dy/dx, d/dx, and dy/dt - Derivative Notations in Calculus

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My calc professor never covered this, she just expected us to understand what the difference was! This video was a huge help so I thank you for clearing it up for me!

this is saving my life during online school where you don't learn shit

*The first few seconds already taught me more than my teachers ever could*

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You saved my life on my high school days and im very grateful for that ^_^ *thank you*

I have taken University Calculus 1 and 2 and this has always confused me. Whenever I'd ask a teacher they would just say its the derivative of y in respect to x but that means nothing! This video has finally made me understand something that I just had to guess at for over 2 years of calculus and almost a full year of calculus based physics

My German physics professor just "blitzed" through everything without talking about this. You just saved my life! Thanks a lot.

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Thank you for your gr8 work

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i wish my teachers explained it this concisely, i never knew what to do when i saw dy/dx and now i know! thank you very much

Thank you, you have really helped make Calculus look easier. We don't really go through this in Education. And the fact you use dy/dx instead of f' and g' helps me understand too. Now I know why d/dx is written and have learned better about how derrivatives with respect to a specific variable.

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JEE, NEET these are concepts are most important and play a vital role...... Once again thank you so much for explaining this clear.... 🤗🥺❤❤❤

Tomorrow morning I've my exam, and this saved me my time. Short and sweet. Thank you so much. There was a big confusion between them & I guess it's very clear now. Thanks!

Thanks that first part was very helpful I was always curious to know the difference between dy/dx and d/dx.
Now I know dy/dx tells us what the answer is and can also be written as y' and f'(x).
While d/dx is telling us to differentiate inside brackets.

Huge respect to you man!
You're educating millions arround the world online. We can't thank you enough
Love from India ♥️

I am not even learning this at school I just like his voice

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I was looking for (Why d/dx [d/dx (y)] = d²y/dx²) when I found your video and I understood it without even watching the rest.
You're an amazing teacher In every sense of the word.

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Great tutorial. Thanks for showing that math concepts can be comprehended if the basics are portrayed in clear, easy to comprehend steps.

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I am another grateful viewer! I’ve heard many explanations of the difference between dy/dx and d/dx, but yours was the first I understood!!!
If I understand correctly dy/dx=2x is a statement (this IS the derivative), whereas d/dx=x^2 is a command: differentiate x^2.

This is a good explanation but is missing something that produces confusion among the comments.
It is correct that d/dx (y^3) = 0.
It is in general also correct that d/dx (y^3) = 3*y^2 dy/dx. However, it should be clarified that this notation only "works" if y is a function of x.
Thus, it should be better written as: d(y(x)^3)/dx = 3*y(x)^2 dy(x)/dx.

My teacher explained the difference after someone asked her, but I still didn't understand her explanation. So you are saving my life here🤍🤍🤍

Took Calc 1/2 during Covid, somehow got past them but I never really learned anything. Now im coming back to learn them for Deep learning. You are a huge help

This was actually very helpful, my school just kinda skipped derivative notation and this is saving me before my implicit differentiation quiz, so thank you very much.

This is fantastic. Ive always struggled with this because its rarely explicitly explained.

You are litterally carrying me through my calc course, thx so much

If most teachers thought this way so many students will not be dropping math and science classes. Thanks for your help.

FINALLY THIS MAKES SENSE. GOD BLESS YOU

Dy/dx --> denotes a derivative of the function y with respect to x.
D/dx--> states that you should take the derivative of the function in the proceeding adjacent parentheses.
Dy/dx=d/dx (y)

It helps me to translate these notations into programming language statements. So dx/dy could be called with differentiate(x, y) where differentiate(expression, respect_to) is a function that accepts an initial expression and applies the “respect to” variable to each differentiated term in the expression.

Bro I love the way you teach, you REALLY helped me a lot, I am actually in first year at university. Your videos is literally a gold for me. Thank you very much!!!

Great. Thank you ! There are many videos in german who explain Derivative Notations, but not the diffenrence between dy/dx and d/dx. Now I finally understand this. Thank you !

Have a midterm tomorrow and this explained so much more than anything in the class 😭

Omg I think I finally got the basic idea of this.
They never explained this. They just threw it on you and expected you to know.

MR. Organic Chemistry Tutor, thank you for a solid analysis on Derivatives Notations in Calculus. This is an error free video/lecture on RUclips TV with the Organic Chemistry Tutor.

This is the best explanation I have heard ever and yet it is something so simple!

its hard to find the words to describe when you dont know these things, really helpfull thanks

"Let's see if youuuu, been paying attention?" Thanks for keeping on track kingggg

The first 2 minute solve my biggggest puzzle since I entered university.

another piece of the vast puzzle just dropped into place! Thanks

Wow you made it make sense in 5 mins when I couldnt get it for the past month

You just saved me from the anxiety of not understanding math from examples. ❤❤

What’s the point of multiplying by the derivative notation (eg. dx/dy in the example at 5:39)? What does that signify? Why isn’t it just 3x^2 + 5t^4?

