From 7c8ffd449ab7365cbe6e135f1a0a0de122d00e9e Mon Sep 17 00:00:00 2001
From: pommicket <leonardomtenenbaum@gmail.com>
Date: Mon, 29 Aug 2016 23:07:21 -0400
Subject: Changed navbar

---
 explanation.html | 107 +++++++++++++++++++++++++++----------------------------
 1 file changed, 52 insertions(+), 55 deletions(-)

(limited to 'explanation.html')

diff --git a/explanation.html b/explanation.html
index c7d778e..8434177 100644
--- a/explanation.html
+++ b/explanation.html
@@ -1,69 +1,66 @@
 <html>
-<head>
-<script src="js/latexit.js"></script>
-<link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.6/css/bootstrap.min.css">
-<link rel="stylesheet" href="css/style.css">
+    <head>
+        <script src="js/latexit.js"></script>
+        <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.6/css/bootstrap.min.css">
+        <link rel="stylesheet" href="css/style.css">
+        <script src="https://ajax.googleapis.com/ajax/libs/jquery/1.12.4/jquery.min.js"></script>
+        <title>AutoArt Explanation</title>
+    </head>
 
-<title>AutoArt Explanation</title>
-</head>
+    <body>
 
-<body>
+        <div id="navbar"></div>
+        <script src="navbar.js"></script>
 
-<h2>Explanation of AutoArt</h2>
-<a class="header_link" href="index.html">Home</a>
-<a class="header_link" href="all.html">All</a>
-<a class="header_link" href="mathematical.html">Mathematical Demonstrations</a>
-<a class="header_link" href="games.html">Games</a>
-<a class="header_link" href="apps.html">Android Apps</a>
-<hr>
+        <h2>Explanation of AutoArt</h2>
 
-<h4><a href="AutoImages.html">AutoImages:</a></h4>
-<p>AutoImages works by creating random functions using Markov Chains. Every image on your computer is made up of many very small squares called "pixels". Each pixel has a red, green
-and blue value. If a pixel has a red of 255, a green of 0, and a blue of 0, the pixel will be red. AutoImages creates 3 functions, the red function, green function, and blue function.
-Each function takes in the x and y position of each pixel (where the pixel is), and returns the red, green, or blue value for that pixel.
+        <h4><a href="AutoImages.html">AutoImages:</a></h4>
+        <p>AutoImages works by creating random functions using Markov Chains. Every image on your computer is made up of many very small squares called "pixels". Each pixel has a red, green
+        and blue value. If a pixel has a red of 255, a green of 0, and a blue of 0, the pixel will be red. AutoImages creates 3 functions, the red function, green function, and blue function.
+        Each function takes in the x and y position of each pixel (where the pixel is), and returns the red, green, or blue value for that pixel.
 
-<div lang="latex">
-\\
-R(x, y) =$ the red value of the pixel at position $(x, y)\\
-G(x, y) =$ the green value of the pixel at position $(x, y)\\
-B(x, y) =$ the blue value of the pixel at position $(x, y)\\
-$Where $R, G,$ and $B$ are created randomly.
-</div>
+        <div lang="latex">
+        \\
+        R(x, y) =$ the red value of the pixel at position $(x, y)\\
+        G(x, y) =$ the green value of the pixel at position $(x, y)\\
+        B(x, y) =$ the blue value of the pixel at position $(x, y)\\
+        $Where $R, G,$ and $B$ are created randomly.
+        </div>
 
-<p>It uses the random functions to calculate the colour of each pixel in the image.</p>
+        <p>It uses the random functions to calculate the colour of each pixel in the image.</p>
 
-<h4><a href="AutoVideos.html">AutoVideos:</a></h4>
-<p>
-AutoImages works by creating random functions using Markov Chains. Every video on your computer is made up of many images called "frames". When you play a video, you are just
-seeing a series of images played very quickly (at 24 images per second). Each image is made up of pixels, and each pixel has a red, green, and blue value. AutoVideos' functions
-given the colour of each pixel given its x and y positions, and its frame number (the first frame is frame #0, the second is frame #1 and so on).
-</p>
-<div lang="latex">
-\\
-t =$ Frame number$\\
-R(x, y, t) =$ the red value of the pixel at position $(x, y)$ in frame number $t\\
-G(x, y, t) =$ the green value of the pixel at position $(x, y)$ in frame number $t\\
-B(x, y, t) =$ the blue value of the pixel at position $(x, y)$ in frame number $t\\
-$Where $R, G,$ and $B$ are created randomly.
+        <h4><a href="AutoVideos.html">AutoVideos:</a></h4>
+        <p>
+        AutoImages works by creating random functions using Markov Chains. Every video on your computer is made up of many images called "frames". When you play a video, you are just
+        seeing a series of images played very quickly (at 24 images per second). Each image is made up of pixels, and each pixel has a red, green, and blue value. AutoVideos' functions
+        given the colour of each pixel given its x and y positions, and its frame number (the first frame is frame #0, the second is frame #1 and so on).
+        </p>
+        <div lang="latex">
+        \\
+        t =$ Frame number$\\
+        R(x, y, t) =$ the red value of the pixel at position $(x, y)$ in frame number $t\\
+        G(x, y, t) =$ the green value of the pixel at position $(x, y)$ in frame number $t\\
+        B(x, y, t) =$ the blue value of the pixel at position $(x, y)$ in frame number $t\\
+        $Where $R, G,$ and $B$ are created randomly.
 
-</div>
+        </div>
 
-<h4><a href="AutoAudio.html">AutoAudio:</a></h4>
-<p>
-All audio is stored as a series of samples. Each sample has a y position. For example the function</p>
-<div lang="latex">
-\\
-y(t) = sin(880 \pi t)\\
-$If $t$ is the time at which the sample is played
-</div>
-<p>  sounds like an A
-on a piano. AutoAudio creates a random function, then plays it.
-</p>
-<div lang="latex">
-S(t) =$ the $y$ position of sample at time $t
-</div>
+        <h4><a href="AutoAudio.html">AutoAudio:</a></h4>
+        <p>
+        All audio is stored as a series of samples. Each sample has a y position. For example the function</p>
+        <div lang="latex">
+        \\
+        y(t) = sin(880 \pi t)\\
+        $If $t$ is the time at which the sample is played
+        </div>
+        <p>  sounds like an A
+        on a piano. AutoAudio creates a random function, then plays it.
+        </p>
+        <div lang="latex">
+        S(t) =$ the $y$ position of sample at time $t
+        </div>
 
 
-</body>
+    </body>
 
 </html>
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