DUDE. this was the explaination i was looking for. a lot of other profs just repeat the formula, i want to know HOW and WHY it works. Thank you so much!
This is exactly right. My professor doesn't even draw any of the shapes or explain what double integration actually does for us. Why of why is American university education this way?
Your videos have honestly saved me so many times! It's rare to find someone who not only knows their stuff, but can explain it so well. Better than any professor I've had! Thanks for all your work
By far THEE best instructor I've had in live classes or other online videos. The visuals are as effective as the teaching. Thank you so much for making these! They truly are appreciated :)
Thanks again, Dr. Bazett. Whether I'm preparing for an upcoming class, or sifting through yesterday's lecture, you always help me to understand the concepts and appreciate the **elegance** of calculus. Now for the heavy lifting...
Being someone who hated math throughout high school, studying it at uni was a huge block for me. Your channel has helped me a lot! Falling in love with calculus ❤ thank you very much
I watched all your videos on discrete math. They were key to me acing my final. Now your calculus videos are saving me as well. Thank you so much and please keep on doing this!
For the first time I had no option than to comment on a TH-cam video. You are just excellent. The visuals are so "real". Indeed, you deserve more views.
I'm in the middle of the video and I can't wait to comment, I'm so grateful for your helping me understand the crazy concept in such a beautifully simple way, thank you!
Thank you again for the great explanations. You are doing great work and it is very much appreciated. I really love the visuals and how everything gets linked with the graphics. It makes it much more clear for me. I even would like to see them linked in even more when you are doing functions and such. It makes the concept so much clearer. Thank you. Wonderful.
I watched 2 other peoples videos on the topic prior to this one and I can only describe their attempts at teaching this as "absolutely useless" in comparison. Good work my man.
I was actually looking up videos of big math channels on double integration, but they all focused more on computations. Yours is way more explanatory of how double integrals work, you deserve way more views than this.
Great video ! love the way you explain. Most of the professors in the math department cannot explain the physics let alone showing the 2D or 3D representations.......Good that we have tools like MatLab/wolfram alpha or any CAD/Finite Element code ...
Your videos are awesome. I didn't find your channel until I reached calc 2 because for some reason your videos don't show up when I search for calc courses
@@DrTrefor Thankyou so much too. All the other videos are either too formal and lengthy and show no intution. And on other extreme. Khan academy only showed intuition but didnt help me with my college course. Your videos cover everything thoroughly and are very enjoyable with great energy. ❤️❤️❤️
how similar and how different are vector functions and vector fields? this question is blowing my mind:/ in both cases the domain is a subset of real numbers and the output is a vector but why do we draw the output vector of a vector valued function from the origin (0,0,0) and the output vector of a vector field from its domain ( a particular point like (x, y, z) ) I know it might be unrelated to this video but I will be thankful if you answer my question😊💜
Would it be possible to see how the limit definition works with an example. Similar to how you did for the single variable case where we find an expression for x_i and deltax in terms of n, and then let n sum to infinty?
0:04 Did you mean the volume under a surface here or the surface area of the shape? And if we're finding the volume under the surface, isn't this similar to single variable calculus where we used to rotate the shapes over an axis and find the volume of the solid created, is the only difference that the shapes created in single variable calculus are symmetric while shapes over here are not necessarily symmetric? I just want to make sure I got the idea.
Pretend that "m" stands for the # of partitions(cuts/squares) along the x-direction, and that "n" also stands for the # of partitions but in the y-direction(in this case m=2,n=2). Also, let's say that the Domain of x is [a,b] & y is [c,d] (in this case x:[-2,2] y:[-2,2]) . You'll find that change in X= (b-a)/m & change in Y=(d-c)/n. In this case change in X =(2-(-2))/2= 2 & change in Y also equals 2.
At the very end you said that the value 80 was an approximation to the "area" under the surface, but you surely meant volume. Not to be nitpicky, it's a good video otherwise.
I had exactly the same question. Am I right then to say that if f(x, y) is a constant function 1, then the double integral will give the area of the region? Also, is this region the projection of the surface f on the xy plane?
@@VK-sp4gv In terms of the numerical value, the double integral of the constant function f(x, y) = 1 gives the area of the "base", but in terms of the units, if all distances are measured in say meters, with the height 1 meter, then it would be numerically the area but its units would be units of volume. For example, if D is the unit disk and f(x, y) = 1 (meter) then the double integral of f over D would be pi cubic meters. And certainly the projection of the surface f(x, y) = 1 onto the xy-plane is the 2-dimensional region D (the base of the solid.)
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I feel like your videos deserve more views, but a lot of your topics are so advanced and therefore don’t reach most people
DUDE. this was the explaination i was looking for. a lot of other profs just repeat the formula, i want to know HOW and WHY it works. Thank you so much!
Glad you liked it!
This is exactly right. My professor doesn't even draw any of the shapes or explain what double integration actually does for us. Why of why is American university education this way?
You deserve more views, you're helping many university students with these videos
Your videos have honestly saved me so many times! It's rare to find someone who not only knows their stuff, but can explain it so well. Better than any professor I've had! Thanks for all your work
Thank you so much!
By far THEE best instructor I've had in live classes or other online videos. The visuals are as effective as the teaching. Thank you so much for making these! They truly are appreciated :)
Wow, thank you!
Haven't seen a better explaination of double integration than this. Well done!
Thank you!
You are an awesome professor. Greetings from a humble student from UPM Aerospace engenieer school Spain
Thanks again, Dr. Bazett. Whether I'm preparing for an upcoming class, or sifting through yesterday's lecture, you always help me to understand the concepts and appreciate the **elegance** of calculus. Now for the heavy lifting...
These visual and well-prepared lectures is invaluable to every youtube-math nerd
Being someone who hated math throughout high school, studying it at uni was a huge block for me. Your channel has helped me a lot! Falling in love with calculus ❤ thank you very much
Your voice reflect that immense passion for mathematics
I watched all your videos on discrete math. They were key to me acing my final. Now your calculus videos are saving me as well. Thank you so much and please keep on doing this!
For the first time I had no option than to comment on a TH-cam video. You are just excellent. The visuals are so "real". Indeed, you deserve more views.
Taking Calculus 3 and this was extremely helpful! Thanks!
Thanks a lot. One of the best interpretation of double integrals I've encountered. You are a great teacher.
You're very welcome!
I'm in the middle of the video and I can't wait to comment, I'm so grateful for your helping me understand the crazy concept in such a beautifully simple way, thank you!
Thank you again for the great explanations. You are doing great work and it is very much appreciated. I really love the visuals and how everything gets linked with the graphics. It makes it much more clear for me. I even would like to see them linked in even more when you are doing functions and such. It makes the concept so much clearer. Thank you. Wonderful.
I watched 2 other peoples videos on the topic prior to this one and I can only describe their attempts at teaching this as "absolutely useless" in comparison. Good work my man.
Thank you, glad it helped!
Thanks a bunch!! It helped a lot in actually visualising the thing :D
:D
I was actually looking up videos of big math channels on double integration, but they all focused more on computations. Yours is way more explanatory of how double integrals work, you deserve way more views than this.
amazingly vivid explanation! love this, this is really missing from our lectures at the uni..
You are a perfect human being
Great video ! love the way you explain. Most of the professors in the math department cannot explain the physics let alone showing the 2D or 3D representations.......Good that we have tools like MatLab/wolfram alpha or any CAD/Finite Element code ...
Glad you enjoyed!
Your videos are awesome. I didn't find your channel until I reached calc 2 because for some reason your videos don't show up when I search for calc courses
Thanks bro,you gave me clarity what exactly double integration mean
You're great. I hope your channel grow up and you continue making these great videos. Good work!
Wow what a wonderful video. Thankyou so much ❤️❤️
So underated.
Your videos are the only helpful ones i found
Thank you so much!
@@DrTrefor Thankyou so much too.
All the other videos are either too formal and lengthy and show no intution.
And on other extreme. Khan academy only showed intuition but didnt help me with my college course. Your videos cover everything thoroughly and are very enjoyable with great energy. ❤️❤️❤️
Hats off to you for explaining like this.
Keep up! so great 👏
Your work is a Masterpiece 💯
Thank you!
Your videos are pieces of art❤️
Wow, thank you!
please youtube algorithm recommened this video to other students
Thank u sir...... it helped me a lot ......
very good explanation,i love it
Very cool sir.
thank you so much you are so good at explaining!!
