Differential Equation Mixing Problem, calculus 2 tutorial

The question did not state to assume that it mixes perfectly. Isn't that a problem? (I ask because in my differential equations module they always state "which mixes perfectly...")

I just got a 98 on my differential exam and I owe It to this wonderful man because he taught me reduction of orders and variation of parameters, and I studied of course. Thank you very much.

I loved it. The contents of the first 4 minutes deserved to take longer and be slowly explained because that's the most crucial and difficult part in my opinion.

the nine people that disliked doesn't even realize how well this explanation was because they don't know separation of variable or something... This was so clearly explained..

Galon/min
Cries in EU
Even tho it doesnt really matter for this problem

I have this question in my textbook and was stuck at it since the past couple of days. I was about to go to my teacher to clear this doubt but then magically youtube recommends me your video.
It's like you can read minds.

Dude, thank you so much! I have a time conflict with my chem lab so I missed this lecture last week! Perfect timing!

This was a great explanation in showing it as a separable differential equation.

I have never had differential equations before (just measure them with recursion summation) and this is a clear example. Yay

You are the GOAT!!! Just in time for my differential equations test!

I used to hate the constant... Now I am starting to love it!

Thank you so much! Now I understand this topic much better

Excelent video! An interesting example of diferencial equation theory.
Greetings from Spain.

My dude, you are amazing! Thank you so much!

To sidestep the well known fact that the density (mass per unit volume) of alcohol diluted in water varies with concentration, you could specify "by mass" instead of "by volume."

Thanks for this class it helped me to understand this question easier

Cool video about derivates but also I just started precalculus and I'm studying optimization using first and second derivates

Nice explanation dude😉

"唯一“ melody at the end just makes this video another level

Yay! Besides this video, I also like the worksheet problem 2 which involves Newton's Law of cooling on forensic!

Hi @blackpenredpen I know this is an old video, but I wanted to let you know that I struggle with connecting the maths to word problems. Therefore, this video is very helpful to me and I really hope that you will make more in the future! Thank you for you contribution on YT :)

Epic explanation.

Plz do a short overview of recursively defined sequences! :)

thank you

Thanks

Well stated! I need to have a beer after this!

The formula for alcohol (the drinkable kind) is C2H5OH. Well, for an organic chemist anyway.

Ah! This is great! But this video came out the day after my exam which surprised me with this #yay

Sir do you have videos of integration by algebraic substitution?

Could you derive the Navier-Stokes equation in cylindrical coordinates without the use of the gradient operator ? For example, using differential elements; I think is a great example of how cylindrical coordinates work, subject even avoided by most fluid mechanics textbooks.

10/10 better than my calc lecture on this

How do you set up the equation if the rate in and the rate out are different? I have a problem where the rate in is 5L/min and the rate out is 3L/min with an initial volume of 100L. I don't know how to set up the concentration out

my light's were off and I was watching this vid alone with headphones in my room and my piano 3 meters behind me. I almost shit myself after hearing the piano melody at the end of the vid. Thanks.

Great!

next time you should do a problem with different rates going in and out. this is great for learning the basic idea though

Do you have an example where the outflow is larger than the flow in?

how to solve the lim as x tends to infinity e^x/x^e 🤔

_Separable_ differential equations are important for science or engineering majors. Most (all?) differential equations that describe the natural world are "autonomous" differential equations, which are always separable.
This is essentially a consequence of one of the fundamental assumptions in the philosophy of science - that natural laws are constants of the universe, they don't independently change with respect to time.

I personally find treating it as a linear DE and using an integrating factor easier than a separable DE. I also find it easier to plug in the initial value conditions while the equation is still implicit to avoid having to change the constant at every step. Is there any particular reason why you did it your way? Or is that just your preference?

Great video!
How about cos(x)=x?

Now can you do a video on partial differential equations please? I am struggling with this course.

at 6:00 i dont understand why you need to divide with 1/-0.01

The size of a gallon depends on what you are measuring and where it is located. There is only one kind of litre :)

what happen to the 4% alcohol (by volume)?

greattt

Me when the teacher says "let's add salt to this solution": yaaaaaaaawwwwwwwwn.
Me when were talkin about beer: Oh I get it now!

This man really be dual wielding markers

Hi, I have a question: does e^2 is irrational? And does rational^complex is not rational?

Imagine it with a reaction, welcome into the chemical engineer life

Woah, first time I see a differential equation solved like that lmao, usually my teachers say "assume the answer is in the form X(t)=Ke^(-t/tau)+C (by the way I had a calculus class, we NEVER learned how to solve a differential equation..)
And it's actually simple !

lets say they were pumped out at diff rates, if we wanted the amt of liquid total for a specific time, we would just have delta(r) or rin - rout, r = rate. so Vol(0) + delta(r)*time = vol(time). but why do they always seem to make it the same rate for these problems? doesnt seem that tough to calc the extra bit.

Please do this question
Solve for x
x^sqrt(x) = 3x/2

c1 = 189.711998

oh what i heard the outro and was wondering when did i play my music

Hey blackpenredpen , where did you get your whiteboard from?

At 5:50 why he divide by -0.01

Cool video, learned a lot but the random fade-in piano at the end of the vid caused a brief spook for me since I'm watching this early in the morning.

isnt it o.35t? because its in time

Can we do a part 2 and learn some fluid dynamics? I really want to know how the concentration of alcohol behaves as a function of time and space. This is probably more in Dr. Peyam's domain though.

Easier to do it using characteristic polynomial and undetermined coefficients for rather than separation of variables.

pls proof the "standard deviation" formula

Thanks for this. I tried to solve this problem scientifically and got really drunk

ME WHO OVERCOMPLECATE THINGGS: average of 7% and 4% for the concentration and the asnwer is still approximately 5.35.

You could have done with rate of beer being pumped out at a different rate. It would have been more interesting 😊

Can u integrate plz,
X^2/(1+X^5) dx
I get the math somewhere but no one is able to solve it!!! Plz can you try sir!!!!??

Level of interest very high with this one. I wonder why?

I still don’t understand why rate out is based on 500 gallon

You need to pump out 5 gallon of bear PER MINUTE??? Man, I don't think I can finish your 11 minute video.

The percentage of alcohol after an hour is "go home Johnny, you're DRUNK."

I have a question for u. Can u prove that 1+3+6+10+....+n(n+1)/2=n(n+1)(2n+1)/6?

YOU DIDN'T SAY "THAT'S IT"!!
unsubbing
jk

Why is +-c3 just taken as c4?

Universal Studios, hahaha.

Hli

#WHOA

someone drunk alot to get just a little bit of increase in that concentration lol

Please find sec(z) =1

Why did you get rid of your old intro? Yay

There is a critical assumption that during the time interval listed the beers aren't mixing and what goes out is only the original weaker beer.

x^(x+1)+1=(x+1)^x
Solve for x.
I know the answer is 0,1,2, how do you solve that?

The hardest part was to find the out volume. Everything else is too easy.

Maths is just as good as beer

hii sir

OK, I was about sleep, but how can I?

Hi @blackpenredpen! Every time you do this operation (7:44) I make the same question to myself! WHY +-C1 is just another constant? We lose one solution of the equation!
By the way I asked the same question in your website several months ago... www.blackpenredpen.com/discussions/math-problems/merging-constants-when-solving-diff-equations

Third

No alcohol for kids.

Gg

First

Hey man, Don't you have pain in your hand???
Use plaster belt to your hand please.... 🙏🙏🙏🙏🙏

Why do you hold your mike in your hand . Get a mike that can attach to your shirt .

Why did you get rid of your old intro? Yay