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This is what I call concept clearing Video..... Kudos!!
Thank you! Please help me share the video with others 😁👍
Beautiful explanation. Showing the graph with the rays was extremely useful.
Thank you! Yes, the graph is super helpful when it comes to setting up double and triple integrals!
Your voice is cool and I understand it all. Now I head to my exams as a full fledged warrior.
Good luck on your exam!
Very good video my friend. It was very well explained, thanks for that
Thank you! Please help me share the video 😁👍
you saved my life
Glad my video helps!! Please help others by sharing the video with others 😁
this is so helpful, ive got a few hours before the final starts and its now 4AM. thank u so muchhh
Good luck in your exam!
Hello sir, excellent video. I’m having trouble understanding how to get the theta bounds. I know you get it from the r bounds but how do you know what quadrant it’s in? Thank you!
The bounds for theta are based on the region drawn. And the region drawn is based on the original integrals combined together
Very sophisticated drawing .. really helps!
Thank you for the comment 😁👍 happy to hear my video helps!!
that was so helpful omg thank you so much
Thank you! I am happy to hear that!! Please help me share the video with others 😁👍
thank you it was help full
Good to know it's helpful to you! Please help me share it with others 😁👍
Sorry but with the point you chosed isnt it supposed to be π/4?
Since the region covers the first quadrant, it will be pi/2
Now I understand! 🙃
That's good
That was cool🤤
Sorry but you didn't finish the final equation... what limits do you set for the #2 function then?
It is already finished. There is only one double integral set up combining the two given integrals.
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This is what I call concept clearing Video..... Kudos!!
Thank you! Please help me share the video with others 😁👍
Beautiful explanation. Showing the graph with the rays was extremely useful.
Thank you! Yes, the graph is super helpful when it comes to setting up double and triple integrals!
Your voice is cool and I understand it all. Now I head to my exams as a full fledged warrior.
Good luck on your exam!
Very good video my friend. It was very well explained, thanks for that
Thank you! Please help me share the video 😁👍
you saved my life
Glad my video helps!! Please help others by sharing the video with others 😁
this is so helpful, ive got a few hours before the final starts and its now 4AM. thank u so muchhh
Good luck in your exam!
Hello sir, excellent video. I’m having trouble understanding how to get the theta bounds. I know you get it from the r bounds but how do you know what quadrant it’s in? Thank you!
The bounds for theta are based on the region drawn. And the region drawn is based on the original integrals combined together
Very sophisticated drawing .. really helps!
Thank you for the comment 😁👍 happy to hear my video helps!!
that was so helpful omg thank you so much
Thank you! I am happy to hear that!! Please help me share the video with others 😁👍
thank you it was help full
Good to know it's helpful to you! Please help me share it with others 😁👍
Sorry but with the point you chosed isnt it supposed to be π/4?
Since the region covers the first quadrant, it will be pi/2
Now I understand! 🙃
That's good
That was cool🤤
Thank you! Please help me share the video with others 😁👍
Sorry but you didn't finish the final equation... what limits do you set for the #2 function then?
It is already finished. There is only one double integral set up combining the two given integrals.