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	<title>High physics &#187; Thermodynamics</title>
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		<title>Thermodynamics Workshop</title>
		<link>https://high-physics.com/thermodynamics-workshop/</link>
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		<pubDate>Sat, 18 Sep 2021 20:28:03 +0000</pubDate>
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				<category><![CDATA[EBOOKS]]></category>
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		<category><![CDATA[molecular physics]]></category>
		<category><![CDATA[Physics]]></category>
		<category><![CDATA[Shvets]]></category>
		<category><![CDATA[Thermodynamics]]></category>

		<guid isPermaLink="false">https://high-physics.com/?p=1360</guid>
		<description><![CDATA[Title: Thermodynamics Workshop: Tasks with solutions Author: Valentyna Shvets Abstract: The Workshop gives step-by-step solutions to the number of tasks from the thermodynamics topic (molecular physics and thermodynamics). This Workshop is ideal for students who want to integrate the higher educational institutions.]]></description>
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		<title>Maxwell distribution law</title>
		<link>https://high-physics.com/maxwell-distributions/</link>
		<comments>https://high-physics.com/maxwell-distributions/#comments</comments>
		<pubDate>Fri, 11 Nov 2016 10:23:36 +0000</pubDate>
		<dc:creator>admin</dc:creator>
				<category><![CDATA[Classical physics]]></category>
		<category><![CDATA[e-learning]]></category>
		<category><![CDATA[Maxwell distribution law]]></category>
		<category><![CDATA[Thermodynamics]]></category>

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		<description><![CDATA[Maxwell  distribution law of velocities of the molecules has the form: (1) This distribution allows us to determine the mean speed, the mean square speed, and the most probable speed of the gas molecules. Let&#8217;s find the mean speed by formula (2): (2) Using the table integral for  (2), we obtain:  (3) Let&#8217;s find the mean [&#8230;]]]></description>
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		<title>Boltzmann distribution law</title>
		<link>https://high-physics.com/boltzmann-distribution/</link>
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		<pubDate>Thu, 10 Nov 2016 18:30:07 +0000</pubDate>
		<dc:creator>admin</dc:creator>
				<category><![CDATA[Classical physics]]></category>
		<category><![CDATA[Boltzmann distribution law]]></category>
		<category><![CDATA[e-learning]]></category>
		<category><![CDATA[Thermodynamics]]></category>

		<guid isPermaLink="false">http://high-physics.com/?p=1145</guid>
		<description><![CDATA[Let&#8217;s consider a gas that is in the gravity field (fig.1). Fig. 1. Ideal gas in the gravity field. Let&#8217;s write that pressure has gas  at altitudes z (1) and z-dz (2):      (1)      (2) Let&#8217;s find dp from the equations (1) and (2): (3) Let&#8217;s substitute to equation (3) the expression for obtained [&#8230;]]]></description>
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		<title>Entropy</title>
		<link>https://high-physics.com/heat-engine-entropy/</link>
		<comments>https://high-physics.com/heat-engine-entropy/#comments</comments>
		<pubDate>Tue, 25 Oct 2016 09:50:36 +0000</pubDate>
		<dc:creator>admin</dc:creator>
				<category><![CDATA[Classical physics]]></category>
		<category><![CDATA[e-learning]]></category>
		<category><![CDATA[entropy]]></category>
		<category><![CDATA[Thermodynamics]]></category>

		<guid isPermaLink="false">http://high-physics.com/?p=1018</guid>
		<description><![CDATA[Let’s construct a heat engine that converts heat into mechanical work. The heat engine consists of the next main elements: the working body (gas under the piston), heater, and cooler (fig.1). Fig. 1. The main elements of the heat engine. The ideal heat engine is called the heat engine in which the work carried out by [&#8230;]]]></description>
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