Fri Jul 28 07:18:56 UTC 2023

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Quatalog Updater 2023-07-28 07:18:56 +00:00
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<li>Sarah Marsden Greene</li>
</ul>
<span class="course-capacity">
Seats Taken: 533/600
Seats Taken: 534/600
</span>
</div>
</td>

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PHIL-4140: Intermediate Logic
</title>
<meta property="og:title" content="PHIL-4140: Intermediate Logic">
<meta property="og:description" content="This course is a continuation of PHIL 2140 , covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).">
<meta property="og:description" content="This course is a continuation of , covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).">
<link rel="stylesheet" href="../css/common.css">
<link rel="stylesheet" href="../css/coursedisplay.css">
<link rel="stylesheet" href="../css/themes.css">
@ -34,7 +34,7 @@
PHIL-4140
</h2>
<p>
This course is a continuation of PHIL 2140 , covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).
This course is a continuation of , covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).
</p>
<div id="cattrs-container">
<span id="credits-pill" class="attr-pill">

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@ -5,7 +5,7 @@
PHYS-1050: General Physics
</title>
<meta property="og:title" content="PHYS-1050: General Physics">
<meta property="og:description" content="A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and PHYS 1100 .">
<meta property="og:description" content="A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and .">
<link rel="stylesheet" href="../css/common.css">
<link rel="stylesheet" href="../css/coursedisplay.css">
<link rel="stylesheet" href="../css/themes.css">
@ -34,7 +34,7 @@
PHYS-1050
</h2>
<p>
A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and PHYS 1100 .
A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and .
</p>
<div id="cattrs-container">
<span id="credits-pill" class="attr-pill">

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<li>Charles Harold Martin</li>
</ul>
<span class="course-capacity">
Seats Taken: 679/753
Seats Taken: 680/753
</span>
</div>
</td>

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@ -142,7 +142,7 @@
<li>Charles Harold Martin</li>
</ul>
<span class="course-capacity">
Seats Taken: 288/720
Seats Taken: 289/720
</span>
</div>
</td>

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@ -5,7 +5,7 @@
PHYS-4240: General Relativity
</title>
<meta property="og:title" content="PHYS-4240: General Relativity">
<meta property="og:description" content="Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ASTR 4240 ).">
<meta property="og:description" content="Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ).">
<link rel="stylesheet" href="../css/common.css">
<link rel="stylesheet" href="../css/coursedisplay.css">
<link rel="stylesheet" href="../css/themes.css">
@ -34,7 +34,7 @@
PHYS-4240
</h2>
<p>
Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ASTR 4240 ).
Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ).
</p>
<div id="cattrs-container">
<span id="credits-pill" class="attr-pill">

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@ -142,7 +142,7 @@
<li>Holly A Traver</li>
</ul>
<span class="course-capacity">
Seats Taken: 99/100
Seats Taken: 100/100
</span>
</div>
</td>

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@ -21981,7 +21981,7 @@
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"code" : "PHYS-1050",
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"description" : "A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and PHYS 1100 .",
"description" : "A one semester calculus-based overview of physics fundamentals with an emphasis on applications. Mechanics, including equilibrium and statics, fluids, oscillations, and waves. Basics of thermodynamics and heat flow. Electrical circuits. Electromagnetic radiation and optics. Recommended for all students who intend to take only one semester of physics. Credit cannot be obtained for both PHYS 1050 and .",
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{
@ -24318,7 +24318,7 @@
"attributes" : null,
"code" : "PHIL-4140",
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"description" : "This course is a continuation of , covering basic metatheory of logic (including formal syntax and semantics, model theory, and soundness and completeness of proof systems), applications of logic (including automated theorem proving, deductive problem solving, and the axiomatization of various branches of mathematics), and alternative systems of logic (including sequent systems, diagrammatic logic, and modal logic).",
"name" : "Intermediate Logic"
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{
@ -26160,7 +26160,7 @@
"attributes" : null,
"code" : "PHYS-4240",
"credits" : "4 credits",
"description" : "Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ASTR 4240 ).",
"description" : "Introduction to the physics of gravitation and spacetime. Special relativity, tensor calculus, and relativistic electrodynamics. General relativity with selected applications of Einstein's field equations (gravitational time dilation; gravitational lensing; frame dragging; gravitational radiation). The physics of nonrotating and rotating black holes. Relativistic models for the large-scale structure of the Universe. Observational constraints on the cosmological parameters. Big Bang nucleosynthesis, the Cosmic Background Radiation. A culminating experience project is required. (Meets with ).",
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{