The solid line is the input and the dotted line is the output as functions of time. amplitude (m) -0.5 -1.5 2 53.0069 55.1267 ハ " 1.5 541.4585 ハ -2 50 51 52 53 54 55 56 57 time (s) 58 59 60 By how many radians is the output lagging behind the input? In other words, what the phase lag of the output with respect to the input? Your answer must be positive. Do not use scientific notation. Round your answer to 2nd decimal place (e.g. 2.14). Note: The phase lag by definition is negative implying that the output peak occurs after the responsible input peak, and the output is written as Out(t) = Acos (wt-lag). The phase lag is preferred in the field of Vibrations. In this course, the output is written as Out(t) = Acos (wt +q), where & is the phase lead.
The solid line is the input and the dotted line is the output as functions of time. amplitude (m) -0.5 -1.5 2 53.0069 55.1267 ハ " 1.5 541.4585 ハ -2 50 51 52 53 54 55 56 57 time (s) 58 59 60 By how many radians is the output lagging behind the input? In other words, what the phase lag of the output with respect to the input? Your answer must be positive. Do not use scientific notation. Round your answer to 2nd decimal place (e.g. 2.14). Note: The phase lag by definition is negative implying that the output peak occurs after the responsible input peak, and the output is written as Out(t) = Acos (wt-lag). The phase lag is preferred in the field of Vibrations. In this course, the output is written as Out(t) = Acos (wt +q), where & is the phase lead.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
please answer and explain
![The solid line is the input and the dotted line is the output as functions of time.
amplitude (m)
-0.5
-1.5
2
53.0069
55.1267
ハ
"
1.5
541.4585
ハ
-2
50 51
52 53 54
55 56 57
time (s)
58
59
60
By how many radians is the output lagging behind the input? In other words, what the phase lag of the output with respect to the input? Your answer
must be positive. Do not use scientific notation. Round your answer to 2nd decimal place (e.g. 2.14).
Note: The phase lag by definition is negative implying that the output peak occurs after the responsible input peak, and the output is written as Out(t) = Acos (wt-lag). The phase lag is preferred in
the field of Vibrations. In this course, the output is written as Out(t) = Acos (wt +q), where & is the phase lead.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fadcd2146-40e8-4924-8383-3d1cdc877b03%2F6d825e4f-e045-48b5-a053-2bffb4ccdc64%2F1pfl6ev_processed.png&w=3840&q=75)
Transcribed Image Text:The solid line is the input and the dotted line is the output as functions of time.
amplitude (m)
-0.5
-1.5
2
53.0069
55.1267
ハ
"
1.5
541.4585
ハ
-2
50 51
52 53 54
55 56 57
time (s)
58
59
60
By how many radians is the output lagging behind the input? In other words, what the phase lag of the output with respect to the input? Your answer
must be positive. Do not use scientific notation. Round your answer to 2nd decimal place (e.g. 2.14).
Note: The phase lag by definition is negative implying that the output peak occurs after the responsible input peak, and the output is written as Out(t) = Acos (wt-lag). The phase lag is preferred in
the field of Vibrations. In this course, the output is written as Out(t) = Acos (wt +q), where & is the phase lead.
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