if you go to a decent university you study all the maths and logics that gives you the physical and mathematical MEANING of this plot. this is just a practical procedure
Prof Wage, I just want you to know that with your clear, simple explanation, you taught me in 20 minutes what my PHD professor and his PHD student assistant could not in several hours of convoluted explanation. I'm sure I'm just one of thousands of students whom you have helped with this lecture. You are the living embodiment of the difference between a teacher and an expert. Thank you.
Hello, I am a student at the University of Evansville in Indiana. Thank you so much for the video. This is the only video I have found out there that explains this concept in a very easy to understand way. You are a great teacher. Thank you.
THANK YOU SO MUCH!! oh my god, my lecturer spent 5 hours talking about the same thing yet I couldnt understand, while i understood everything after watching this clip.
I need a video like this but for the phase. Both solving for initial phase and for the phase response for all frequencies. This one was great though, glad that there are professors who share such valuable knowledge online.
Mam, I thank you from the bottom of my heart, this video has so beautifully explained to me how to easily do bode plots by hand. I have an exam tomorrow and this was the perfect revision video to go through!
Wow this is exactly what I am looking for. My professor didn't teach us anything besides basic cases for Bode plots for 3 LECTURES!!! And aside from that expected us to derive transfer functions from those without any examples. It is professors like you that really save engineering students' lives. Keep up the good work :) P.S.: Sorry if you have Lipo
Thank you for sharing this. I am a student from CSU Long Beach and really needed this for review. Please consider networking with professors at other schools to share lecture videos as backup for when students struggle. I would have loved to have my prof tell me this is a good review rather than have to search through so many videos myself.
Thank you a lot. I am in my 2nd bachelor's and now studying for "analoque systems" and our professor cannot explain this easily. You did a great job letting me understand this.
too bad indeed, but she did say that this was only going to demonstrate how to generate the bode magnitude plot. i'm sure there are more videos that show how to do the phase plots as well.
Great explanation I have a engineering professor that has 9 patents and his first job was at NASA and he can not explain this to save our life. However there is no such thing as 0 DB
thanks a lot your awesome really i had my brain overheat trying to study it by myself. I really appreciate it hope for more electrical engineering subjects and thanks again :D
i might be ocd about this but i cant stop staring at the red line and purple line not touching -40(red) and -80(purple) they should be touching cause thats what 20dB per decade means:) Great video btw pretty good if you're trying to remember what you once knew.
I am a ordiniarus of root locus and bode etc. There are many much truth about it and some times shits happen. I didn't send any prophet about Feed-back control cause I am the GOD of FEED_BACK_CONTROL
at 7:31 how to draw 20 dB/dec slope for 's' passing through 1 on 0 dB. I mean at what angle should it be drawn. from which dB point. you started it from somewhere between -20 and -40. how to know that point from where it should be started
consider the three lines intersecting the y axis at 0 dB, -40 dB and -40dB. If you want the intersection point of the combined lines, then 0+(-40)+(-40) = -80. Now, this combined line (representing the bode magnitude plot) has only one slope +20dB/dec, due to the zero (s term) of the system. So it slopes up to 1000 (which is the corner/breakaway frequency of the first order system). The corner frequency is where the Bode plot's slope changes suddenly changes, it's inversely proportional to the time constant of the system [a bit of extra info] .
There is one point that I don't get. In the first example when you are going to add the redline with the blue line that starts from -40 dB you are starting from -80 dB , why?
9 years later and this is still a FABULOUS explanation of the topic. thanks a ton for the clear, concise, well organized explanations :)
in 20 min you explained what my professor could not do in 2 lectures, Thanks!!
literally!
Our professor explained this in few minutes expecting us already understood. Thank you so much !!!!!
That's why I don't go to lectures
Cos' you were using your phone instead of paying attention
fak yu, harry esmode the best
so im supposed to be at a top university and im literally learning everything off youtube.
