Unrelated to the video, but I just wanted to say thank you for the Linear Algebra series, it helped so much! If you could do a whole series on ODE's, you would literally be the greatest to ever do it. Please and thank you :)
I really appreciate that you worked through the problems explaining even the smallest of details (ex. explaining wheb you were doing arithmatic or algebra). It helped keep me on board the whole time as this is where I tend to get lost, wondering how my professor got different numbers. This was a great help, thank you so much!
This subject is hard for me because the word problems are not realistic. For example, how can 1 side of a ladder move faster than the other side. In the real world universe in which we all live in, how can a ladder increase its distance from a wall at 1ft/s while falling towards the ground at 3/4ft/s. The only way is to increase the length of the hypotenuse (ladder) which the derivative is not taking into account.
![How to Solve ANY Optimization Problem [Calc 1]](http://i.ytimg.com/vi/cUMvwG7wvzM/mqdefault.jpg)
![How to Solve ANY Optimization Problem [Calc 1]](/img/tr.png)
You are my Roman Empire
so true margaret
Thank you! My Calc BC final is tomorrow, this is a game changer for someone who's historically unskilled in related rates problems. :)
Bro started mewing 💀0:08
Like a true CHAD mathematician I thank him and am mewing right now as we speak
dude im going to fail my math test 😰
@@elspencicus7123 poor boya
@@elspencicus7123 mew during the test
Unrelated to the video, but I just wanted to say thank you for the Linear Algebra series, it helped so much! If you could do a whole series on ODE's, you would literally be the greatest to ever do it. Please and thank you :)
I really appreciate that you worked through the problems explaining even the smallest of details (ex. explaining wheb you were doing arithmatic or algebra). It helped keep me on board the whole time as this is where I tend to get lost, wondering how my professor got different numbers. This was a great help, thank you so much!
This is one of the best videos I have seen. Keep up the good work
I really appreciate your effort and this great framework! This helped so much and gave me something to apply more broadly. Thank you .
thank you so much for this video! very helpful! the ap calc ab exam is tomorrow and this is a subject i've struggled with all year, thank u!!
does this apply to edgemaxxing?
I’m using pumpmaxxing
Just touch some grass
tysm! quiz is tmrw and I needed a good review haha
Instead of defrentaiting tan(@), you can make @=arctan(x/80) you will not need to find @ since it’ll be d@/dt
omg thank you this has been the easiest video to follow
You freaking ANGEL!!! Thank you so much, this makes so much more sense! 🙏
Can you PLEASE DO A VIDEO ON introduction to related rates with TWO EQUATIONS!? In calculus
Awesome! You finally remembered you have a youtube channel? XD
these questions require creativity, and its so hard for me dang
This is awesome! Thanks!
This is so helpful, thank you so much for your service!
Thank you, keep making videos!
Great video. Thanks for sharing
You worked the flashlight and runner problem using the tangent. Can you explain why this problem cannot be worked using sin(theta)?
cuz opposite angle is not constant i think
No reason why you can’t, personal preference
This guy reminds me of Gabe from the The Office
For the second problem, would it be wrong to use sin? I got a different answer but the process still seems correct
Yes I think because of SOACAHTOA, which states that Tangent is Opposite/Hypotenuse while Sine = Opposite/Adjacent which would give u different answers
nevermind I have no idea what im talking about :(
@@uncle1804 haha thank you regardless
@@jessicaxin9460 check the angles i think the opposite isn't constant so u need tan
@@jessicaxin9460 I think its because 100 isn't constant and is only like that for that specific instant unlike 80 which stays at 80 at all times.
Thank you, this is so clear.
thanks a lot from Turkiye
This subject is hard for me because the word problems are not realistic. For example, how can 1 side of a ladder move faster than the other side. In the real world universe in which we all live in, how can a ladder increase its distance from a wall at 1ft/s while falling towards the ground at 3/4ft/s. The only way is to increase the length of the hypotenuse (ladder) which the derivative is not taking into account.
It's only at one "curve" in the chart. Eventually it turns into another curve and so forth.
Try it with a real ladder or ruler 📏. The ends move at different rates.
For the second one i got -9/80, how come you times it by sec squared theta?
i also got that
deririvate of tanx is sec^2x
Thanks
You’re amazing
Thank you.
Liquid dripping from cone onto cylinder.
thanks!
6:32 made me lose focus
edging to this
Wtf
Thank you
lol need u