Thank you 🙌. But then, I've seen some of these formulas differently, like, for the constant term there's no division by two and an= 2/π instead of 1/π, same thing for bn
Yeah, some persons can omit dividing by 2 for the constant term, but Note, the integral will then have 1/2π instead of 1/π. I have not seen 2/π, I think you're talking of 1/2π. Thanks.
Please Sir,you keep using π and its value in all the solvings. What if it is replaced by any other variable like t,L...,do we assume the variable is having thesame magnitude as π and use its value for our operation?
It is not an Assumption. We can have different values for m and n, and most of the integration of such product will produce Zero. But since the values for m and n are varying, it's possible that at some point, they are going to be equal (m=n). Specify the time in the video you need clarity with. Thanks Chief.
I fine this general formula confusing. Regarding the coefficient . I have seen cases where the a0 is not been divided by 2. So why is the formula different and not unique
Well, I can quite agree with you, but the discrepancies is just a constant. In the larger picture, it all comes together because, if a0 is divided by 2, then in the formula for a0 alone, it won't be divided by 2. But when a0 is not divided by 2, it means the individual formula for a0 is to be divided by 2. Just pick a pattern to follow. If you follow my Playlist, I followed one pattern. The Fourier Series Formula that I use has a0 divided by 2, hence when I'm calculating a0 individually, I won't divide by 2. Other persons can choose to use the Fourier series formula where a0 is NOT divided by 2. But if you check them when they are calculating for the individual value of a0, they will divide by 2. It all connects, no matter the pattern you follow. Just Choose One. Thanks Brother.
Check my playlists, I have everything well arranged for you. Fourier Series & Periodic Function | Problems And Exam Solutions: th-cam.com/play/PLyIQ6tJ1a5bajJUe52S3qzli2PwZgcjw8.html
No, These Derivations won't be asked. Depends on the EXAM setting. In a theory EXAM, you CAN be asked to prove it. If the Exam is German or MCQs/OBJ, you won't be proving the formula.
To Deduce The limits, Note: The limits of integration are over the Period of the function. If you can get the period, which is one CYCLE of the function, you can get the limits. Watch This Video for Period: th-cam.com/video/-omIierAOFk/w-d-xo.html
This is very easy to understand thanks to you Sir. I appreciate.
Wow. This guy teaches like butter. Smooth smooth.
Thanks 😊
Just saved a life 🤗🤗🤗
I'm greatful🎉🎉🎉
You're welcome
Thank you thank you, this video made me understand Fourier series
You are Welcome. I'm glad that I could help.
But what was Joseph thinking to discover this kind of a thing 😪
Keep doing the Lord's work brother 👏🏾
I just came across your page and it really serves me thanks
I'm glad that I could help you.
Don't Ever stop making these videos
Okay, I've stopped uploading videos on this channel due to monetisation issues.
Here's my new channel: youtube.com/@AvitechMaths?si=ErljSHA3hynJatRZ
Thank you ☺️🙏
GOD BLESS YOU!
@@zoraanetor-ebhabha Amen
Thanks you sir 🙏 I am from odisha Jay jagannath 🙏🤗
It's the walk-in for me🤭. Thanks for the video👌🏽
You are welcome 😊
You are welcome 😊
Perfect salute sir
You're welcome Sir
👍
i watched every video
Thank you very much.
Examples Will be released today.
More Questions, especially from Uniben will be treated by weekend.
Stay Safe
Thank you sir❤, I would have failed dis course
You won't fail!
You are welcome
please i can''t seem to find the video you are referring to; the first video of fourier series
Here's it;
Fourier Series & Periodic Function: th-cam.com/play/PLyIQ6tJ1a5bajJUe52S3qzli2PwZgcjw8.html
All Videos are arranged accordingly.
Thanks.
Hi, please can you help with a personal tutor on this?
Nice one bro
Can you recommend a textbook?
Advanced Engineering Mathematics by KA STROUD
Sir u try to reduce the highlighted words because they are a bit instructing(reduce them in size)
I'm sure you're talking about captions.
I have no control over it.
You can turn it off, by tapping the CC button at the top of the screen.
Thank you 🙌.
But then, I've seen some of these formulas differently, like, for the constant term there's no division by two and an= 2/π instead of 1/π, same thing for bn
Yeah, some persons can omit dividing by 2 for the constant term, but Note, the integral will then have 1/2π instead of 1/π.
I have not seen 2/π, I think you're talking of 1/2π.
Thanks.
th-cam.com/video/4bFNAthJOLA/w-d-xo.html
Here's a video, explaining this further.
Please Sir,you keep using π and its value in all the solvings. What if it is replaced by any other variable like t,L...,do we assume the variable is having thesame magnitude as π and use its value for our operation?
Watch my other videos.
Check my playlists.
The Fourier series with arbitrary periods.
Just did Sir and they were rad!👌
Why did your voice change 😊 ? . Your videos has been very helpful.Thank you 😊
You're welcome.
I have no idea as to what happened to my voice, I can say it's not constant.
How do such cases come about? I also find it hard deducing the limits. Please help
The limits are the range of values of X for which f(x) exists.
Just for a little clarity, is there a reason we assumed m=n ?
It is not an Assumption.
We can have different values for m and n, and most of the integration of such product will produce Zero.
But since the values for m and n are varying, it's possible that at some point, they are going to be equal (m=n).
Specify the time in the video you need clarity with.
Thanks Chief.
🌟🌟🌟🌟🌟
I fine this general formula confusing. Regarding the coefficient . I have seen cases where the a0 is not been divided by 2. So why is the formula different and not unique
Well, I can quite agree with you, but the discrepancies is just a constant. In the larger picture, it all comes together because, if a0 is divided by 2, then in the formula for a0 alone, it won't be divided by 2.
But when a0 is not divided by 2, it means the individual formula for a0 is to be divided by 2. Just pick a pattern to follow. If you follow my Playlist, I followed one pattern.
The Fourier Series Formula that I use has a0 divided by 2, hence when I'm calculating a0 individually, I won't divide by 2.
Other persons can choose to use the Fourier series formula where a0 is NOT divided by 2. But if you check them when they are calculating for the individual value of a0, they will divide by 2.
It all connects, no matter the pattern you follow.
Just Choose One.
Thanks Brother.
Am so happy first for prompness in reply and the fact that I now understand the the whole formula issue. All thanks to you.
You're welcome Sir.
Why didn't I know you earlier?
😂❤️
Thanks for this video sir, but can you solve a little examples.
Check my playlists, I have everything well arranged for you.
Fourier Series & Periodic Function | Problems And Exam Solutions: th-cam.com/play/PLyIQ6tJ1a5bajJUe52S3qzli2PwZgcjw8.html
Why a_o/2 and not a_o only
You can use any formula you choose to. However, watch this video for more details; th-cam.com/video/BSEN9GhdDRE/w-d-xo.html
You can use any formula you choose to. However, watch this video for more details; th-cam.com/video/BSEN9GhdDRE/w-d-xo.html
But are we actually required to know this derivations being that the exam is German
No, These Derivations won't be asked.
Depends on the EXAM setting. In a theory EXAM, you CAN be asked to prove it.
If the Exam is German or MCQs/OBJ, you won't be proving the formula.
Glory be to God
Amen
How do such cases come about? I also find it hard deducing the limits. Please help
To Deduce The limits, Note: The limits of integration are over the Period of the function. If you can get the period, which is one CYCLE of the function, you can get the limits.
Watch This Video for Period:
th-cam.com/video/-omIierAOFk/w-d-xo.html