<?xml version="1.0" encoding="utf-8" standalone="yes"?>
<rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom">
  <channel>
    <title>Galactic Vortices on Superphysics</title>
    <link>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/</link>
    <description>Recent content in Galactic Vortices on Superphysics</description>
    <generator>Hugo</generator>
    <language>en</language>
    <lastBuildDate>Sat, 30 May 2026 00:00:00 +0000</lastBuildDate>
    <atom:link href="https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/index.xml" rel="self" type="application/rss+xml" />
    <item>
      <title>Galactic Vortices</title>
      <link>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-01/</link>
      <pubDate>Sat, 30 May 2026 00:00:00 +0000</pubDate>
      <guid>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-01/</guid>
      <description>&lt;p&gt;Galactic vortices are of mos3, with a mos1 center.&lt;/p&gt;&#xA;&lt;p&gt;These can be classified according to:&lt;/p&gt;&#xA;&lt;ol&gt;&#xA;&lt;li&gt;Vortex rotation direction&lt;/li&gt;&#xA;&lt;/ol&gt;&#xA;&lt;ul&gt;&#xA;&lt;li&gt;Clockwise&lt;/li&gt;&#xA;&lt;li&gt;Anticlockwise&lt;/li&gt;&#xA;&lt;/ul&gt;&#xA;&lt;p&gt;Rotation-wise, galactic qosts manifest as either galaxies or quasars.&lt;/p&gt;&#xA;&lt;table&gt;&#xA;  &lt;thead&gt;&#xA;      &lt;tr&gt;&#xA;          &lt;th&gt;Qost&lt;/th&gt;&#xA;          &lt;th&gt;Rotation&lt;/th&gt;&#xA;          &lt;th&gt;Purpose&lt;/th&gt;&#xA;      &lt;/tr&gt;&#xA;  &lt;/thead&gt;&#xA;  &lt;tbody&gt;&#xA;      &lt;tr&gt;&#xA;          &lt;td&gt;Galaxy&lt;/td&gt;&#xA;          &lt;td&gt;Anticlockwise&lt;/td&gt;&#xA;          &lt;td&gt;Convert energy into matter&lt;/td&gt;&#xA;      &lt;/tr&gt;&#xA;      &lt;tr&gt;&#xA;          &lt;td&gt;Quasar&lt;/td&gt;&#xA;          &lt;td&gt;Clockwise&lt;/td&gt;&#xA;          &lt;td&gt;Convert matter back to energy&lt;/td&gt;&#xA;      &lt;/tr&gt;&#xA;  &lt;/tbody&gt;&#xA;&lt;/table&gt;&#xA;&#xA;&#xA;&#xA;&#xA;&#xA;&lt;figure class=&#34;text-center pb-5&#34;&gt;&#xA;&#x9;&lt;img src=&#34;https://www.superphysics.org/photos/physics/galaxy.jpg&#34; alt=&#34;Galaxy&#34; class=&#34;rounded-lg shadow mx-auto &#34; loading=&#34;lazy&#34;&gt;&#xA;&#x9;&#xA;&lt;/figure&gt;&#xA;&#xA;&lt;ol start=&#34;2&#34;&gt;&#xA;&lt;li&gt;Vortex energy quantity&lt;/li&gt;&#xA;&lt;/ol&gt;&#xA;&lt;ul&gt;&#xA;&lt;li&gt;Large&lt;/li&gt;&#xA;&lt;li&gt;Small&lt;/li&gt;&#xA;&lt;/ul&gt;&#xA;&lt;ol start=&#34;3&#34;&gt;&#xA;&lt;li&gt;Vortex energy quality&lt;/li&gt;&#xA;&lt;/ol&gt;&#xA;&lt;ul&gt;&#xA;&lt;li&gt;Centralized Strong (spiral)&lt;/li&gt;&#xA;&lt;li&gt;Decentralized Weak (cluster)&lt;/li&gt;&#xA;&lt;/ul&gt;</description>
    </item>
    <item>
      <title>Galaxies</title>
      <link>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-02/</link>
      <pubDate>Sat, 30 May 2026 00:00:00 +0000</pubDate>
      <guid>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-02/</guid>
      <description>&lt;p&gt;Galaxies convert energy into matter, as stars and planets, just as quasars convert matter back into energy.&lt;/p&gt;&#xA;&lt;ul&gt;&#xA;&lt;li&gt;This prevents the universe from having a thermal death.&lt;/li&gt;&#xA;&lt;/ul&gt;&#xA;&lt;h3 id=&#34;galaxies&#34;&gt;Galaxies&lt;/h3&gt;&#xA;&lt;p&gt;The structure of a galaxy depends on the rotation and energy of its vortex.&lt;/p&gt;</description>
    </item>
    <item>
      <title>Large and Small Galaxies</title>
      <link>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-04/</link>
      <pubDate>Sat, 30 May 2026 00:00:00 +0000</pubDate>
      <guid>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-04/</guid>
      <description>&lt;p&gt;The largest galaxy to date is &lt;strong&gt;IC 1101&lt;/strong&gt;&lt;/p&gt;&#xA;&lt;p&gt;The smallest one is &lt;strong&gt;Segue 2&lt;/strong&gt;&lt;/p&gt;&#xA;&lt;h3 id=&#34;the-titan-ic-1101&#34;&gt;The Titan: IC 1101&lt;/h3&gt;&#xA;&lt;p&gt;IC 1101 is approximately &lt;strong&gt;6 million light-years&lt;/strong&gt; across. That’s 60 times wider than our galaxy!&lt;/p&gt;</description>
    </item>
    <item>
      <title>Quasars</title>
      <link>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-03/</link>
      <pubDate>Sat, 30 May 2026 00:00:00 +0000</pubDate>
      <guid>https://www.superphysics.org/material/principles/part-2/chapter-05/section-02/unit-03/</guid>
      <description>&lt;h2 id=&#34;quasars-are-reverse-vortices&#34;&gt;Quasars are Reverse Vortices&lt;/h2&gt;&#xA;&lt;p&gt;To prevent this, some qosts rotate in the opposite direction as quasars. This converts matter back into energy, reversing the process.&lt;/p&gt;&#xA;&lt;!-- Thus, spacetime can convert itself to photons then convert back to spacetime, conserving energy. &#xA;&#xA;But the creation of matter means that more energy is crudified as time passes. This means that the universe should lose energy as it ages, just like adding flour to a glass of water will make it solid eventually, since flour is solid. &#xA;&#xA;So why is the universe still energetic? --&gt;&#xA;&#xA;&#xA;&#xA;&#xA;&#xA;&#xA;&lt;div class=&#34;fade-in align-top text-center pb-5&#34;&gt;&#xA;    &lt;img src=&#34;https://www.superphysics.org/graphics/physics/quasar.jpg&#34; alt=&#34;Quasars as reverse vortices&#34;&#xA;         class=&#34;rounded-lg shadow mx-auto &#34; &#xA;         loading=&#34;lazy&#34;&gt;&#xA;&#x9;&#xA;&#x9;&#x9;&lt;figcaption&gt;In Cartesian Physics, quasars as reverse vortices&lt;/figcaption&gt;&#xA;&#x9;         &#xA;&lt;/div&gt;&#xA;&lt;!-- This is because stars and planets rotate in a clockwise motion.  --&gt;&#xA;&lt;!-- These turn in the opposite direction than the rest, let&#39;s say clockwise when others turn counterclockwise.  --&gt;&#xA;&lt;p&gt;When a large powerful clockwise vortex touches a small anticlockwise vortex, the latter does not go with the former, as in a galaxy.&lt;/p&gt;</description>
    </item>
  </channel>
</rss>
