3 to be zero, and the current flowing into these pins also to be zero. V₁ 2 3 + 741 +15v 7 4 -15v 6 R₁=25k Vo R₁ Figure 6. Non-Inverting Amplifier
Transcribed Image Text:2. Referring to Fig. 6, develop a formula that will give the voltage gain, VV₁ in terms of F and the feedback resistance, R₁. Assume the voltage difference between pins 2 and 3 to be zero, and the current flowing into these pins also to be zero. V₁ 2 3 + 741 +15v 7 4 -15v 6 R₁=25k Vo R₁ Figure 6. Non-Inverting Amplifier
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