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Cinema M119
Приєднався 4 тра 2013
This channel is a repository for instructional calculus videos.
7.5.2 How to sketch the antiderivative of a function represented by a graph
7.5.2 How to sketch the antiderivative of a function represented by a graph
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Відео
6.3.3 - Solving for the investment time
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How to solve for the investment time of an income stream when given the present value!
6.3.2 - Solving for the income stream
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How to solve for an income stream when given the present value!
6.3.1 - Present and Future Value of Income Streams
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How to find the present and future value of a stream of money, instead of a single investment.
6.3.1 - Present and future value
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How to find the amount of a future value that comes from the income stream, and the amount that comes from interest.
7.3.3 Substitution and definite integrals
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7.3.3 Substitution and definite integrals
7.3.2 Some examples of computing definite integrals
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7.3.2 Some examples of computing definite integrals
7.3.1 Introduction to evaluating definite integrals
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7.3.1 Introduction to evaluating definite integrals
7.4.4 - Another Exponential Example
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Integration by parts on a harder exponential.
6.1.3 - Antiderivative Examples
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Examples of average value using antiderivatives
6.1.2 - Table and Area Examples
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Examples of finding average value using tables and area
7.4.5 - How to find Antiderivatives
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A how-to chart for how to find antiderivatives!
7.2.4 Substitution involving integrals of form f'(x)/f(x)
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7.2.4 Substitution involving integrals of form f'(x)/f(x)
7.2.3 Substitutions involving the exponential function
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7.2.3 Substitutions involving the exponential function
7.2.2 substitutions involving polynomials raised to positive powers
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7.2.2 substitutions involving polynomials raised to positive powers
7.2.1 Introduction to the substitution method
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7.2.1 Introduction to the substitution method
7.1.1 Introduction to antiderivatives
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7.1.1 Introduction to antiderivatives
5.5.4 How to find variable costs and total costs given the marginal costs
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5.5.4 How to find variable costs and total costs given the marginal costs
5.5.2 How to recover values of original function using graph of the derivative
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5.5.2 How to recover values of original function using graph of the derivative
7.1.2 The Power Rule for Integrals
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7.1.2 The Power Rule for Integrals
7.1.3 Advanced examples of Power Rule for Integrals
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7.1.3 Advanced examples of Power Rule for Integrals
7.1.5 Specifying Anti-derivatives using Initial Values
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7.1.5 Specifying Anti-derivatives using Initial Values
7.1.4 Integrals of Exponential Functions
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7.1.4 Integrals of Exponential Functions
5.5.3 From Marginal Cost to Total Cost via Integration using Charts
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5.5.3 From Marginal Cost to Total Cost via Integration using Charts
5.4.3 Intepretations involving the definite integral and graphs
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5.4.3 Intepretations involving the definite integral and graphs
you’re the goat
Helpful 🙏🙏🙏
Wow. Thanks. This is brilliant.
it is not true
i can barely hear anything :(
Careful you made a mistake, the derivative of 15x^2 is 30x, you wrote 3x
It’s 1.5, not 15
thank you!
4 minutes of explaning taught me more than my professor spending an hour explaining, thank you so much.
Thank you very much (big Ubuntu #1)
thank you
thanks
Wonder what happened to this dude.
One year after your comment, I came across this guy and wondered the same
@@baolongnguyen7844Almost 1 year later, I am wondering the same
Straight to the point, hvala 🙏🏻
Thank you. Good lecture. I wonder about your graph of F. I suppose in (2,3) interval graph should be concave up and from 3 to 5 (3,5) interval the graph of F should be concave down according to the information of derivative. Am I correct?
Fantastic!!! Thank you!
Legend
Very helpful,thank you for posting this video ☺️
if I plug it into symbolab I'll get the same answer but my calculator gives me something completely different. why is that?
So helpful thanks🚀
I’m still so confused, I can’t tell when mine begin the turn
THANK YOU!!!
what if you have no x when you take 2nd derivative?
Thanks very much it helped quit significantly in my assignment.
you have excellent handwriting
thank you very much
thank u. this was detailed and well done.
Thank you
bro were you tweakin out on c lmaooo
Thankyou
Awesome video
Memorization is not understanding, garbage teacher
Thank you very much
Life saver! I don't know if this account is still active but thank you!!!!
Thank you so much! Could not find any videos on initial value problems that reference only the antiderivative as the condition needing to be met for a particular antiderivative.
this wasn’t an introduction, this was total nonsense
At what time is the beaker still only half full? Find out for yourself: ua-cam.com/video/SwtTxgxYPEk/v-deo.html
You just helped me pass a Calc exam :D
why did you divide by two?
half of the video has no sound
But the key was told in RH part.
isnt it CONVEX, instead of concave?
Can't we use range of function for global maxima and minima
This video has saved me. I struggle over this notation.
Thanks!
thx
Not helpful at all
Thanks for the explanation! This was super helpful
Shouldn't the graph between (2,3) be concave down since F'(x) is decreasing
Yes, Pranav is correct: this video is incorrect and one of the errors is the concavity on (2,3). Another error is the concavity on (3,5) (it should also be concave down). Other errors are that F must be differentiable (so "smooth and curvy" not "sharp and pointy") at both 2 and 3 since f=F' exists at those values but the graph drawn in the video is nondifferentiable at 2 and 3. More specifically, since f(3)=0, the slope of F should be 0 at 3.
Here's my version of this video: ua-cam.com/video/Zz8mE0RtO78/v-deo.html.
my college calculus professor can't even teach this right smh. thanks!
I know right.. I wonder why? Literally dogshit fake professors. I have no idea how they even got the job..
Ryan Mously my high school calculus teacher is halfway decent but still no where as good as the guys on UA-cam
This is awesome! Thank you!
I don't understand how you know the initial value of F(x) is 4
He doesn't it's just for the example
A lot of times it’s given