Thanks a lot for this
Well, that's a professor's explanation
Same here, I'm paying University of Colorado and Learning from UA-cam and communicating over Zoom, seems like a ripoff to me..
loool I'm in exactly the same boat as you bro. Top uni but learning everything off yt
if you go to a decent university you study all the maths and logics that gives you the physical and mathematical MEANING of this plot. this is just a practical procedure
Prof Wage, I just want you to know that with your clear, simple explanation, you taught me in 20 minutes what my PHD professor and his PHD student assistant could not in several hours of convoluted explanation. I'm sure I'm just one of thousands of students whom you have helped with this lecture. You are the living embodiment of the difference between a teacher and an expert. Thank you.
Introducing the four common terms as background before drawing lines was really helpful thank you
So far this is the best explanation of bode plots on UA-cam
Hello, I am a student at the University of Evansville in Indiana. Thank you so much for the video. This is the only video I have found out there that explains this concept in a very easy to understand way. You are a great teacher. Thank you.
THANK YOU SO MUCH!! oh my god, my lecturer spent 5 hours talking about the same thing yet I couldnt understand, while i understood everything after watching this clip.
You literally saved my grade. Not even the class supplemental videos helped as much as this!!!!
you are the best one who explained it in allover you tube videos and google articles , thank you from Egypt
Straight to the point. Perfectly and very simply explained. Thank you so much for your help!!!!
I need a video like this but for the phase. Both solving for initial phase and for the phase response for all frequencies. This one was great though, glad that there are professors who share such valuable knowledge online.
Mam, I thank you from the bottom of my heart, this video has so beautifully explained to me how to easily do bode plots by hand. I have an exam tomorrow and this was the perfect revision video to go through!
THANK YOU!! my professor cant even explain this in two hours
Dammnnnn!!!!! I am trying to understand from two weeks. Your 16 minute video was enough for me.....
my lord - very good - very clear - very short lecture explaining every thing - thank u my lord =amarjit = india
Wow this is exactly what I am looking for. My professor didn't teach us anything besides basic cases for Bode plots for 3 LECTURES!!! And aside from that expected us to derive transfer functions from those without any examples. It is professors like you that really save engineering students' lives. Keep up the good work :)
P.S.: Sorry if you have Lipo
Thank you for sharing this. I am a student from CSU Long Beach and really needed this for review. Please consider networking with professors at other schools to share lecture videos as backup for when students struggle. I would have loved to have my prof tell me this is a good review rather than have to search through so many videos myself.
Perfect, thank you ma'am. Now I will look for someone who can explain the phase plot as clearly as you have done here. Cheers!
I thought thats a sir the entire time until i read this what is wrong with me
Thanks ! So easy ! I looked for a lot of videos, and they were all awful. This is a real explanation.
Thank you a lot. I am in my 2nd bachelor's and now studying for "analoque systems" and our professor cannot explain this easily. You did a great job letting me understand this.
This was so well done, so much better than my college prof. About to go ace this quiz that I formerly wasn't prepared for!
I struggled quite badly with this topic, but this video made everything clear for me. Thnx!
thank you so much, so much better than my prof, life saver, saved my as*. Big shoutout, thank you!!!!
Looks like I might not fail my test tomorrow after all. You’re a blessing)
Best explanation i have seen. Thank you for sharing!
Great video, always good to watch it again to refresh my mind!
Best explanation I ever see ! Thank you very much
Thank you. Your tutorials are very easy to understand.
This explanation is so clear. Thanks a million
thanks a bunch mam !! you r easily one of the best
It is a great explanation of the magnitude part, but we needed the phase one too.
Thanks a lot. You are my best professor.
Very good recording. Too bad it does not show the drawing of the phase diagram. :(
too bad indeed, but she did say that this was only going to demonstrate how to generate the bode magnitude plot. i'm sure there are more videos that show how to do the phase plots as well.
most of the time she is doing OPPS!!!
THANK YOU !! Female ECE professor !! very rare. YAAAY!!!