Glad it was helpful!
This was a great video. thx!
First comment, every video you make is just perfect :)
You are amazing ❤️
you're a lifesaver!
Thank you sir 🙏🙏🙏
tnx alot sr. from SriLanka
Great video,thank u so much.
Glad you liked it!
Sir IAM following your tutorial sir it's basic and also advance and very educative sir please make a video that explains convulution
Thanks a lot ,prof
:)
:)
thank you sir
Thank you!
thank u so much for the video:)
You're welcome 😊
Would you please take separate classes for me ? Iam currently studying engineering sir
I want mathematics lectures from you sir
how similar and how different are vector functions and vector fields?
this question is blowing my mind:/
in both cases the domain is a subset of real numbers and the output is a vector but why do we draw the output vector of a vector valued function from the origin (0,0,0) and the output vector of a vector field from its domain ( a particular point like (x, y, z) )
I know it might be unrelated to this video but I will be thankful if you answer my question😊💜
Your 3D Riemann-sum plot is amazing, were you able to generate it in TikZ? I've been struggling to make a good looking diagram for the concept
thanks!!!!!!!!!!!!!!!!!!!!!!!!!!!
I’m wondering if rectangles are the best shape to use for this.
Thanks sir
Would it be possible to see how the limit definition works with an example. Similar to how you did for the single variable case where we find an expression for x_i and deltax in terms of n, and then let n sum to infinty?
0:04 Did you mean the volume under a surface here or the surface area of the shape?
And if we're finding the volume under the surface, isn't this similar to single variable calculus where we used to rotate the shapes over an axis and find the volume of the solid created, is the only difference that the shapes created in single variable calculus are symmetric while shapes over here are not necessarily symmetric? I just want to make sure I got the idea.
finished!
Hello Trefor, thank you for the explanation, just wanted to ask why is the change of x and change of y =2 and not 1??
Pretend that "m" stands for the # of partitions(cuts/squares) along the x-direction, and that "n" also stands for the # of partitions but in the y-direction(in this case m=2,n=2). Also, let's say that the Domain of x is [a,b] & y is [c,d] (in this case x:[-2,2] y:[-2,2]) . You'll find that change in X= (b-a)/m & change in Y=(d-c)/n. In this case change in X =(2-(-2))/2= 2 & change in Y also equals 2.
But sir why we took only four squares in last example??
Would that mean the "n" that is used to compute ∆x and ∆y are the same?
Doesn't it give the volume of just one rectangular object under the curve? Shouldn't we multiply it by 4?
Has anyone noticed that the little high pitches in his voice sounds much similar to Grant Sanderson's?
sir fundamental theorem of line integral, green theorem, etc r part of multivariable calculus course so y didn't u add these videos to this playlist
those are in my vector calculus playlist:)
@@DrTrefor thanks professor
brother I need an help from u
2:38
Chalk on the shirt is sexy. And inspirational video, as usual
0:03 ... the *volume under a surface?
❤
At the very end you said that the value 80 was an approximation to the "area" under the surface, but you surely meant volume. Not to be nitpicky, it's a good video otherwise.
Great catch, thank you!
I had exactly the same question. Am I right then to say that if f(x, y) is a constant function 1, then the double integral will give the area of the region? Also, is this region the projection of the surface f on the xy plane?
@@VK-sp4gv In terms of the numerical value, the double integral of the constant function f(x, y) = 1 gives the area of the "base", but in terms of the units, if all distances are measured in say meters, with the height 1 meter, then it would be numerically the area but its units would be units of volume. For example, if D is the unit disk and f(x, y) = 1 (meter) then the double integral of f over D would be pi cubic meters. And certainly the projection of the surface f(x, y) = 1 onto the xy-plane is the 2-dimensional region D (the base of the solid.)
HALLELUJA 💖💖💖
how to find f(xk,yk)
5:36 I think the sigma notation should be a double sigma to cover every point on 2d dimension.
I've seen it both with single and double summation notation. I think with single it's meant to apply more generally to a shape with an area.
Thanks, it helped me a lot. may i know what software you used to create graphics of function with rectangles in it ?
why not just say n -- > infinity
CALCULUS IS THEE GREATEST MATH EVER INVENTED OR DISCOVERED BY MANKIND.