We begin our study on the work of Joseph Fourier (1768-1830) with the definition of the Fourier Series - a way of expressing functions as infinite sums or integrals or trigonometry functions.
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Our first official lesson on multivariable calculus. We start by examining the double integral, how we use the limiting process and apply it to two variables.
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A short video explaining the Gradient Vector Field, a difficult part in understing vector Calculus. Hope you enjoy it.
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A proof of a special case of Green's Theorem where the graph can be described in two ways.
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Suppose that x^2+y^2=14x+6y+6. What is the maximum value of 3x+4y?
It took me a while to solve it.
A written solution can be read from http://www.gaussianm ath.com/functions/19 96AHSME25/1996AHSME2 5.html
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Time travel is possible in mathematics! Hope you enjoy the 2-part video.
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Before we head to evaluating double integrals, we need to be familiar with a somewhat new technique of integrating, how we integrate a function in two variable with respect to one variable only.
For a more in depth look at multiple integrals or other calculus related topices, please visit www.gaussianmath.com
A long 3-part video on the 'Fundamental Theorem of Space Curves', a theorem in Vector Differential Caculus.
I suggest you view this only if you are taking a course in vector calculus. If not, it could just be a waste of your time.
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A short introduction to hyperbolic functions. Don't get mislead by their 'unpopularity' compared to trigonometric functions. Hyperbolic functions do have their uses.
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A short lesson on basic Kinematics, how to derive the equations of motion under constant acceleration.
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Let's look at the graphs of various Fourier Series. To illustrate the series, we will be taking the Nth partial sum. It is also here where we notice some interesting behaviour of some Fourier Series.
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Using partial integration, we can now go in the proper methods of evaluating double integrals.
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Following our previous lesson, we now derive the location of a hydrostatic force on a plane surface. It turns out that the centre of pressure and centroid is NOT the same.
Gaussian Math Fluid Mechanics module, situable for those studying it as an undergraduate module.
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A mathematical rigorious approach to derive Archimedes' principle. We find the magnitude of the Buoyancy force here.
Gaussian Math Fluid Mechanics module, situable for those studying it as an undergraduate module.
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We start our tour into Bernoulli's Equation by resolving forces.
Gaussian Math Fluid Mechanics module, situable for those studying it as an undergraduate module.
Check out www.gaussianmath.com for an indepth study with downloadable notes or for more math related content.
Following up with my previous video on the directional derivative, here is a short example. Situable for those taking vector calculus or enginnering math in general.
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In this 3-part video we follow Leibniz in his pursuit to find the area of a quater circle of unit radius via integration, trigonometry and series expansion. Simply amazing!
Hope you like it. Check out www.gaussianmath.com for a more indepth explanation.
We see how, through a simple procedure, we define the limits of a type I region R.
For a more in depth look at multiple integrals or other calculus related topices, please visit www.gaussianmath.com
![Complex Numbers de Moivre\](http://img.youtube.com/vi/PFJ7J8tvrQo/2.jpg "Complex Numbers de Moivre\")
![Line Integral - proof of Green\](http://img.youtube.com/vi/8ozE7hyOMz4/2.jpg "Line Integral - proof of Green\")
![Fluid Mechanics - Archimedes\](http://img.youtube.com/vi/ZdfLnxTQnqQ/2.jpg "Fluid Mechanics - Archimedes\")
![Bernoulli\](http://img.youtube.com/vi/qSb0D61qfQE/2.jpg "Bernoulli\")
