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1.5 Determine the gain, phase difference, and transfer Yunction for each of the following input/output conditions. The components are linear. (a) Frequency: Input amplitude: Output amplitude: Frequen 0.004 Hz 10°C phase: 15° phase: -30° 0.447 mV (h)

1.5 Determine the gain, phase difference, and transfer Yunction for each of the following input/output conditions. The components are linear. (a) Frequency: Input amplitude: Output amplitude: Frequen 0.004 Hz 10°C phase: 15° phase: -30° 0.447 mV (h)

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Need Help on #1.5 part (a)

1.5 Determine the gain, phase difference, and transfer Yunction for each of the following input/output conditions. The components are linear. (a) Frequency: Input amplitude: Output amplitude: (b) Frequency: Input amplitude: Output amplitude: (c Frequency: Input amplitude: Output amplitude: (rpm means revolutions per minute) 0.004 Hz 10°C phase: 15° phase: -30° 0.447 mV 36 KHz 0.4 V phase: 20° phase: 19° 11.6 V 0.5 Hz 4.4 V phase: 32° phase: 0° 600 грm
Transcribed Image Text:1.5 Determine the gain, phase difference, and transfer Yunction for each of the following input/output conditions. The components are linear. (a) Frequency: Input amplitude: Output amplitude: (b) Frequency: Input amplitude: Output amplitude: (c Frequency: Input amplitude: Output amplitude: (rpm means revolutions per minute) 0.004 Hz 10°C phase: 15° phase: -30° 0.447 mV 36 KHz 0.4 V phase: 20° phase: 19° 11.6 V 0.5 Hz 4.4 V phase: 32° phase: 0° 600 грm
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