From 537cc3e9dfb47e4d84d78ba19f6b760ab5955643 Mon Sep 17 00:00:00 2001 From: Preston Pan Date: Wed, 30 Nov 2022 10:43:00 -0800 Subject: add music page --- website/mathematics/calculus/derivative.pdf | Bin 33707 -> 33704 bytes website/mathematics/calculus/source/derivative.ms | 4 +- .../mathematics/differential_equations/index.html | 19 +++---- .../linear_algebra/source/introduction.ms | 57 +++++++++++++++++++++ .../linear_algebra/source/introduction.pdf | Bin 0 -> 24790 bytes website/media/music/dusk.mp3 | Bin 0 -> 2719045 bytes website/music/index.html | 24 +++++++++ 7 files changed, 90 insertions(+), 14 deletions(-) create mode 100644 website/mathematics/linear_algebra/source/introduction.ms create mode 100644 website/mathematics/linear_algebra/source/introduction.pdf create mode 100644 website/media/music/dusk.mp3 create mode 100644 website/music/index.html (limited to 'website') diff --git a/website/mathematics/calculus/derivative.pdf b/website/mathematics/calculus/derivative.pdf index fd3db0a..f56fc33 100644 Binary files a/website/mathematics/calculus/derivative.pdf and b/website/mathematics/calculus/derivative.pdf differ diff --git a/website/mathematics/calculus/source/derivative.ms b/website/mathematics/calculus/source/derivative.ms index 9e4196f..681e019 100644 --- a/website/mathematics/calculus/source/derivative.ms +++ b/website/mathematics/calculus/source/derivative.ms @@ -205,10 +205,10 @@ d sub initial = f(t sub {initial}) d sub final = f(t sub {final}) .EN .EQ -\[*D]t = f(t sub initial + \[*D]t) - d sub initial +\[*D]d = f(t sub initial + \[*D]t) - d sub initial .EN .EQ -\[*D]t = f(t sub initial + \[*D]t) - f(t sub {initial}) +\[*D]d = f(t sub initial + \[*D]t) - f(t sub {initial}) .EN .EQ f'(t) = {f(t sub initial + \[*D]t) - f(t sub {initial})} over \[*D]t diff --git a/website/mathematics/differential_equations/index.html b/website/mathematics/differential_equations/index.html index 1c414b4..209a363 100644 --- a/website/mathematics/differential_equations/index.html +++ b/website/mathematics/differential_equations/index.html @@ -3,22 +3,17 @@ Mathematics $$END TITLE $$START CONTENT -

Mathematics

+

Differential Equations

- Mathematics is the basis for the analysis of things that we - believe to adhere to our logical system. + Differential equations describe how things in our universe change. They come up + as fundamental equations in all models of our universe, and they also describe + change on more macro levels as well. Understanding differential equations gives + you one of the most powerful tools in mathematics.

-

Topics

+

Ordinary Differential Equations

-

- These are all the topics I have learned about so far. I will learn more in the future and add new topics. - All of these topics I know a lot about but writing the articles takes an extreme amount of time, so stay - tuned! -

$$END CONTENT diff --git a/website/mathematics/linear_algebra/source/introduction.ms b/website/mathematics/linear_algebra/source/introduction.ms new file mode 100644 index 0000000..106ffec --- /dev/null +++ b/website/mathematics/linear_algebra/source/introduction.ms @@ -0,0 +1,57 @@ +.EQ +delim $$ +.EN +.TL +Linear Algebra Introduction +.AU +Preston Pan +.AI +Pacific School of Science and Inquiry + +.PP +Linear algebra is a subject that is worthy of studying if you are looking +to analyze data in any systematic way, or if you are attempting to represent +multidimensional (or multivariable) quantities in a structured way. +Therefore, everyone in STEM and even in the social sciences should know about +linear algebra and a little bit of the mathematical theory behind it. + +.PP +I will be introducing subjects regarding linear algebra from the perspective +of physics, though you do not need to know much physics in order to understand +most of my explanations. + +.PP +You might know that in high school physics, all the equations are introduced +as one dimensional equations (that is to say, most equations that are introduced +only work if the object or objects in question only move forwards and backwards, +or any other singluar direction). Of course, in real life, there are at least +three spatial dimensions, so one dimensional equations just won't model real +life well. In these scenarios, it is useful to consider linear algebra as a +systematic way to represent direction and motion in three dimensions. With +this motivation, we start investigating. + +.PP +One way we can represent two dimensional space is with a coordinate system. For +example, we can have a point $(3, 2)$ which represents a single point three +units right and two units up in a coordinate system. + +.G1 +coord x 0, 11 y 0, 11 +3 2 +"(3, 2)" above at 3,2 +.G2 + +.PP +Now, let's imagine that this point $(3, 2)$ represents a force in a certain direction. +For example, we can draw a line from the origin to this point and the resulting force's +magnitude will be represented by the length of the line in question (which can be obtained +via the pythagorean theorem). + +.G1 +draw solid +coord x 0, 11 y 0, 11 +0 0 +3 2 +"(3, 2)" above at 3,2 +"$sqrt {3 sup 2 + 2 sup 2}$" above at 1,2 +.G2 diff --git a/website/mathematics/linear_algebra/source/introduction.pdf b/website/mathematics/linear_algebra/source/introduction.pdf new file mode 100644 index 0000000..b74d28a Binary files /dev/null and b/website/mathematics/linear_algebra/source/introduction.pdf differ diff --git a/website/media/music/dusk.mp3 b/website/media/music/dusk.mp3 new file mode 100644 index 0000000..a34ff98 Binary files /dev/null and b/website/media/music/dusk.mp3 differ diff --git a/website/music/index.html b/website/music/index.html new file mode 100644 index 0000000..f4cd5e3 --- /dev/null +++ b/website/music/index.html @@ -0,0 +1,24 @@ +$$START TITLE +Music +$$END TITLE + +$$START CONTENT +

Music

+ +

+ Here you will find some of the music that I've made. + Note that I am not a professional at singing, but I think + I'm pretty good at piano. +

+ +

Songs

+ + +

Improvisation

+ + +$$END CONTENT -- cgit