Keywords: kinetics
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1-D and 2-D Kinematics, Projectile Motion I Fall 2007
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Abstract: 1-D and 2-D Kinematics, Projectile Motion I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
1-D and 2-D Kinematics, Projectile Motion II Fall 2007
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Abstract: 1-D and 2-D Kinematics, Projectile Motion II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws I Fall 2007
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Abstract: 2-D Kinematics, Forces and Newton's Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws II Fall 2007
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Abstract: 2-D Kinematics, Forces and Newton's Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws III Fall 2007
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Abstract: 2-D Kinematics, Forces and Newton's Laws III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
Biomolecular Kinetics and Cellular Dynamics (BE.420J), Fall 2004
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Abstract: This subject deals primarily with kinetic and equilibrium mathematical models of biomolecular interactions, as well as the application of these quantitative analyses to biological problems across a wide range of levels of organization, from individual molecular interactions to populations of cells.
Biomolecular Kinetics and Cellular Dynamics, Fall 2004
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Abstract: This subject deals primarily with kinetic and equilibrium mathematical models of biomolecular interactions, as well as the application of these quantitative analyses to biological problems across a wide range of levels of organization, from individual molecular interactions to populations of cells.
Computational Quantum Mechanics of Molecular and Extended Systems, Fall 2004
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Abstract: The theoretical frameworks of Hartree-Fock theory and density functional theory are presented as approximate methods to solve the many-electron problem. A variety of ways to incorporate electron correlation are discussed. The application of these techniques to calculate the reactivity and spectroscopic ... More »
Conservation Laws I Fall 2007
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Abstract: Conservation Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Conservation Laws II Fall 2007
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Abstract: Conservation Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Conservation Laws III Fall 2007
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Abstract: Conservation Laws III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Displacement
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Abstract: Motion involves two types of measurements : one which depends on the end points (displacement) and the other which depends on all points(distance) of motion.
Dynamics: Forces, Motion and Newton's Laws I Fall 2007
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Abstract: Dynamics: Forces, Motion and Newton's Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
Dynamics: Forces, Motion and Newton's Laws II Fall 2007
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Abstract: Dynamics: Forces, Motion and Newton's Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
Dynamics: Forces, Motion and Newton's Laws III Fall 2007
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Abstract: Dynamics: Forces, Motion and Newton's Laws III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
Entropy and Second Law I Fall 2007
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Abstract: Entropy and Second Law I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in ... More »
Entropy and Second Law II Fall 2007
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Abstract: Entropy and Second Law II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in ... More »
Entropy and Second Law III Fall 2007
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Abstract: Entropy and Second Law III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in ... More »
First Law of Thermodynamics I Fall 2007
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Abstract: First Law of Thermodynamics I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study ... More »
First Law of Thermodynamics II Fall 2007
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Abstract: First Law of Thermodynamics II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study ... More »