Great explanation I have a engineering professor that has 9 patents and his first job was at NASA and he can not explain this to save our life. However there is no such thing as 0 DB
You are appreciated Professor!! Thank you so much
thank you for saving my final exam
Great Job Professor Wage! It would be great if you could do the same thing for the phase plot.
thanks a lot your awesome really i had my brain overheat trying to study it by myself. I really appreciate it hope for more electrical engineering subjects and thanks again :D
Thank you ordinarius professor, god bless you!
Thank you very much, tomorrow is my mid exam, hopefully it goes well!
Thanks!!! You've saved my life so quickly!
Subscribed within 5 minutes. Thank you.
Extremely helpful and easy to follow! thank you so much!
Thank you so much for explaining Bode plots!
That was explained what took my professor to do in 4 lectures
Great job, very nicely done!!
This is a very good video, but where is the part about Phase plots? This is only ½ of the subject!
thanks alot prof. saved my life
nice video, clearier than my lecture slides XD
so Bode Spotted here :) Thank u, good explanation
Very clear explanation, thank you!!
Wonderfull🎉
Thanks for your good explanation it's very helpful
Thank you very much, very helpful for my exams
Thanks so much for nice and easy explanation.
This is the best, thank you SO much!
You sound like Blue the bird from the animated movie "Rio".
Nice video btw.👍
excelent video. very gold explained. thank you very much
Very clear explanation. Thank you.
i might be ocd about this but i cant stop staring at the red line and purple line not touching -40(red) and -80(purple) they should be touching cause thats what 20dB per decade means:) Great video btw pretty good if you're trying to remember what you once knew.
You deserve a wow!
Very clear and helpful, thanks a lot
Thank you so much. I finally understand this stuff now.
Thank you. This made so much sense.
thank so much! this lecture is very useful.
thank you so much mrs Wage
Very good! Thank you teacher!
Amazing explanation, thanks so much
thank you. It really helps me.
You're so good!!!
I don't get why you sum the three different functions to get the overall response, since in the expression of H(s) they are multiplied and not summed
When you take 20log on both sides, the terms on the RHS will be subtracted and added respectively.
I am a ordiniarus of root locus and bode etc. There are many much truth about it and some times shits happen.
I didn't send any prophet about Feed-back control cause I am the GOD of FEED_BACK_CONTROL
Thanks for the informative video!
at 7:31 how to draw 20 dB/dec slope for 's' passing through 1 on 0 dB. I mean at what angle should it be drawn. from which dB point. you started it from somewhere between -20 and -40. how to know that point from where it should be started
satisfying explanation
all appreciation
Amazing video! Thank you so much :)
Thank you a lot!! Great explanation.
You save my life.
why final slope starts from -80????
consider the three lines intersecting the y axis at 0 dB, -40 dB and -40dB. If you want the intersection point of the combined lines, then 0+(-40)+(-40) = -80. Now, this combined line (representing the bode magnitude plot) has only one slope +20dB/dec, due to the zero (s term) of the system. So it slopes up to 1000 (which is the corner/breakaway frequency of the first order system). The corner frequency is where the Bode plot's slope changes suddenly changes, it's inversely proportional to the time constant of the system [a bit of extra info]
.
add the red line and the blue line
thanks you very much. really helpful for my understanding
You are amazing, please explain phase too.
You are the best!!!!!!!!!
There is one point that I don't get. In the first example when you are going to add the redline with the blue line that starts from -40 dB you are starting from -80 dB , why?
thank you, all the best.
great video. thank you
you saved my life
Thank you professor
Best explanation
Perfect video.. Thank you for video ..
thanks proff, I understand now
Awesome, thank you so much!
excellent video
Best one out there
great video! thank you
since the second plot crosses the w line at 1, and has a slope of 20 dB/decade, shouldn't it start at -20 dB?!
i'm talking about the first example here
thank you!! this helps me alot.
thanks you helped out so much
Question : is 1+(s/1000) = -20log|1+(jw/b) because it's in the denominator of the transfer function ?