Hello Team ATE! Good work! Keep it going. I thing I would like to suggest it to incorporate certain real world problems as an example either during the explanation or in any other scenarios. Excellent work with animations! Loved it! #peace
If you think about it they're both right answers. expanding (x-a)^2 gives (x^2-2ax+a^2) where (a^2) will be the integration constant. Good question though!
Wonderful explanation with unparalleled graphics... ❤
Keep goin bruh😭 your vdos literally saved me
Can you please make example videos for both methods geometrical and integral?
Hello Team ATE!
Good work!
Keep it going.
I thing I would like to suggest it to incorporate certain real world problems as an example either during the explanation or in any other scenarios.
Excellent work with animations!
Loved it! #peace
Thank you and will definitely consider your suggestions 😊
amazing quality, thank you!
Amazing work Sir! Btw, are u a college student or a professor?
HellO ...love from Bangladesh....keep doing videos ...why stopped in these 3 years ....?
Can you please explain how the Correct value 0.6254 has been found?
you may use an integral calculator or wolfram alpha
how the integral of (x-a) could be (x-a)^2/2??? it is supposed to be x^2/2 -ax
If you think about it they're both right answers. expanding (x-a)^2 gives (x^2-2ax+a^2) where (a^2) will be the integration constant. Good question though!
u deserved to grow up bro
Amazing 🤚🏻
can u also post the code of this video. i would be really thankful
Greatwork
Last video 4 year ago
the music ruins it for me
This video would be perfect without the soundtrack
👍