Ma'am you explained the Gauss's divergence theorem in such a way that in you tube no one explained like this. Thank you a lot Maan from my bottom of my heart ❣️❣️
Mamdam, you are really a great teacher of physics, among the others teachers. I like your teaching , writing clearly with explanation, statement , derivation etc. Maam you long live. 🙏🙏🙏🙏❤❤❤❤
Thank u thank u thank you so so so much mam....tomorrow is my exam and I am reading this theorem today...and i have seen so many video ..and I understand nothing but get confused...but after watching your video its become super easy...thank you once again 😊
Very wekk expalined with concept. Maam, can you send whole material of Electromagnetic Field subject? Which will beneficial for the exam point of you. Thanks
dv = dx.dy.dz Here we are going to take the dx only for Ax that becomes partial differentiation of x -> dx is same as dell x. So we can cancel both. Integral of differentiation of Ax = Ax itself.
Ma'am literally you r genius.......
Aapne 7 minute ke video me divergence theorem itne achhe se padha diya...Aapka content bahut achha hai..... 🙏🙏🙏
Thanks....☺
Mam you handwriting is awesome, and it increases the concentration to listen, and superbb explanation,thank you ❤️
Thanks....👍
Ak ak point kitne acche or simple trike se likha or smjaya mam aapne......thank you mam.....U r superb.
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Ma'am you explained the Gauss's divergence theorem in such a way that in you tube no one explained like this. Thank you a lot Maan from my bottom of my heart ❣️❣️
Thank you.....
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Loved it ♥️...never knew proving this would be this easy*
Is it gauss theorem?
Thank you....
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Divergence
Mamdam, you are really a great teacher of physics, among the others teachers. I like your teaching , writing clearly with explanation, statement , derivation etc. Maam you long live. 🙏🙏🙏🙏❤❤❤❤
Thank you so much....
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Thank you❤️...I needed it most right now❤️
Thank you...
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Best explaination in short time
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Maim mujhe is theorem se bahut dar lagta h lekin aapne itne ache se padhaya ki ab sabse aasan lagne lagi bahut bahut dhanyawad mam 🙏🙏🙏🙏🙏
Great lesson. Thank you very much. You are awesome!!!!
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such a great personality mam you are learning fantastic 🥰
Thank u thank u thank you so so so much mam....tomorrow is my exam and I am reading this theorem today...and i have seen so many video ..and I understand nothing but get confused...but after watching your video its become super easy...thank you once again 😊
Thank you so much....
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This theorem is also useful for engineering students to learn
👍
Ok..
Thank you mam .
It is very helpful
!!!!!!!!!!!!!!!!!!!!!! It is so clear and so understandable wow thank you
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Thanks mam for this outstanding solution 👌
Thank u ma'am for proving so accurately and precisely
Thank you...🙏
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Ma'am how del-x and dx canceling each other? Is it right?
Thank you mam.
Priyangadevi 1st year b.sc physics
Thank you ma'am 👍👶
Really made so easy mam. May Allah bless you!
Thank you....
Thank you so much.. it helps so much for me.
Thank you....
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Thank u mam u can explain in easy way i can't believe it after seeing thing video this therom is like easy🥳🥳🥳🥰🥰🥰
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Thank you man❤
Thank you. .
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Thanks mam for clear explanation 👍
Most welcome 😊
I subscribed this beautiful channel....... With extra talanted teacher... 🙏
Very good explanation
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Thank u mam ...shortcart way to learn
👍
tq
Thanku mam love u😘❤️
Thank you
Super explanation mam......thanku so much
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Thanks
Concept clear👌👌👌👌
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Excellent!
👍
Thank Madam 🙏
Thank you....🙏
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Thank you for your explanation mam
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Thankyou ma'am. 😄 very helpful
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Thanks alot
Thank you mam 👌👌
Wow ma'am. 👏. You made it so easy 😀
Thanks...👍
Tysm
Thank u so much ma'am ❤
Thanks maam.🙏🙏🙏
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Tq very much madam ur jenious
👍
Awesome video
Thank you...👍
Thanks mam really was helpful ❣️
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Nicely explained 😊
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Thnks
Thank you....
