The phase angle between the input waveform and the capacitor can then be measured using the following equation, sin(ω t) = sin(2π f t) and θ = 2π f t the difference in the phase angle is, ∆(θ) = 2πf∆t, in radians Resistor = 1 kΩ Capacitor = 100nF Peak voltage (AC Voltage) = 2V Frequency = 1KHz Where ∆θ is the phase difference, ∆t is the time difference and can be found as shown in the image below. What is the Value of the phase shift, ∆(θ) =?
The phase angle between the input waveform and the capacitor can then be measured using the following equation, sin(ω t) = sin(2π f t) and θ = 2π f t the difference in the phase angle is, ∆(θ) = 2πf∆t, in radians Resistor = 1 kΩ Capacitor = 100nF Peak voltage (AC Voltage) = 2V Frequency = 1KHz Where ∆θ is the phase difference, ∆t is the time difference and can be found as shown in the image below. What is the Value of the phase shift, ∆(θ) =?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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The phase angle between the input waveform and the capacitor can then be measured using the
following equation,
sin(ω t) = sin(2π f t) and θ = 2π f t
the difference in the phase angle is,
∆(θ) = 2πf∆t, in radians
Resistor = 1 kΩ
Capacitor = 100nF
Peak voltage (AC Voltage) = 2V
Frequency = 1KHz
Where ∆θ is the phase difference, ∆t is the time difference and can be found as shown in the image below.
What is the Value of the phase shift, ∆(θ) =?
Transcribed Image Text:At
Input wavefront
→t
-5
Voltage across the capacitor
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