1 Xc = waC V = IX XR = R X = waL First consider an AC voltage source with a driving frequency wa and a purely resistive load. 1) Resistive Load I Suppose the driving frequency wa increases. What happens to the voltage amplitude VR? Choose one of the following. Increases Decreases Stays the Same 2) Resistive Load II Suppose the driving frequency wa increases. What happens to the current amplitude IR? Choose one of the following.
1 Xc = waC V = IX XR = R X = waL First consider an AC voltage source with a driving frequency wa and a purely resistive load. 1) Resistive Load I Suppose the driving frequency wa increases. What happens to the voltage amplitude VR? Choose one of the following. Increases Decreases Stays the Same 2) Resistive Load II Suppose the driving frequency wa increases. What happens to the current amplitude IR? Choose one of the following.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Now consider an AC voltage source with a driving frequency Wd and a purely capacitive load.
3) Capacitive Load I
Suppose the driving frequency Wa increases. What happens to the voltage amplitude Vc?
Choose one of the following.
Increases
Decreases
Stays the Same
4) Capacitive Load II
Suppose the driving frequency wa increases. What happens to the current amplitude Ic?
Choose one of the following.
Increases
Decreases
Stays the Same
Transcribed Image Text:1
V = IX
XR = R
XL = waL
waC
First consider an AC voltage source with a driving frequency wa and a purely resistive load.
R
1) Resistive Load I
Suppose the driving frequency wa increases. What happens to the voltage amplitude VR?
Choose one of the following.
Increases
Decreases
Stays the Same
2) Resistive Load II
Suppose the driving frequency wa increases. What happens to the current amplitude IR?
Choose one of the following.
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