Lec - 05 Prove that Euclidean space R^n is a Banach space || Complete proof

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#Euclidean
#BanachSpace
In this video space R^n is proved Banach space.
  1. My Dear Maths
  2. Functional Analysis
  3. Banach space
  4. Normed linear space
  5. Complete space
  6. Euclidean space
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Комментарии
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Sir, I liked the elegant way of proving this theorem.
Great sir..
Keep going...

AnkitSharma-efmd
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Each and every point is discussed. Thank you sir💐💐

Aakriti
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Sir, can't we use Minkowski's Inequality in (ii) property?

jyotirohila
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Sir aap bhot accha padhate ho saara smjh aa gya sir thank u sir

schooltime
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Thank you so much sir 🙏. Jb mene ye class me pdha tb mere sb kuch sir ke uper se gya pr jb aapki videos dekho ek ek single step mujhe clear hogya or ye subject bht accha lg rha h😊 thank so so much

poonambisht
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Thank you sir, but i have a question sir that... Norm of x (what you have proved that greater than zero) is the square root of the whole inside the bracket.
Result of square root may be negative..
Can you explain sir

MATMalayPanda
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Thanks a lot for nice and easy explanation.

rafiqulislam
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Sir you are better than University professor

anshusingh
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I don't have any words to describe your excellence sir you are really inspiration for me❤❤❤❤❤.

faisalansari
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Sir aapne 4th lecture me i = 1 to infinity liya tha or sir yha 1 to n liya .... Jo aapne is lecture me inequality btai h usme bhi aapne 1 to n hi btaya h but 4th lecture me sir 1 to infinity btaya tha Konsa shi h sir ??

rakhiyadav
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is square root of positive number always positive ??? please explain for first property

mathmaticalproblemandsolution
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Sir, you are great...sir in last after consequently l should write Banach space??

NisarAhmadMCS
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Sir, please tell me the playlist of class number 8, 9, 10

bakul
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I don't understand the language but I can understand the solution. Thanks

rockymdee