Dear Sir , Please subscribe my UA-cam channel ua-cam.com/channels/9OTe3mf--oV_BAbyQCCGbg.html?view_as=subscriber I have uploaded 99 videos on Sequences , series, Riemann Integration and Modern Algebra. Thank you sir
By this video it is very helpful for revising the topic once again sir especially that last six steps is so,easy to understand the whole problem procedure sir thank u
Thank you for watching my videos. The answer to your question is explained in the video (link provided). ua-cam.com/video/lwmALYs5XYw/v-deo.html (Concept of Integrability of a bounded function given by Riemann)
One of the best, clear cut explaination, each step is crystal clear
Thank you sir 🎉
It gives me immense pleasure when I hear that someone got benefitted by watching my video. Thank you for your compliment.
Excellent explanation sir finally i understood this topic
It gives me immense pleasure when I hear that someone got benefitted by watching my video. Thank you for your compliment.
Good use of animation skills Sir....easy to understand....step wise explanation is also helpful to recall the process Sir.
Thank You
The ending is great as you explained the whole topic in steps👍🏻🤝🤝⚡🤝thank you sir
Thank you for your compliment
Very very great explanation sir
U r just a unique personality on UA-cam
It gives me immense pleasure when I hear that someone got benefitted by watching my video. Thank you for your compliment.
Perfect explanation sir in class I didn't get many concepts
Wonderful evaluation of the problem by explaining step wise with good animation skills Sir
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Sir plz keep uploading your helpful videos
Well explained, thank you for doing it in English
Thank you sir may God bless you you're just amazing teaching style is dope 🙏
It gives me immense pleasure when I hear that someone got benefitted by watching my video. Thank you for your compliment.
Thank you sir
Thank you sir......
Good explanation sir
Thankyou sir
Good explanation sir as you explained the whole topic in steps tq sir
Thank you for your compliment
you are great sir
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Good sir
Thank You
nice one
Thank you for your compliment
Dear Sir , Please subscribe my UA-cam channel ua-cam.com/channels/9OTe3mf--oV_BAbyQCCGbg.html?view_as=subscriber
I have uploaded 99 videos on Sequences , series, Riemann Integration and Modern Algebra. Thank you sir
Thank you sir so much you help me a lot .
Welcome Sir/Madam
By this video it is very helpful for revising the topic once again sir especially that last six steps is so,easy to understand the whole problem procedure sir thank u
Thank you for your compliment
Teaching style is amazing
Thank sir 😍
Thank you for your compliment
Thank u sir 👌 teaching
Nice explanation sir
Thank You
Thank you sir for this type of explanation
Thank you for your compliment
Tq so much sir
You are welcome
Sir, your teaching is very useful...kindly upload more vedio...
It gives me immense pleasure when I hear that someone got benefitted by watching my video. Thank you for your compliment.
హ్యాట్సాఫ్ sir
Hatsaf sir
హ్యాట్సాఫ్
Thank you for your compliment
thanx😃
Thank you for your compliment
Sir,how to prove dat the problem is not riemann integrable?
Show that L(P, f) is NOT equal to U(P, f)
Sir why do we take limit of upper darboux sum to find infimum of it
Thank you for watching my videos. The answer to your question is explained in the video (link provided).
ua-cam.com/video/lwmALYs5XYw/v-deo.html
(Concept of Integrability of a bounded function given by Riemann)
@@markarok thank you so much sir 🙏
Can you share problem's on infinite series..?
Sir
Sure.
Very Very Thankyou sir 🫂
Welcome.
🙂
Bat ka nadito? HAHAHAHAH
Good explanation sir
Good sir
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Thank u sir
Thank You
Good explanation sir
Thank You
Good explanation sir
Thank You
Good explanation sir
Thank You
Thank you sir
Thank You