I'd never missed any class if you were my professor thank you sir for educating me with your videos I'm glad I found your channel❣️

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i just finished my calc 1 test yesterday and tq for all ur vids throughout my semester

Just wanted to say that you've helped me a lot
in different subjects in high school and college. I am very grateful, Thanks

Sir thank you for all your effort, you have a natural gift for knowing how to explain

At 3:00 I don’t understand what it means “times dy/dx” I kinda get why we need to do it but i just can’t understand it logically please help

I have been search for a long time for this vidio🥶
I always confused on my physic before i see this vidio
Good job :)

Thank you, tomorrow my exam, i stuck in a basic calculation required only this but i don't have more time, thank you for your short video..
Love from Bangladesh

after seeing the first few sec, my assumptions are:
d/dx f(x) = the derivative of f(x)
dy/dx = the derivative of y
dy/dt = the derivative of y in relation to t
dx/dt = the derivative of x in relation to t
d/dy f(y) = the derivative of f(y) in relation to y

Man, you'r a King!

Also, just a note. You might wonder why
d/dy[x^3] is 3x^2 * dx/dy. Well the dx/dy term comes from the chain rule. Good thing to remember so you can understand the concept rather than just memorize how the dx/dy term got there.

Thank you! It's too late for me (Calculus was 30yrs ago) but at least now it makes sense why I never did quite understand the notation.

woah man! i cleared up my dbt in the first minute of your video. true peace when you get your doubts solved ! _/\_

dude at 3:00 why cant u differentiate y^3 with power rule.and why did u differentiated y^3 aditionally with dy/dx.please reply i am not able to sleep and move to other topics because of this doubt.

Saved my life man. Thank you

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changed my whole life for a second

@1:17 I have a question regarding the writing dy/dx. So I get it is the derivative of y relative to x. But why do we write it dy/dx ? There is no division, but we use a fraction to illustrate it ? Why is that ?

I may be wrong but I think the reason d/dx(y^3) = 3y^2(dy/dx) is because of the chain rule in which it is the derivative of the outside function times the derivative of the inside function. Since Y should represent some function of x being operated on, dy/dx represents d/dx of that unknown inside function in which you solve for in implicit differentiation.

Thank you very much teacher, has benefited many tutorials from this channel. Keep up the good job!

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Eyeopener. Helped me a lot. Thousand thanks

5:10 curious - why would one differentiate wrt to y in an equation without a y variable? what does this intuitively mean?

Thank you man it was very helpful for me pls post videos explaining the part after this

Bro
I'm on.the best college in Egypt(the Cairo uni)and i study computer
And I only.knew what this means by u
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Your video was amazingly helpful! Thank you for posting such magnificent lesson. But may I ask you one more question?
So the expression d/dx[y] means differenciate y in the view of x. And because deritative of y is simply 1, the answer would be dy/dx.
But would it be a flawed explanation if I say 'd dissapears while differenciating y, and dy emerges because the function is about variabe y'?

Yo guys where does he make these notes? I want to know so I can help some people learn and this seems pretty goood

The first minute I learned more than I did in a 3 hour lecture :'}

when differentiating with respect to a different variable, I always assumed that the argument had to be a function of the the variable we are differentiating by, otherwise the derivative would be 0. for example, if we take d/dx [y^2] and y is not a function of x, then it can be treated as a constant and the derivative is 0. But if it is a function of x, then it would be 2y•dy/dx. is this right? or was I mistaken

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I keep rewatching this vid because I keep forgetting thanks for making this vid

This really helped me out. MANY THANKS TO YOU

"THANK YOU FOR WATCHING"
NO MATE, THANK YOU FOR TEACHING

What how did you know what y's derivative was? What does respect to x mean????

ONE WORD "KING" 👑👑👑👑👑

fantastic! thank you so much for your very inductive explanations 😇

Thank you so much. I actually understand this. You're awesome!

Please make a video on Differential Equations and Mclaurin Series expansion

Cleared my much awaited doubt

this really helped, thanks for being articulate. I understand so much better now :) I was like wth do all these letters mean when I'm doing the same thing lol

We are the one who supposed to thank you❤

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Thanks a Zettabyte Sir!

Didn’t really explain why when there isn’t a variable y in the function but we are doing the derivative of the function r with respect to y. You now put dt/dy. What does this mean since the function r didn’t even have a variable y in it

I owe this guy a lot

Cool. Notation is so important to know for sure!

That was so, so helpful. Thank you