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4. If the emitter bypass capacitor in Figure (a) the voltage gain will increase (b) the voltage gain will remain the same (c) the transistor will saturate (d) none of the above 5. If the load resistor R, in the circuit in Figure 13-1 is made larger, the amplifier voltage gain will (a) increase (c) remain essentially the same (b) decrease

4. If the emitter bypass capacitor in Figure (a) the voltage gain will increase (b) the voltage gain will remain the same (c) the transistor will saturate (d) none of the above 5. If the load resistor R, in the circuit in Figure 13-1 is made larger, the amplifier voltage gain will (a) increase (c) remain essentially the same (b) decrease

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
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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this multiple choice questions from ELECTRONICS LAB &&  the name of experiment The Common Emitter Amplifier

4. If the emitter bypass capacitor in Figure 13-1 is shorted, (a) the voltage gain will increase (b) the voltage gain will remain the same (c) the transistor will saturate (d) none of the above 5. If the load resistor R, in the circuit in Figure 13-1 is made larger, the amplifier voltage gain will (a) increase (c) remain essentially the same (b) decrease
Transcribed Image Text:4. If the emitter bypass capacitor in Figure 13-1 is shorted, (a) the voltage gain will increase (b) the voltage gain will remain the same (c) the transistor will saturate (d) none of the above 5. If the load resistor R, in the circuit in Figure 13-1 is made larger, the amplifier voltage gain will (a) increase (c) remain essentially the same (b) decrease
+ 15 v R, 10 k? 3.9 kf2 O l'out 2.2 µF 2.2 µF 2N3904 RL 'in 3.9 kl) R2 REI 0.2 V p-p, 5 kHz 4.7 kf2 150 (2 RE2 2.7 k!? CH 1 Oscilloscope 100 uF CH 2
Transcribed Image Text:+ 15 v R, 10 k? 3.9 kf2 O l'out 2.2 µF 2.2 µF 2N3904 RL 'in 3.9 kl) R2 REI 0.2 V p-p, 5 kHz 4.7 kf2 150 (2 RE2 2.7 k!? CH 1 Oscilloscope 100 uF CH 2
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