DIFFERENTIATING LOGARITHMIC FUNCTIONS 

Very good explanation of every step! Better than my Calculus professor taught me in my college. Today I am 82 years old & learning! So never stop learning folks!

Sir just saved my maths career

The real Newton ❤ of our time

I just love the way a complicated quotient function was so simplified for the differentiation to be done easily. Kudos for all this. 👏

A nice mathematician giving a proper explanations. Love from KSA

I am 66 years old but would have dreamed to be 20yrs old. So fascinating❤

This video will help me pass the exam for sure. Thank you sir and before this, I actually used to do it the long way of applying the quotient rule and messing things up. But now I've got the shorter and easier way. Once again thank you sir

Found your videos on differentiation for tomorrow's test and these helped me a lot, all of my concepts were cleared which weren't from a few years even after learning them from different places even from many other RU-vid channels. even though I was very nervous starting today but your positive and fun attitude in teaching and your dialogues helped me feel relaxed while learning, LOVE FROM INDIA❤

This makes differential easier and my understanding over it more clearerd

Math is just so beautiful. Thank you for your content

YOU INSPIRE ME SIR AND YOU HEAL ME MATHEMATICALLY🙌

Man your explanation is absolutely understandable. I was given a similar question in my assignment and I find it really hard to solve it but after I watched your video I can now be able to do my assignment but not only that, I can also do other questions in relation to differentiating Natural logarithm function.... Man thank you so much and may God bless you 🙏

...A good day to you Newton, And to think that this method of differentiating monstrous out of this world-looking functions was developed because of the fact that mathematicians in general are a bit lazy (lol); maybe we all need to get a little lazier, resulting in a less complicated and more peaceful conflict-free world around us. Your pleasant and easily digestible presentation was the starter of my dinner, thank you for this Newton, a very good job... Take good care, Jan-W p.s. Also nice to see that the logarithmic rules are all connected to each other (at least for me), resulting in less learning!

The simplicity though!😊Awesome!

You are best teacher in differentiation

I always learn a lot from these videos! Well done, sir! And with a great smile! 😁

This is better than my Maths Professor Someone make him a professor

Very clear writing and clear explanations. Will look for more log content.

Ive learnt how to differentiate a complicated function in 11 minutes as compared to hours of sitting in class , confused~ thankyouso much :)

This is awesome!

thank you the way you explain these things make them simpler

Much cleaner explanation than another video of similar problem.

from today you are my teacher

Very clear and easy to be understood.

Purely Amazing sir.

Your marvelous 👊🏾

made it so simple

A great mathematician

Fantastic ,well sequenced here audio is perfect !

Simply wonderful!!! It looked so complicated, but you know what you are doing 😀. This was great.

wow. so amazing derivative

It just gotten to me easy , no need for revisions I just got it ❤. You teach clear.

this vidoes has really helped me alot . now i has knowledge about calculs

For some reason you make me happy, thank you ❤

Yooo wish you had mechanics classes too this is such a pure explanation thamk you sir 🙏

Very good. Thanks Sir 🙏🙏🙏

This is marvellous

This is really helpful

Nice explanation 🙏

made my life so much easier, dankooo!

Clean brother

Super cool i love this

Keep up the good work😀

Clean!!

Really helped me!

You actually know mathematics you are marvellous

Simply great, many thanks, Sir! Very elegant. dy/dx = cot⁡(3x) + 2(x^2 + 5)/x(2x^2 + 5)

Very helpful

Awesome

broooooooo thank you so much this is awesome !

great.

Wont stop learning with yh around lol

I did it with log properties first and then I tried it the brute force method and it really but my algebra to the test. In the end I was able to get the same result tho 😮‍💨

You're good sir🔥💯

lifesaver!

You’re awesome!

this is so awesome

Thank you sm for this

I love this ❤❤❤

you're a Genius Man 👍

Una be agbatophyter u too brilliant 🤲🤲

Wonderful 👏

Thank you

I love it

thank you sir ❤

You're a legend

Nice❤

thank you

Making maths look so easy❤

Sir please do implicit differentiation of logarithmic function. Like the implicit in higher derivative

actually I love it

the goat

👏🏼👏🏼👏🏼👏🏼

wow

" Never stop learning those who have stop learning have stop living"😅

...Newton, I thought about your presentation for a while, and wonder if the title is correct: "Logarithmic Differentiation"? The function is not differentiated logarithmically, but only simplified first with the help of log rules before differentiating in the usual way, right? I see no implicit differentiation (d/dx(ln(y)) = d/dx(ln(...)))! I don't think this example in its given form is suitable for Logarithmic Differentiation! I would like to receive your comment on this. Nevertheless, your presentation remains very instructive... Jan-W

Where did you get this question from?

shouldnt it be ln y = simplified ln function?

Love this, man...just saved my nipple 😂

banger

❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤😂

Why am I seeing this now😭😭😭but i hope it's not too late

🥺🥺🥺🥺🥺🥺🥺🥺🥺

You are required to take the natural log of y too, if you are using logarithmic differentiation.

=> y'=ln[2x•1/2(x^1/2)•3sin(3)^2/3] y'=ln[2x/6(x^1/2)(sin(3)^2/3)] y'=ln[1x/3(x^1/2)•(sin(3)^2/3)] y'=3(x^1/2)•(sin(3)^2/3) y'=3(x^1/2)•0,1399 = y'=0,419(x^1/2)

you cooked

this helped me a lot #neverstoplearning

thank you

❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤😂