Wonderful! 🙌🏻🙌🏻🙌🏻I upload almost every day! I can make more videos on sequences and series if that’s what you’re covering now. So happy you’re passing Calc and I’m cheering you on virtually! 🫶🏻🥳
You are so welcome! Your words are extra special to me because one of my main missions is to make learning math more manageable and fun for students everywhere.
Absolutely love this channel, one question for the AST at 10:19 I keep getting divergent as a result, do you have any idea of what I may be doing wrong? It's when i use comparison test with it! Other than that this video cleared up so much!
@@mathwithprofessorv professor, I just got my final grade back, B+. huge improvement from last semester all thanks to you. Ur the best srsly I can’t thank u enough!!!
Oh my goodness, congratulations 🎉🎉🎉🎉🎉 I’m happy to have been able to have a small part in your success, but also it was due to your hard work and intellect!!! So happy for you! ☺️☺️☺️☺️
Hey professor i love it your video because it cover in one topic through different dimention and by simple way.i found it randomly to learn power series before that i learn in professor leonard and others .am happy for i know. Am from tigray,mekelle institute of technology.
for the 1st question, when finding the interval (x=1) can we apply integral test instead of L.C.T to prove that when x =1 it is divergent hence we wont include that in the interval?
Please can u solve it If {(log n)^u}÷n converges to a constant as n tends to infinity, then the set S of possible values of u is My answer is all real number because i do by ratio test and limit tends to zero so u can be all real number Is my answer correct
For example 2 when testing -4, you simplified and had something that looked like a Aleternating series, but you extracted the 1/n^4 and did p series . But then for the examples after, you just stuck to doing the AST. Is there a reason why? For example, example 5 when testing -1/4 could u not have extracted the 1/sqrtn as well?
You missed what I said about the series converging absolutely, which is why AST was not necessary in example 2. This is not the case for the series in example 5. I have a video on absolute vs. conditional convergence if you need to review those concepts.
Please keep these videos going. I’m passing calc 2 from watching your videos ! And then practicing like problems
Wonderful! 🙌🏻🙌🏻🙌🏻I upload almost every day! I can make more videos on sequences and series if that’s what you’re covering now. So happy you’re passing Calc and I’m cheering you on virtually! 🫶🏻🥳
You're a big positive influence on everyone who finds math to be daunting. Thank you very much.
You are so welcome! Your words are extra special to me because one of my main missions is to make learning math more manageable and fun for students everywhere.
Awesome professor! Thank you! People watch this video!!
I love how U put eyes on important complicated parts☺
Haha I’m glad they help! 😉😉
Absolutely love this channel, one question for the AST at 10:19 I keep getting divergent as a result, do you have any idea of what I may be doing wrong? It's when i use comparison test with it! Other than that this video cleared up so much!
MANY THANKS 👏🏻
Happy to help! 😊
professor V idk how u do it but make Calc 2 fun and understandable, bless
Thank you so much 🙏🏻🙏🏻❤️☺️☺️☺️
@@mathwithprofessorv professor, I just got my final grade back, B+. huge improvement from last semester all thanks to you. Ur the best srsly I can’t thank u enough!!!
Oh my goodness, congratulations 🎉🎉🎉🎉🎉 I’m happy to have been able to have a small part in your success, but also it was due to your hard work and intellect!!! So happy for you! ☺️☺️☺️☺️
Hey professor i love it your video because it cover in one topic through different dimention and by simple way.i found it randomly to learn power series before that i learn in professor leonard and others .am happy for i know.
Am from tigray,mekelle institute of technology.
Thank you so much!!!! I appreciate your comment and support! ☺️
for the 1st question, when finding the interval (x=1) can we apply integral test instead of L.C.T to prove that when x =1 it is divergent hence we wont include that in the interval?
From Puerto ricooooo🇵🇷
good vid! very informative
Glad it was helpful!
good work prof!
Thank you! ☺️
Thanks!
Welcome!
Plz. Part2
👍🏻👍🏻
Please can u solve it
If {(log n)^u}÷n converges to a constant as n tends to infinity, then the set S of possible values of u is
My answer is all real number because i do by ratio test and limit tends to zero so u can be all real number
Is my answer correct
For example 2 when testing -4, you simplified and had something that looked like a Aleternating series, but you extracted the 1/n^4 and did p series . But then for the examples after, you just stuck to doing the AST. Is there a reason why? For example, example 5 when testing -1/4 could u not have extracted the 1/sqrtn as well?
You missed what I said about the series converging absolutely, which is why AST was not necessary in example 2. This is not the case for the series in example 5. I have a video on absolute vs. conditional convergence if you need to review those concepts.
@@mathwithprofessorv i see sorry thank you very much :)
No problem, that’s a confusing concept so just keep reviewing it and practice explaining it to other people-it’ll help you!