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Great lesson Mam. To the point and proper. But if a figure was added maybe became more perfect.
Thank you....👍
Thank you so much mum
But if possible we need an examples and solutions under the divergence theorem.
Sure.... I'll upload the problems solved video soon
Gauss divergence theorem and divergence theorem both are same or not
Tq so much for this....👍🏻✨
Aayegi kya ye exam me 😭😭
Thanku so much 💯🙏mam
👍
Madam could you please explain dielectric conductor interface
Well done
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Thank mam
Thank you.....
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So helpful mam
Thank you...
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❤❤❤
Thank you...🙏
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Thanku ma'am ✌
Thank you.....
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Mam one video on green's theorem 🙏
Sure....
@@PadmasriNaban mam 1st sem exams ahead not yet prepared please any importants for bsc MPC's please kindly share mam vidos links for preparation
Thank you madam..
👍
excellent mam
Thank you mam
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There is a did not cancel out the dx/ doax
mam r u teaching as per sadiku???
Clearly derived
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super
👍
Dy ko ro - x ke sath kaise cut kar diye
Tq mam👍👍
👍☺
Ye cancel kese hogaya
You are so geniouse Mam..I don't know how to thanking you mam...Do you have proved the green's theorem? Plz share this link
At the last section, the normal vector is missing. Is the proof valid even the normal vector is not present?
Whenever we are replacing dydz = dsx -> dsx represents dy and dz are the normal component of x axis.
In the last section, we can represent A.n ds
Nice mam aap achhha padati ho
Thank you....👍
Where is ' n ' in last answer ?
ds = nds where n is outward drawn normal
@@dipanshubhai640yaar ek saal hogaya usne cmnt karke😅....
@@rakeshpatil4024😂
Mam important questions bata Diya karo exam ke liye
mam if I write this without explaining the terms will i get full marks and mam add some language in the derivation otherwise great video
Sure ma...
I'll add explanation in coming videos..
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@@PadmasriNaban waiting eagerly
Beautifully explained 🤠
Thank you.....👍
👍👍
👍
Mam, do you have proved stoke's theorem ?plz share link.
How it is possible
मैडम डायग्राम भी बना कर दिखाओ प्लीज....
Mam how del z is cancelled with dz and same with all
same question brother because del a , del b , del c kaise cancel ho sakta hai dx, dy and dz se 😢
A=AxĀ+___ ?
How can this is possible
Ans is A or
A x A
Very wekk expalined with concept. Maam, can you send whole material of Electromagnetic Field subject? Which will beneficial for the exam point of you.
Thanks
👍
Very well* explained
🥰🥰🙏🙏......
Mam can we write this in physics
Yes...
Is this gauss theorem
Divergence
Thoda confusion hai ider mam, dSx=dYdz how,,
Surface area with respect to 'x' axis = length in 'y' . breadth in 'z'
S = y x z
In case of differential equation,
dSx = dy.dz
Exam lo rayavachcha
Mam this answer can we write in degree 1st sem1
Yes ....👍
Mam bsc 2nd year ke liye h ye video
Yes...
Not bad
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Mam udar do.x d.x kise bangaya
Jo vudar cancel hua he
Those two terms are the same in 1D so it really doesn't matter.
Mam please help exams mam
Plzzz reply mam
Maxwell s equations
I have uploaded Maxwell derivation video in EMF playlist in my channel...
1728 bs phy sem 1st sittara Asghar
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Dell x cancel but dx kese ho skta hai
dv = dx.dy.dz
Here we are going to take the dx only for Ax that becomes partial differentiation of x -> dx is same as dell x. So we can cancel both. Integral of differentiation of Ax = Ax itself.
Mam plz share this notes...🙏
Sure... Send me your mail id
Mam please give the explanation lest we can write this one properly in exam.
Mam please as soon as possible do this.
Sorry mam.
Thanks mam.
Send me your mail id
shoaibahmad01646385155@gmail.com
This id is very large.
Will send the lect by tomorrow
@@PadmasriNabanMam I didn’t get this one.
Please mam, give this one quickly.
Mam can I write it exams
Yes... You can write it in exams...👍
@@PadmasriNaban tq mam