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I don't care that there are universities. I'm glad that there are people like you who are giving away free scientific content.
Thank you for your kind words.🙏☺️
I am from IIT bombay this proofs it
correct
Actually this is a great overlay of what parametrisation is , after watching this the theory is easy to read 🙂
Glad to hear that Ratnesh :)
very interesting to see both of your's interests in mathematics ,we are the students of civil from coep studying from professor aman zhinga mam🙏🙏
Thanks dude 😊All the best. Enjoy the videos :)
Me too..
Beautifully explained!
Thank you 😊
Brilliant Ma Sha Allah , thank you very much Sir
Welcome:)
First of all, THANK YOU. This was really helpful. On the point.Keep it up!!!
Thank you.. happy to hear that😀👍
Great video
Hello sir..Ur wife is my Panjab university Chandigarh mate.i incidentally find Ur videos.. these r nice.can I have differential geometry lectures
Glad to hear that bhavna. Sure, next semester I am planning for linear algebra for my students but in between I will start for differential geometry. Thank you for the suggestion.
Very nice explanation sir thank you very much
Thank you.. pleasure 😊
U forced me to visit your playlist by this vedio
very glad and happy to hear that :)
I'm a student of Kurseong college (Darjeeling) Department of mathematics.. Under North Bengal University
Oh okay.I hope lectures are helping you 😊
@@DrMathaholic right sir.... Lots of love from West Bengal 💝
@@mobinsk229 thank you 😊
Sir at 10:44 what is the range of t. i mean when we take line Integral we have to use limits for integration so what limit we will put
When u take t=0, you get the starting point (1,1) and when you take t=1 , you get the end point (3,4). So t goes from 0 to 1.
@@DrMathaholic is it for every point in case of line parametrization sir ?
@@tikmark4234 as the parameterization changes, limits of t also changes. One can have more than one parameterization for a given curve
ese coming lesgo
😀😀 all the best
I don't care that there are universities. I'm glad that there are people like you who are giving away free scientific content.
Thank you for your kind words.
🙏☺️
I am from IIT bombay this proofs it
correct
Actually this is a great overlay of what parametrisation is , after watching this the theory is easy to read 🙂
Glad to hear that Ratnesh :)
very interesting to see both of your's interests in mathematics ,we are the students of civil from coep studying from professor aman zhinga mam🙏🙏
Thanks dude 😊
All the best. Enjoy the videos :)
Me too..
Beautifully explained!
Thank you 😊
Brilliant Ma Sha Allah , thank you very much Sir
Welcome:)
First of all, THANK YOU. This was really helpful. On the point.
Keep it up!!!
Thank you.. happy to hear that😀👍
Great video
Thank you 😊
Hello sir..Ur wife is my Panjab university Chandigarh mate.i incidentally find Ur videos.. these r nice.can I have differential geometry lectures
Glad to hear that bhavna.
Sure, next semester I am planning for linear algebra for my students but in between I will start for differential geometry. Thank you for the suggestion.
Very nice explanation sir thank you very much
Thank you.. pleasure 😊
U forced me to visit your playlist by this vedio
very glad and happy to hear that :)
I'm a student of Kurseong college (Darjeeling) Department of mathematics.. Under North Bengal University
Oh okay
.I hope lectures are helping you 😊
@@DrMathaholic right sir.... Lots of love from West Bengal 💝
@@mobinsk229 thank you 😊
Sir at 10:44 what is the range of t. i mean when we take line Integral we have to use limits for integration so what limit we will put
When u take t=0, you get the starting point (1,1) and when you take t=1 , you get the end point (3,4). So t goes from 0 to 1.
@@DrMathaholic is it for every point in case of line parametrization sir ?
@@tikmark4234 as the parameterization changes, limits of t also changes. One can have more than one parameterization for a given curve
ese coming lesgo
😀😀 all the best